Public Comment - Epidemiological Studies

Att2a Category 7 - Epidemiological study comments.pdf

Collections Related to Synthetic Turf Fields with Crumb Rubber Infill

Public Comment - Epidemiological Studies

OMB: 0923-0054

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PUBLIC SUBMISSION

As of: 4/28/16 11:22 AM
Received: April 15, 2016
Status: Posted
Posted: April 22, 2016
Tracking No. 1k0-8p39-1hhr
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0024
Comment on FR Doc # 2016-03305

Submitter Information
Name: Jerome Silbert M.D.
Address: 06437
Email: [email protected]

General Comment
I am a physician trained in pathology with boards in anatomic pathology, clinical pathology and
blood banking. I have been following the controversy over tire crumb rubber for several years
and have reviewed a number of the published studies on this matter.
I congratulate the governmental agencies for taking up this important matter to establish
whether ground up tires used on artificial grass fields in the form of crumb rubber is a suitable
for children to play on.
After reviewing a number of studies I must conclude that, thus far, the studies are totally
inadequate to establish the safety of tire crumb rubber for artificial grass playing fields.
Background:
A recent study at Yale University was done on shredded tires and tire crumb rubber by Gaboury
Benoit, Professor of Environmental Chemistry, Professor of Environmental Engineering, CoDirector of the Hixon Center for Urban Ecology, Director of the Center for Coastal and
Watershed Systems.
Crumb rubber from tires is a very heterogeneous material coming from tires that have many
different chemical compositions so it is legitimate to include shredded tires that are used on

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playgrounds as well as crumb rubber that is used in artificial grass to see to what chemicals
children will be exposed. Professor Gaboury's findings were quite shocking.
96 chemicals were found in 14 samples analyzed. Half of those chemicals had no government
testing on them - so we have no idea whether they are safe or harmful to health! Of those
chemicals found that have had some government testing done on them, there were 12
carcinogens, and 20 irritants.
There is no dispute over the fact that there are carcinogens and toxic compounds in tires and
products made from tires. The claims of safety rely upon assumptions about whether exposure
to these chemicals (and metals) are within levels recognized as safe.
There are number of reasons why I believe the studies thus far are totally inadequate.
1) When the determination is made that the exposure to toxins and irritants is within safe levels
it is based on studies of the toxicity of each individual chemical. If all the chemicals are shown
to be within safe levels of exposure the conclusion is made that there is minimal if any risk.
This conclusion is totally unjustified because it does not take into account that the exposure is to
many of these chemicals simultaneously. It is well established that when toxic chemical
substances are combined together (termed the combination effect) they can cause adverse
effects to human health, even if the individual chemical substances are within levels considered
safe. It is my hope that you will take this into account when you do your safety assessments.
2) To my knowledge, there have been no in vivo studies regarding frequent and close contact
with tire crumb rubber. There is a requirement for these kinds of studies for pharmaceuticals
and for pesticides. But apparently not for tire crumb rubber. Instead of assuming that exposure
levels are safe, Particularly when the exposure is to a complex mixture of toxic agents and
irritants, it only makes sense to do toxicity studies with living systems that are actually exposed
to the complex mixture to which children will be exposed.
I find it a serious flaw even in pesticide testing that only the active agent in the pesticide is
tested for in vivo toxicity when, in actuality, the way the pesticide is used is in combination
with a mixture of chemicals designed to enhance the pesticides toxic effect and, in many cases
in combination with other pesticides.
When such studies are conducted, it should be kept in mind that crumb rubber fields can reach
very high temperatures in the sun and give off larger amounts of volatile organic compounds.
In there is to be any confidence in your study, in vivo toxicity testing needs to be done with the
crumb rubber to which children and athletes are actually exposed.
3) Amy Griffin a goalkeeper for the U.S. National team has been informally tracking American
soccer players with cancer since 2009, when she noticed a number of young athletes who'd
played soccer on artificial fields were getting sick.
In 2014 Griffin, had heard from 38 soccer players who'd been diagnosed with cancer (mainly
non-Hodgkin's lymphoma). That tally has climbed to 220 athletes - 166 of them soccer players.
Of the soccer players, 102 were former goalkeepers who spent more time on the ground and

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were more exposed to crumb rubber than their teammates.
This points to the need of a epidemiological study to see if there is indeed an abnormal increase
in cancers among athletes that play regularly on artificial turf with crumb rubber infill.
Important to note is that lymphomas often have a long lag time between exposure and
manifestation of the disease.
Thank you for this opportunity to comment.
Respectfully,
Jerome A. Silbert, M.D.

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PUBLIC SUBMISSION

As of: 5/3/16 6:18 PM
Received: April 29, 2016
Status: Posted
Posted: April 29, 2016
Tracking No. 1k0-8pcg-82s1
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0045
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Maya van Rossum
Address: 19007
Email: [email protected]

General Comment
The Delaware Riverkeeper Network submits the attached comment for your consideration.
In addition to the attached comment we would like to request that Maya van Rossum, the
Delaware Riverkeeper, on behalf of the Delaware Riverkeeper Network, be identified as a
stakeholder for participation in your process. Ms. van Rossum has engaged in a significant
amount of research and community education and advocacy around the issue of synthetic turf
fields, particularly those with crumb rubber infill, and would bring an important environmental
and community perspective to your deliberations. Ms. van Rossum is the primary author on the
documents we are submitting today.
Ms. van Rossum can be reached at:
[email protected]
or by phone at 215 369 1188 ext 102
Respectfully submitted and requested.

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(p.s. the action alert document submitted previously was submitted in error and need not be
entered for the record.)

Attachments
Comment 4.29.16 ATSDR & EPA re Art Turf study

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April	29,	2016	
	
Leroy	A.	Richardson,	Information	Collection	Review	Office	
Centers	for	Disease	Control	and	Prevention	
1600	Clifton	Road	NE.,	MS-D74	
Atlanta,	Georgia	30329.	
	
Federal	eRulemaking	Portal:	Regulation.gov	
	
Re:		Docket	No.	ATSDR-2016-0002		
	
Dear	Mr.	Richardson,	
	
Conducting	additional	research	into	the	health	and	environmental	impacts	synthetic	turf	fields	with	
crumb	rubber	infill	is	essential.		Crumb	Rubber	turf	fields	are	proliferating	quickly	through	
communities	with	schools	and	municipalities	constructing	crumb	rubber	fields	to	accommodate	kids	
playing	sports	of	all	ages	from	elementary	level	on	up.			In	every	instance	school	district	and	town	
officials	cite	industry	funded	research	as	a	primary	demonstration	of	safety.		Inadequate	Government	
documents	are	of	little	help	in	countering	such	assertions	or	information	the	decisionmaking	process	
as,	to	the	degree	they	exist,	they	are	very	limited	in	scope,	they	often	rely	on	industry-provided	
information,	and	they	often	rely	on	an	absence	of	information	as	somehow	supporting	a	
demonstration	of	no	harm.			A	thorough	and	independent	investigation	is	essential	if	we	are	to	protect	
children,	adults	and	the	environment	from	the	harms	of	crumb	rubber	artificial	turf.	
	
The	Delaware	Riverkeeper	Network	would	also	like	to	suggest	that	research	into	the	impacts	of	other	
artificial	turf	infill	materials	is	important	given	that	they	too	are	the	subject	of	a	multitude	of	claims	of	
safety	backed	by	little	but	industry	marketing	materials	and	industry	funded	research.			
	
I	believe	it	will	be	important	to	include	an	organization	like	the	Delaware	Riverkeeper	Network	
among	your	stakeholders.		We	have	had	to	engage	in	significant	research	into,	and	advocacy	about,	
artificial	turf,	its	environmental	and	health	impacts	on	a	number	of	occasions	over	the	past	8+	years.	
As	a	result	we	have	a	significant	and	healthy	understanding	of	the	science	and	the	issues	that	have	
been	and	need	to	be	evaluated.			
	
I	include	with	this	comment	a	series	of	fact	sheets	and	informational	materials	created	by	my	
organization	to	help	inform	local	debates	regarding	the	construction	or	expansion	of	artificial	turf	
DELAWARE RIVERKEEPER NETWORK
925 Canal Street, Suite 3701
Bristol, PA 19007
Office: (215) 369-1188
fax: (215)369-1181
[email protected]
www.delawareriverkeeper.org

fields.		In	these	materials	we	cite	a	number	of	scientific	and	government	materials	that	assess	the	
environmental	and	health	impacts	of	crumb	rubber	artificial	turf.		We	would	like	to	submit	them	for	
the	record	and	your	consideration.	
	
Synthetic	turf	is	generally	made	with	rubber	from	waste	tires.		Recycled	rubber	varies	considerably	in	
its	chemical	composition,	even	when	from	the	same	manufacturer.1		Hazardous	substances	found	in	
tires	may	persist	in	the	environment	including	polycyclic	aromatic	hydrocarbons	(PAHs),	phthalates	
and	certain	metals.		These	substances	may	be	bioaccumulative,	carcinogenic,	reprotoxic,	mutagenic	
and/or	endocrine	disrupting.2			
	
• Most	PAHs	are	persistent,	bioaccumulative	and	carcinogenic.3			
• Phthalates	are	generally	used	as	solvents	and	plasticisers	in	plastics.		Phthalates	are	not	
chemically	bound	to	the	rubber	and	as	a	result	can	leach	from	the	infill	material.4			
• Phenols	likewise	are	not	chemically	bound	to	the	rubber	and	so	can	leach.		Phenols	too	are	
persistent	and	bioaccumulative	and	can	have	long-term	effects	on	the	environment.5			
• Among	the	metals	found	in	tires	that	may	be	of	concern	are	zinc,	lead,	copper,	chromium	and	
cadmium.	While	zinc	and	copper	are	essential	for	living	organisms,	when	absorbed	at	high	
levels	they	become	harmful.		Lead	can	affect	reproduction,	development	of	the	nervous	system	
leading	to	poor	cognitive	development,	and	is	a	particular	threat	to	fetuses	and	young	children.		
Chromium	is	carcinogenic	and	mutagenic.		Cadmium	is	toxic	to	humans	and	if	taken	in	can	
contribute	to	poor	liver	and	kidney	function,	as	well	as	osteoporosis.	6	
	
Playing	on	Artificial	Turf	brings	threats	of	exposure	to	hazardous	substances	through	a	variety	
of	pathways.	
Direct	human	exposure	to	the	hazardous	substances	contained	in	the	rubber	in-fill	of	artificial	turf	is	
believed	to	occur	via	three	pathways:		inhalation,	skin	contact,	and/or	ingestion	including	by	children	
who	come	into	contact	with	the	material.7	
	
A	2012	study	focused	on	the	threat	of	lead	ingestion	from	artificial	turf	noted	that	lead,	in	the	“case	of	
chronic	exposure	in	early	childhood,	can	induce	cell	necrosis,	nerve	behavioral	abnormalities	and	
developmental	disability,	and	in	the	case	of	long-term	exposure	it	can	induce	cell	necrosis,	blood	
pressure,	cancer,	and	kidney	tumor.”8		In	this	study	researchers	considered	the	impacts	for	lead	
exposure	from	children	who	ingest	rubber	powder	resulting	from	exposure	to	crumb	rubber	infill	
artificial	turf.		The	research	showed	elementary	school	children	had	a	hazard	index	that	exceeded	0.1,	

1	T.	Kallqvist,	Norwegian	Institute	for	Water	Research	(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	

December	2005,	p.	7.	
2	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
3	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
4	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
5	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
6	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
7	Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007.	
8	Kim,	S.,	Yang,	J.-Y.,	Kim,	H.-H.,	Yeo,	I.-Y.,	Shin,	D.-C.,	&	Lim,	Y.-W.	(2012).	Health	Risk	Assessment	of	Lead	Ingestion	
Exposure	by	Particle	Sizes	in	Crumb	Rubber	on	Artificial	Turf	Considering	Bioavailability.	Environmental	Health	and	
Toxicology,	27,	e2012005.	http://doi.org/10.5620/eht.2012.27.e2012005.	

Page 2 of 12

a	level	that	is	considered	a	“potential	for	hazard”.	9		Middle	and	high	school	children	were	also	found	
to	have	exposure	levels.	
	
In	2011,	research	conducted	for	the	New	Jersey	Department	of	Environmental	Protection	began	
investigation	into	the	potential	for	players	on	artificial	turf	fields	to	be	exposed	to	lead,	chromium,	
arsenic	and	cadmium	as	a	respirable/inhalable	aerosol.10		In	air	samples	collected	from	the	turf	
during	various	levels	of	activity,	researchers	detected	arsenic,	cadmium,	chromium	and	lead,	all	
metals	with	known	human	toxicity.	11		“The	findings	of	this	study,	although	limited	in	scope,	raise	
some	concerns	with	regard	to	the	potential	hazards	that	may	exist	for	individuals	and	in	particular	
children	who	engage	in	sports	activities	on	artificial	turf	fields.”	12			The	research	demonstrated	that	
activity	by	players	on	the	fields	could	suspend	contaminated	particulates	into	the	air	that	could	be	
inhaled.		“The	findings	show	that	both	inhalable	PM	[particulate	matter],	as	well	as	inhalable	lead	
(when	present)	are	resuspended	from	even	minor	physical	activity	on	an	artificial	surface.		These	data	
therefore	indicates	that	human	exposure	from	lead-containing	artificial	turf	fields	is	not	just	limited	to	
dermal,	but	also	to	inhalation	route	of	exposure.”	13		The	three	potential	avenues	for	lead	from	
artificial	turf	are	the	blades	of	artificial	grass,	the	pigment	used	for	the	field	markings	and	lines,	and	
the	infill	material.			Even	studies	that	have	not	found	exposure	levels	to	lead	high	enough	to	be	of	
concern	in	the	context	of	the	study	conducted	are	careful	to	point	out:	“some	health	scientists	believe	
that	any	Pb	[lead]	is	harmful	to	children’s	neurocognitive	development,	and	that	no	new	Pb	should	be	
added	to	their	surroundings”14	and	that	“…physicians	should	be	aware	of	synthetic	turf	as	pone	
potential	source	of	exposure	for	young	children.		Health	officials	investigating	elevated	blood	lead	in	
children	should	also	be	aware	of	synthetic	turf	as	a	potential	source	of	lead	exposure.”15	
	
Furthermore,	a	2008	study	that	looked	at	a	variety	of	contaminants	associated	with	artificial	turf	did	
find	that	the	lead	present	in	the	rubber	granules,	while	at	low	levels,	was	“highly	bioaccessible”	to	
synthetic	gastric	fluid	used	in	their	research.			This	study	also	found	a	“slightly	worrisome”	level	of	
chromium	in	an	artificial	turf	fiber	sample	and	“high	bioaccessible	fractions	of	lead	in	both	synthetic	
gastric	and	intestinal	fluids.16	
			
9	Kim,	S.,	Yang,	J.-Y.,	Kim,	H.-H.,	Yeo,	I.-Y.,	Shin,	D.-C.,	&	Lim,	Y.-W.	(2012).	Health	Risk	Assessment	of	Lead	Ingestion	

Exposure	by	Particle	Sizes	in	Crumb	Rubber	on	Artificial	Turf	Considering	Bioavailability.	Environmental	Health	and	
Toxicology,	27,	e2012005.	http://doi.org/10.5620/eht.2012.27.e2012005.	
10	S.L.	Shalat,	Sc.D.,	“An	Evaluation	of	Potential	Exposures	to	Lead	and	Other	Metals	as	the	Result	of	Aerosolized	Particulate	
Matter	from	Artificial	Turf	Playing	Fields,	Final	Report”,	submitted	to	NJ	Department	of	Environmental	Protection,	July	14,	
2011.	
11	S.L.	Shalat,	Sc.D.,	“An	Evaluation	of	Potential	Exposures	to	Lead	and	Other	Metals	as	the	Result	of	Aerosolized	Particulate	
Matter	from	Artificial	Turf	Playing	Fields,	Final	Report”,	submitted	to	NJ	Department	of	Environmental	Protection,	July	14,	
2011.	
12	S.L.	Shalat,	Sc.D.,	“An	Evaluation	of	Potential	Exposures	to	Lead	and	Other	Metals	as	the	Result	of	Aerosolized	Particulate	
Matter	from	Artificial	Turf	Playing	Fields,	Final	Report”,	submitted	to	NJ	Department	of	Environmental	Protection,	July	14,	
2011.	
13	S.L.	Shalat,	Sc.D.,	“An	Evaluation	of	Potential	Exposures	to	Lead	and	Other	Metals	as	the	Result	of	Aerosolized	Particulate	
Matter	from	Artificial	Turf	Playing	Fields,	Final	Report”,	submitted	to	NJ	Department	of	Environmental	Protection,	July	14,	
2011.	
14
J.	Zhang,	I.	Han,	L.	Zhang,	W.	Crain,	“Hazardous	Chemicals	in	synthetic	turf	materials	and	their	bioaccessibility	in	
digestive	fluids,”	Journal	of	Exposure	Science	and	Environmental	Epidemiology	(2008)	
15	G.	Van	Ulirsch	et.	al,	Evaluating	and	Regulating	Lead	in	Synthetic	Turf,	Commentary,	Environmental	Health	Perspectives,	
Vol	118,	No.	10,	Oct.	2010.	
16
J.	Zhang,	I.	Han,	L.	Zhang,	W.	Crain,	“Hazardous	Chemicals	in	synthetic	turf	materials	and	their	bioaccessibility	in	
digestive	fluids,”	Journal	of	Exposure	Science	and	Environmental	Epidemiology	(2008)	

Page 3 of 12

In	October	2006	and	January	2007,	respectively,	two	sites	in	New	York	where	synthetic	turf	has	been	
used	(a	large,	then	3	year	old,	Parade	Ground	in	Brooklyn;	a	relatively	small	then	5	month	old	Sara	D.	
Roosevelt	Park	in	Manhattan)	were	analyzed.		This	testing	found	PAHs	at	hazardous	levels	(as	per	
New	York	standards)	at	each	of	the	sites.		At	both	sites	dibenzo	(a.h)anthracene,	a	probable	human	
carcinogen,	was	found	at	hazardous	levels,	with	two	other	PAH	forms,	both	possible	human	
carcinogens,	found	at	hazardous	levels	at	the	Parade	Ground	site.			A	2008	study	also	found	that	the	
rubber	granules	found	in	artificial	turf	fields	had	PAH	levels	above	health-based	soil	standards,	that	
there	was	“low”	but	not	“no”	bioaccessibility,	and	that	while	levels	appear	to	decline	over	time	this	
can	be	altered	by	the	fact	that	new	rubber	can	be	added	periodically	to	compensate	for	the	loss	of	
infill	material.17	Additional	research	is	needed	into	the	pathways	by	which	these	substances	may	be	
absorbed	into	the	bodies	of	children	and	athletes	via	skin	contact,	ingestion	or	other	pathways18	-	but	
the	need	for	additional	research	does	not	displace	the	concerns	raised	by	these	findings.	
	
Analyses	conducted	at	the	Environmental	and	Occupational	Health	Sciences	Institute	of	Rutgers	
University	found	the	crumb	rubber	from	artificial	turf	to	contain	high	levels	of	PAHs,	as	well	as	zinc	
and	arsenic.19		PAHs	found	to	be	contained	in	the	crumb	rubber	“were	above	the	concentration	levels	
that	the	New	York	State	Department	of	Environmental	Conservation	(DEC)	considers	sufficiently	
hazardous	to	public	health	to	require	their	removal	from	contaminated	soil	sites.	It	is	highly	likely	
that	all	six	PAHs	are	carcinogenic	to	humans.”	20			“The	analyses	also	revealed	levels	of	zinc	in	both	
samples	that	exceed	the	DEC's	tolerable	levels.”	21			The	researchers	associated	with	these	findings	
were	careful	to	state	“We	want	to	emphasize	that	the	findings	are	preliminary.	PAHs	in	rubber	might	
not	act	the	same	way	as	in	soil,	and	we	do	not	yet	have	information	on	the	ease	with	which	the	PAHs	
in	these	rubber	particles	might	be	absorbed	by	children	or	adults	--	by	ingestion,	inhalation,	or	
absorption	through	the	skin.	However,	the	findings	are	worrisome.	Until	more	is	known,	it	wouldn't	
be	prudent	to	install	the	synthetic	turf	in	any	more	parks.”	22	
	

J.	Zhang,	I.	Han,	L.	Zhang,	W.	Crain,	“Hazardous	Chemicals	in	synthetic	turf	materials	and	their	bioaccessibility	in	
digestive	fluids,”	Journal	of	Exposure	Science	and	Environmental	Epidemiology	(2008)	
18	Rachel’s’	Democracy	&	Health	News	#992,	Hazardous	Chemicals	in	Synthetic	Turf,	Follow-up	Analyses,	April	12,	2007.	
19	Junfeng	Zhang,	professor	and	acting	chair,	Department	of	Environmental	and	Occupational	Health,		
the	School	of	Public	Health,	the	University	of	Medicine	and	Dentistry	of	New	Jersey	and	Rutgers	University	&	William	
Crain,	professor	of	psychology	at	The	City	College	of	New	York,	president	of	Citizens	for	a	Green	Riverside	Park,		
Hazardous	Chemicals	in	Synthetic	Turf,	2006,	analyses	conducted	at		at	the	Environmental	and	Occupational	Health	
Sciences	Institute	of	Rutgers.	
20	Junfeng	Zhang,	professor	and	acting	chair,	Department	of	Environmental	and	Occupational	Health,		
the	School	of	Public	Health,	the	University	of	Medicine	and	Dentistry	of	New	Jersey	and	Rutgers	University	&	William	
Crain,	professor	of	psychology	at	The	City	College	of	New	York,	president	of	Citizens	for	a	Green	Riverside	Park,		
Hazardous	Chemicals	in	Synthetic	Turf,	2006,	analyses	conducted	at		at	the	Environmental	and	Occupational	Health	
Sciences	Institute	of	Rutgers.	
21	Junfeng	Zhang,	professor	and	acting	chair,	Department	of	Environmental	and	Occupational	Health,		
the	School	of	Public	Health,	the	University	of	Medicine	and	Dentistry	of	New	Jersey	and	Rutgers	University	&	William	
Crain,	professor	of	psychology	at	The	City	College	of	New	York,	president	of	Citizens	for	a	Green	Riverside	Park,		
Hazardous	Chemicals	in	Synthetic	Turf,	2006,	analyses	conducted	at		at	the	Environmental	and	Occupational	Health	
Sciences	Institute	of	Rutgers.	
22	Junfeng	Zhang,	professor	and	acting	chair,	Department	of	Environmental	and	Occupational	Health,		
the	School	of	Public	Health,	the	University	of	Medicine	and	Dentistry	of	New	Jersey	and	Rutgers	University	&	William	
Crain,	professor	of	psychology	at	The	City	College	of	New	York,	president	of	Citizens	for	a	Green	Riverside	Park,		
Hazardous	Chemicals	in	Synthetic	Turf,	2006,	analyses	conducted	at		at	the	Environmental	and	Occupational	Health	
Sciences	Institute	of	Rutgers.	
17

Page 4 of 12

A	study	by	the	California	Office	of	Environmental	Health	Hazard	Assessment	(OEHHA)	summarized	
46	studies	that	identified	49	chemicals	which	are	released	from	tire	crumb.	Of	the	49,	“seven	of	the	
chemicals	leached	from	tire	shreds	were	carcinogens.		OEHHA	calculated	a	cancer	risk	of	1.2	in	10	
million	based	on	a	one-time	ingestion	of	the	tire	crumb	rubber	over	a	lifetime.”23		While	there	are	
limited	studies	which	assert	that	recycled	tire	crumb	are	stable	in	the	gastrointestinal	tract	and	that	
therefore	this	is	not	a	pathway	for	exposure,	there	are	other	studies	which	contradict	these	findings.24	
	
Concerns	have	been	raised	about	the	potential	implications	of	recycled	tire	in-fill	for	individuals	with	
latex	allergies	and	that	inhalation	could	result	in	a	systemic	response,	as	opposed	to	a	contact	
response.25			
	
Asserted	one	analysis,	while,	“the	status	of	the	information	about	human	exposures	to	recycled	tire	
crumb	rubber	in-fill	…	is	not	sufficient	to	determine	the	safety	of	the	use	of	the	product	in	situations	
that	involve	continuous	episodes	of	human	exposure;”	26	“the	available	information	is	sufficient	and	
strong	enough	to	raise	plausible	questions	with	respect	to	acute	toxicity	for	susceptible	persons,	and	
for	cancer	risks.”27			
	
Chrysene,	a	PAH	and	carcinogen,	was	found	to	be	ingested	as	the	result	of	hand-to-surface-to-mouth	
transfer	from	playground	surfaces	made	with	recycled	tires.		Assuming	playground	use	for	an	11	year	
period	(from	age	1	to	12)	there	was	found	to	be	an	increased	cancer	risk	of	2.9	in	one	million		
(2.9	X	10-6).		This	risk	is	greater	than	the	general	cancer	risk	gauge	of	one	in	one	million	(1X10-6).28		
This	research	would	seem	to	suggest	that	repeat	exposure	over	time	to	the	chemicals	released	from	
artificial	turf	increases	the	associated	increase	in	cancer	risk.	
	
The	hot	temperatures	create	additional	concern	for	exposing	players	to	dangerous	toxins.		As	well	
explained	by	a	well	cited	petition	to	the	Consumer	Product	Safety	Commission	for	rulemaking:		“When	
tires	are	shredded	and	pulverized,	their	surface	area	increases	exponentially,	as	does	the	particulate	
and	gas	yield	from	the	tire	material.		Since	tires	are	made	of	very	harmful	materials,	including	24	
gases	found	to	be	harmful	to	humans,	carbon	black,	(a	carcinogen	which	makes	up	30%	of	tires),	latex,	
benzothiazoles,	phthalates,	lead,	mercury,	cadmium,	zinc	and	many	other	known	toxins,	when	the	
fields	heat	up,	they	become	increasingly	dynamic.		Of	primary	concern	is	the	interaction	of	particles	
and	gases,	‘because	when	particles	adsorb	onto	the	surface	of	gases,	they	become	10-20	times	more	
toxic	than	the	materials	themselves.’	The	fields	yield	continuously,	but	become	more	dynamic	and	
more	toxic	as	they	heat	up.”29	
	
A	Case	Study	conducted	by	a	group	of	“physicians	and	public	health	professionals	working	with	the	
U.S.	Environmental	Protection	Agency’s	Region	Pediatric	Environmental	Health	Specialty	Unit”	found	
23	Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007	citing	California	Office	of	

Environmental	Health	Hazard	Assessment	(OEHHA),	Evaluation	of	Health	Effects	of	Recycled	Waste	Tires	in	Playground	
and	Track	Products,	January,	2007.	
24	Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007.	
25	Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007.	
26	Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007.	
27	Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007.	
28	Office	of	Environmental	Health	Hazard	Assessment,	Evaluation	of	Health	Effects	of	Recycled	Waste	Tires	in	Playground	
and	Track	Products,	January	2007.	Note	--	the	1.2	in	10	million	cancer	risk	found	in	the	OEHHA	study	was	considered	by	
the	authors	to	be	an	acceptable	level	of	risk	as	it	falls	below	the	general	cancer	risk	gauge	of	one	in	one	million	(1X10-6).	
29	Petition	for	a	Rulemaking	on	Surface	Heat	from	Artificial	Turf,	Submitted	by	PEER	to	Consumer	Product	Safety	
Commission,	Sept	6,	2012.	

Page 5 of 12

that	they	could	not	secure	the	research	and	information	necessary	to	establish	the	safety	in	use	with	
children	of	tire	crumb	used	as	playground	surface.30		“The	use	of	recycled	tire	crumb	products	on	
playgrounds	has	had	little	health	investigation.		The	major	unresolved	concern	is	the	potential	for	
latex	allergy	with	short-term	dermal	exposure.”	31		“No	published	information	is	available	specifically	
regarding	exposure	to	crumb	rubber	constituents	from	use	of	the	product	on	playgrounds.”	32	
	
Excessive	heat	is	a	major	health	threat	for	those	that	play	on	artificial	turf.			
Extreme	heat	is	a	health	concern	–	high	surface	temperatures	found	on	artificial	turf	fields	can	
contribute	to	physiological	stress	and	cause	“serious	heat-related	illnesses”.33		Heat	stress,	heat	stroke	
and	burns	are	all	of	concern.		In	fact,	the	“New	York	City	Department	of	Health	and	Mental	Hygiene	
recognizes	excessive	surface	temperatures	as	the	most	important	health	concern	associated	with	
infilled	synthetic	turf.”	34		Studies	document	that	the	surface	temperature	on	artificial	turf	is	
dramatically	increased	as	compared	to	surrounding	land	uses	including	asphalt	–	so	much	so	that	it	is	
a	genuine	health	threat	for	players.					
	
Concerns	regarding	the	excessive	temperatures	range	from	the	implications	for	players	who	are	
already	exerting	themselves	playing	in	such	excessively	high	temperatures,	to	the	implications	for	
burns	when	players	or	pedestrians	come	into	contact	with	the	hot	surfaces,	to	the	implications	for	
small	children	who	may	come	into	contact	with	the	extremely	hot	surfaces	during	non-sporting	
events.		Research	has	also	concluded	that	the	“heat	transfer	from	the	surface	to	the	sole	of	the	
individual’s	foot”	could	contribute	to	physiological	stress	of	players.	35	
	
In	a	2002	study	it	was	found	that	“the	surface	temperature	of	the	synthetic	turf	was	37°	F	higher	than	
asphalt	and	86.5°	F	hotter	than	natural	turf.”	36		A	study	published	in	the	Journal	of	Health	and	
Physical	Education	and	Recreation	showed	“surface	temperatures	as	much	as	95	to	140	degrees	
Fahrenheit	higher	on	synthetic	turf	than	natural	turf	grass	when	exposed	to	sunlight.”	37		Random	
sampling	at	Brigham	Young	University	identified	temperatures	ranging	from	117.38	to	157	degrees	
on	artificial	turf	while	neighboring	natural	grass	areas	were	in	the	range	of	78.19	to	88.5	degrees	
Fahrenheit.		“Two	inches	below	the	synthetic	turf	surface	was	28.5°	F	hotter	than	natural	turf	at	the	
surface.”38	Another	study	comparing	temperatures	on	artificial	turf	temperatures	with	air	
temperature	found	that	artificial	turf	ranged	from	58	to	75	degrees	hotter	than	measured	air	
temperature.39		And	yet	another	study	considering	found	ranges	of	155.3	to	173.4	degrees	on	the	turf	
30	M.E.	Anderson	et	al,	A	Case	Study	of	tire	Crumb	Use	on	Playgrounds:		Risk	Analysis	and	Communication	When	Major	

Clinical	Knowledge	Gaps	Exist,	Environmental	Health	Perspectives,	Vol	114,	No.	1,	January	2006.	
31	M.E.	Anderson	et	al,	A	Case	Study	of	tire	Crumb	Use	on	Playgrounds:		Risk	Analysis	and	Communication	When	Major	
Clinical	Knowledge	Gaps	Exist,	Environmental	Health	Perspectives,	Vol	114,	No.	1,	January	2006.	
32	M.E.	Anderson	et	al,	A	Case	Study	of	tire	Crumb	Use	on	Playgrounds:		Risk	Analysis	and	Communication	When	Major	
Clinical	Knowledge	Gaps	Exist,	Environmental	Health	Perspectives,	Vol	114,	No.	1,	January	2006.	
33
T.J.	Serensits,	A.S.	McNitt,	D.M.	Petrunak; Human	health	issues	on	synthetic	turf	in	the	USA,	Dept	of	Crop	and	Soil	
Sciences,	The	Pennsylvania	State	University,	IMechE	Vol	225	Part	P:	J.	Sports	Engineering	&	Technology,	Jan	6,	2011.	
34
T.J.	Serensits,	A.S.	McNitt,	D.M.	Petrunak; Human	health	issues	on	synthetic	turf	in	the	USA,	Dept	of	Crop	and	Soil	
Sciences,	The	Pennsylvania	State	University,	IMechE	Vol	225	Part	P:	J.	Sports	Engineering	&	Technology,	Jan	6,	2011.	
35
T.J.	Serensits,	A.S.	McNitt,	D.M.	Petrunak; Human	health	issues	on	synthetic	turf	in	the	USA,	Dept	of	Crop	and	Soil	
Sciences,	The	Pennsylvania	State	University,	IMechE	Vol	225	Part	P:	J.	Sports	Engineering	&	Technology,	Jan	6,	2011.	
36	Dr.	C.	Frank	Williams	and	Dr.	Gilbert	E.	Pulley,	Synthetic	Surface	Heat	Studies,	Brigham	Young	University.	
37	SportsTurf	Managers	Association,	A	Guide	to	Synthetic	and	natural	Turfgrass	for	Sports	Fields,	Selection,	Construction	
and	Maintenance	Considerations.			
38	Dr.	C.	Frank	Williams	and	Dr.	Gilbert	E.	Pulley,	Synthetic	Surface	Heat	Studies,	Brigham	Young	University.	
39	T.	Sciacca,	The	Thermal	Physics	of	Artificial	Turf,	January	2008.	

Page 6 of 12

fields	when	air	temperatures	were	in	the	76	degree	range;	and	104.2	to	159.3	degrees	when	air	
temperatures	were	in	the	77	degree	range.	40			
	
Research	has	not	found	good	solutions	for	the	excessive	heat	levels	of	turf.		Irrigation	of	excessively	
hot	artificial	turf	surfaces	only	provides	cooling	benefits	for	about	20	minutes.	41		While	irrigation	
provides	cooling	for	the	synthetic	turf,	in	one	seminal	study	lowering	the	temperature	from	174°	F	to	
85°	F,	after	only	5	minutes	the	temperature	quickly	rose	again	to	120°F;	after	20	minutes	it	rose	to	
164°F.42		In	another	important	body	of	work	by	Penn	State,	it	was	found	again	that	irrigation	is	only	
successful	in	reducing	temperatures	for	about	20	minutes,	with	a	rebound	to	within	10	degrees	of	the	
pre-irrigation	temperature	within	3	hours.	43		The	use	of	white	crumb	rubber	as	the	infill	does	not	
resolve	the	heat	issue.	44		In	fact,	according	to	Penn	State	as	part	of	a	study	which	looked	at	various	
color	options	for	infill	and	temperature,	“[w]hile	marketing	materials	may	claim	lower	surface	
temperatures,	no	scientific	reports	exist	that	substantiate	such	claims.”45	
	
Natural	grass,	by	comparison,	provides	a	natural	cooling	affect	and	helps	to	dissipate	heat	from	
neighboring	developed	areas.46		“The	temperature	of	natural	grass	rarely	rises	above	85	degrees	
Fahrenheit,	regardless	of	air	temperature.”	47	
	
The	heat	impacts	of	artificial	turf	need	to	be	considered	in	the	context	of	today’s	changing	climate.		
Global	climate	change	is	expected	to	dramatically	increase	the	number	of	days	over	100	degrees	in	
many	communities.		Depending	on	how	aggressively	global	warming	gasses	are	reduced	in	coming	
years,	communities	nearby	Philadelphia	will	begin	to	experience	in	the	range	of	10	days	(in	lower	
emission	scenarios)	to	30	days	(if	higher	emission	scenarios	continue	to	prevail)	over	100	degrees.48		
By	later	in	this	century	seasonable	temperatures	are	projected	to	rise	6oF	to	14oF	in	summer	
(depending	again	on	emission	reductions	achieved	in	the	future).	49			
	
Concerns	for	increased	head	injuries	and	bacterial	infections	as	the	result	of	playing	on	turf	
are	justified.	
There	is	great	concern	that	the	increased	level	of	abrasions	and	burns	which	result	from	playing	on	an	
artificial	turf	field	as	compared	to	natural	grass	increases	the	pathways	by	which	bacterial	infections,	
such	as	MRSA	(methicillin-resistant	staphylococcus	aureus),	can	enter	the	body.		As	explained	in	a	
2011	Penn	State	study,	“It	is	important	to	note	that	synthetic	turf	is	more	abrasive	than	natural	turf	
grass	and,	as	a	result,	breaks	in	the	skin	are	more	common,	creating	a	pathway	for	infection	when	in	
40	Penn	State’s	Center	for	Sports	Surface	Research,	Synthetic	Turf	Heat	Evaluation	–	Progress	Report,	January	2012.	

T.J.	Serensits,	A.S.	McNitt,	D.M.	Petrunak; Human	health	issues	on	synthetic	turf	in	the	USA,	Dept	of	Crop	and	Soil	
Sciences,	The	Pennsylvania	State	University,	IMechE	Vol	225	Part	P:	J.	Sports	Engineering	&	Technology,	Jan	6,	2011.	
42	Dr.	C.	Frank	Williams	and	Dr.	Gilbert	E.	Pulley,	Synthetic	Surface	Heat	Studies,	Brigham	Young	University.	
43
T.J.	Serensits,	A.S.	McNitt,	D.M.	Petrunak; Human	health	issues	on	synthetic	turf	in	the	USA,	Dept	of	Crop	and	Soil	
Sciences,	The	Pennsylvania	State	University,	IMechE	Vol	225	Part	P:	J.	Sports	Engineering	&	Technology,	Jan	6,	2011.	
44
T.J.	Serensits,	A.S.	McNitt,	D.M.	Petrunak; Human	health	issues	on	synthetic	turf	in	the	USA,	Dept	of	Crop	and	Soil	
Sciences,	The	Pennsylvania	State	University,	IMechE	Vol	225	Part	P:	J.	Sports	Engineering	&	Technology,	Jan	6,	2011.	
45	Penn	State’s	Center	for	Sports	Surface	Research,	Synthetic	Turf	Heat	Evaluation	–	Progress	Report,	January	2012.	
46	James	B.	Beard	&	Robert	L.	Green,	The	Role	of	Turfgrasses	in	Environmental	Protection	and	Their	Benefits	to	Humans,	J.	
Environ	Qual.	23:452-460	(1994).	
47	SportsTurf	Managers	Association,	A	Guide	to	Synthetic	and	natural	Turfgrass	for	Sports	Fields,	Selection,	Construction	
and	Maintenance	Considerations.			
48	Union	of	Concerned	Scientists,	Confronting	Climate	Change	in	the	U.S.	Northeast	l	New	Jersey,	2007.	
49	Union	of	Concerned	Scientists,	Confronting	Climate	Change	in	the	U.S.	Northeast	l	New	Jersey,	2007.	
41

Page 7 of 12

contact	with	an	infected	surface.”	50		There	are	studies	to	indicate	that	turf	burns	may	be	facilitating	
infection	by	acting	as	a	pathway	for	infection.51		Study	has	found	that	turf	burns	increased	the	risk	of	
infection	regardless	of	the	type	and	timing	of	care	provided	the	burn.	52	
	
Older	turf	fields	have	been	found	to	have	higher	microbial	populations,	as	well	as	higher	levels	in	the	
higher	traffic	areas	such	as	the	sidelines,	thereby	suggesting	to	researchers	that	microbial	populations	
can	accumulate	in	synthetic	turf	over	time.53	
	
Concussions	(formally	described	as	Mild	Traumatic	Brain	Injury	or	MTBI)	resulting	from	sports	has,	
according	to	the	US	Centers	for	Disease	Control,	reached	“epidemic	proportions.”54		“’Mild’	head	
traumas,	and	especially	a	series	of	such	minor	concussions	can	have	long	term,	negative	effects	on	
cognitive	function.”	55		Study	has	documented	that	artificial	turf	increases	the	risk	of	MTBI	over	
natural	turf,	approximately	doubling	that	risk,	as	well	as	causing	a	greater	degree	of	trauma.56		
According	to	study,	artificial	turf	presents	a	5	times	greater	risk	of	the	more	severe	head	injury	than	
natural	turf,	although	it	is	still	unknown	the	particular	characteristics	of	the	two	surfaces	that	cause	
the	difference	in	head	injury	incidence.	57			Only	31%	of	the	playground	surfaces	made	of	recycled	
tires	tested	in	one	research	study	passed	the	California	State	mandated	Head	Impact	Criterion	(HIC)	
of	<1,000.		In	this	same	study	100%	of	the	playground	surfaces	made	of	wood	chips	passed	the	same	
standard.	58	
	
Research	shows	there	are	adverse	environmental	impacts	resulting	from	crumb	rubber	infill	
artificial	turf;	it	is	also	clear	that	additional	study	for	water	and	other	natural	resources	is	
needed.	
While	it	seems	well	recognized	that	there	is	a	limited	level	of	assessment	and	investigation	into	the	
environmental	impacts	associated	with	artificial	turf,	a	growing	body	of	scientific	analysis	is	

T.J.	Serensits,	A.S.	McNitt,	D.M.	Petrunak; Human	health	issues	on	synthetic	turf	in	the	USA,	Dept	of	Crop	and	Soil	
Sciences,	The	Pennsylvania	State	University,	IMechE	Vol	225	Part	P:	J.	Sports	Engineering	&	Technology,	Jan	6,	2011.	
51	A	High	Morbidity	Outbreak	of	Methicillin-Resistant	Staphylococcus	aureus	among	Players	on	a	College	Football	Team,	
Facilitated	by	Cosmetic	Body	Shaving	and	Turf	Burns,	study	conducted	2004	for	Connecticut	Dept	of	Public	Health,	
Student	Health	Services	of	Sacred	Heart	Univ,	Centers	for	Disease	Control	and	Prevention,	Minnesota	Dept	of	Public	
Health,	Los	Angeles	County	Dept	of	Health	Svces;	Dr.	S.V.	Kazakova	et.al.,	A	Clone	of	Methicillin-Resistant	Staphylococcus	
aureus	among	Professional	Football	Players,	The	New	England	Journal	of	Medicine,	Vol	352:468-475	No.	5,	Feb.	3,	2005.	
52	A	High	Morbidity	Outbreak	of	Methicillin-Resistant	Staphylococcus	aureus	among	Players	on	a	College	Football	Team,	
Facilitated	by	Cosmetic	Body	Shaving	and	Turf	Burns,	study	conducted	2004	for	Connecticut	Dept	of	Public	Health,	
Student	Health	Services	of	Sacred	Heart	Univ,	Centers	for	Disease	Control	and	Prevention,	Minnesota	Dept	of	Public	
Health,	Los	Angeles	County	Dept	of	Health	Svces.	
53	J.J.	Bass,	D.W.	Hintze,	(2013)	“Determination	of	Microbial	Populations	in	a	Synthetic	Turf	System,”	Skyline	–	The	Big	Sky	
Undergraduate	Journal,	Vol.	1,	Iss.	1,	Art.	1.	
54	Dr.	M.	Shorten,	J.A.	Himmelsbach,	BioiMechanica,	Sports	Surfaces	and	the	Risk	of	Traumatic	Brain	Injury	citing	the	US	
Centers	for	Disease	Control.	
55	Dr.	M.	Shorten,	J.A.	Himmelsbach,	BioiMechanica,	Sports	Surfaces	and	the	Risk	of	Traumatic	Brain	Injury.	
56	Dr.	M.	Shorten,	J.A.	Himmelsbach,	BioiMechanica,	Sports	Surfaces	and	the	Risk	of	Traumatic	Brain	Injury.	
57	Dr.	M.	Shorten,	J.A.	Himmelsbach,	BioiMechanica,	Sports	Surfaces	and	the	Risk	of	Traumatic	Brain	Injury.		See	also	K.M.	
Guskiewica,	N.L.	Weaver,	D.A.	Padua,	W.E.	Garrett	Jr.,	Epidemiology	of	Concussion	in	Collegiate	and	High	School	Football	
Players,	Sep-Oct	2000	&	Does	the	Use	of	Artificial	Turf	Contribute	to	Head	Injuries,	The	Journal	of	Trauma-Injury,	Infection	
and	Critical	Care,	Oct	2002	for	the	finding	that	artificial	turf	increases	the	level	of	injury	in	comparison	to	natural	grass	
fields.	
58	Office	of	Environmental	Health	Hazard	Assessment,	Evaluation	of	Health	Effects	of	Recycled	Waste	Tires	in	Playground	
and	Track	Products,	January	2007.	Please	note	that	in	this	study	32	recycled	tire	playground	surfaces	were	tested	as	
compared	to	only	5	wood	chip	playground	surfaces.	
50

Page 8 of 12

documenting	a	concerning	level	of	environmental	threat	and	harm	and	is	further	demonstrating	the	
need	for	more	research	regarding	artificial	turf	and	its	ramifications	for	the	environment.	
	
The	Connecticut	Agricultural	Experiment	Station	conclusively	found	four	compounds	which	outgassed	and	leached	into	water	from	synthetic	turf	rubber	crumb	under	ambient	temperatures:			
Ø Benzothiazole	(a	skin	and	eye	irritant),		
Ø Butylated	hydroxyanisole	(a	“recognized	carcinogen,	suspected	endocrine	toxicant,	
gastrointestinal	toxicant,	immune	toxicant,	neurotoxicant,	skin	and	sense-organ	toxicant”),		
Ø n-hexadecane	(a	severe	irritant)	&		
Ø 4-(t-octyl)	phenol	(“corrosive	and	destructive	to	mucous	membranes”).59			
	
As	rubber	degrades	it	can	leach	toxic	substances	which	can	contaminate	soil,	plants	and	aquatic	
ecosystems.60		Study	has	concluded	that	the	use	of	tires	in	artificial	turf	has	the	potential	to	pollute	
our	environment	with	PAHs,	phenols	and	zinc61	and	that	runoff	from	an	artificial	turf	field	draining	to	
a	local	creek	can	pose	“a	positive	risk	of	toxic	effects	on	biota	in	the	water	phase	and	in	the	
sediment.”62		Other	metal	contaminants	found	to	leach	from	tire	crumb	rubber	include	zinc,	selenium,	
lead	and	cadmium.63		Zinc	has	also	been	shown	to	leach	from	the	artificial	turf	fibers.64		Extreme	
temperatures	or	solvents	are	not	needed	to	release	these	metals,	volatile	organic	compounds	or	semivolatile	organic	compounds	from	the	rubber	in-fill	of	artificial	turf	into	the	air	or	water	–	release	takes	
place	in	ambient	air	and	water	temperatures.65	
		
“Runoff	with	high	Zn	[zinc]	from	synthetic	turf	fields	may	produce	adverse	effects	to	plants	and	
aquatic	life.		This	is	of	particular	concern	given	that	the	leaching	rate	of	Zn	[zinc]	from	rubber	
granules	can	be	up	to	20	times	greater	than	the	leaching	rate	of	Zn	from	agricultural	applications	of	
manure	and	pesticides.”66		Leaching	of	substances	as	the	result	of	surface	water	runoff	from	
precipitation	has,	by	some	researchers,	been	predicted	to	be	the	greatest	risk	for	the	environment	
from	artificial	turf.	67				Study	shows	there	is	a	risk	of	local	effects	for	aquatic	and	sediment	dwelling	

59	The	Connecticut	Agricultural	Experiment	Station,	Examination	of	Crumb	Rubber	Produced	from	Recycled	Tires,	August	

2007;	Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007.	

60	Quoting	Dr.	Linda	Chalker-Scott,	Washington	State	University	--	Turfgrass	Resource	Center,	Facts	About	Artificial	Turf	

and	Natural	Grass;	T.	Kallqvist,	Norwegian	Institute	for	Water	Research(NIVA),	Environmental	Risk	Assessment	of	
Artificial	Turf	Systems,	December	2005,	p.	17.;	Connecticut	Agricultural	Experiment	Station,	Examination	of	Crumb	
Rubber	Produced	from	Recycled	Tires.	
61	T.	Kallqvist,	Norwegian	Institute	for	Water	Research(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	5;	T.	Edeskar,	Lulea	University	of	Technology,	Technical	and	Environmental	Properties	of	Tyre	Shreds	
Focusing	on	Ground	Engineer	Application,	2004	as	cited	in	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	
2007.	
62	T.	Kallqvist,	Norwegian	Institute	for	Water	Research	(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	6.	
63Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007.	
64	T.	Kallqvist,	Norwegian	Institute	for	Water	Research	(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	17.	
65	Environment	&	Human	Health,	Inc.,	Artificial	Turf,	Exposures	to	Ground-Up	Rubber	Tires,	2007.	
66	J.	Zhang,	I.	Han,	L.	Zhang,	W.	Crain,	“Hazardous	Chemicals	in	synthetic	turf	materials	and	their	bioaccessibility	in	
digestive	fluids,”	Journal	of	Exposure	Science	and	Environmental	Epidemiology	(2008)	
67	T.	Kallqvist,	Norwegian	Institute	for	Water	Research	(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	5;	NIVA	(The	Norwegian	Institute	for	Water	Research),	Evaluation	of	the	Environmental	Risks	of	
Synthetic	Turf,	2005;	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	

Page 9 of 12

organisms	in	impacted	water	courses.	68		Recycled	rubber,	and	associated	leachate,	has	been	found	to	
contain	a	variety	of	metals	(including	lead,	cadmium,	copper,	mercury	and	zinc),	as	well	as	organic	
pollutants	such	as	PAHs,	phthalates,	4-t-octylphenol	and	iso-nonyphenol.	69		The	leaching	of	zinc	has	
been	determined	to	be	of	major	environmental	concern.70		The	leaching	of	zinc	increases	as	the	
rubber	infill	weathers	over	time,71	it	is	likely	this	is	the	same	for	other	contaminants.		While	Zinc	
contributes	the	most	risk,	phenols	(specifically	octylphenol)	and	PAHs	are	also	of	concern.	72		Of	the	
organic	compounds	at	issue,	Octylphenol	represents	the	greatest	risk,	and	possibly	could	occur	at	
levels	where	hormone	disrupting	effects	are	a	concern.	73		The	varying	content	of	tires	makes	this	
threat	a	moving	target.			
	
The	Norwegian	Institute	for	Water	Research	has	determined	that	it	is	“appropriate	to	perform	a	risk	
assessment	which	covers	water	and	sediments	in	watercourses	which	receive	run-off	from	artificial	
turf	pitches.”74	
	
While	recycled	rubber	is	a	greater	source	of	pollution,	newly	manufactured	rubber	also	contains	
levels	of	hazardous	substances;	in	the	case	of	zinc	and	chromium	the	levels	of	recycled	and	newly	
manufactured	rubber	are	comparable.75	
	
It	is	predicted	that	chemicals	leaching	from	synthetic	turf	materials	occurs	slowly,	and	as	a	result	the	
environmental	harms	may	take	place	over	many	years.76				
	
Leaching	may	not	be	the	only	source	of	water	contamination	from	artificial	turf.		As	the	artificial	turf	
is	used	there	is	a	level	of	“erosion”	that	takes	place	and	can	result	in	fine	particles	that	could	be	
carried	to	local	waterways.		This	source	of	contamination	needs	study.77	
	
The	synthetic	grass	fibers	can	also	be	a	significant	source	of	pollution,	particularly	zinc,	albeit	
significantly	lesser	amounts	leach	from	the	synthetic	grass	than	the	rubber	infill.78				
68	T.	Kallqvist,	Norwegian	Institute	for	Water	Research(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	

December	2005,	p.	5;	NIVA	(The	Norwegian	Institute	for	Water	Research),	Evaluation	of	the	Environmental	Risks	of	
Synthetic	Turf,	2005,	as	cited	by	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007;	KEM,	Swedish	
Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007	
69	T.	Kallqvist,	Norwegian	Institute	for	Water	Research	(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	7.	
70	INTRON,	Environmental	and	Health	Risks	of	Rubber	Infill,	rubber	crumb	from	car	tyres	as	infill	on	artificial	turf,	
February	9,	2007.			
71	INTRON,	Environmental	and	Health	Risks	of	Rubber	Infill,	rubber	crumb	from	car	tyres	as	infill	on	artificial	turf,	
February	9,	2007.			
72	NIVA	(The	Norwegian	Institute	for	Water	Research),	Evaluation	of	the	Environmental	Risks	of	Synthetic	Turf,	2005,	as	
cited	by	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
73	T.	Kallqvist,	Norwegian	Institute	for	Water	Research	(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	17.	
74	T.	Kallqvist,	Norwegian	Institute	for	Water	Research	(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	8.	
75	Byggforsk,	SINTEF	Building	and	Infrastructure,	Potential	Health	and	Environmental	Effects	Associated	with	Synthetic	
Turn	Systems,	2004,	as	referenced	in	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
76	T.	Kallqvist,	Norwegian	Institute	for	Water	Research(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	5;	NIVA	(The	Norwegian	Institute	for	Water	Research),	Evaluation	of	the	Environmental	Risks	of	
Synthetic	Turf,	2005,	as	cited	by	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
77	T.	Kallqvist,	Norwegian	Institute	for	Water	Research	(NIVA),	Environmental	Risk	Assessment	of	Artificial	Turf	Systems,	
December	2005,	p.	18.	

Page 10 of 12

	
When	talking	about	the	use	of	ground	rubber	as	a	supplement	to	planting	soils	the	North	Carolina	
Department	of	Agriculture	and	Consumer	Services	sent	out	a	notice	identifying	the	risk	that	zinc	
leaching	from	the	rubber	causes	a	decline	in	plant	growth	“directly	attributable	to	zinc	toxicity.”79	
	
One	Norwegian	assessment/presentation	reported	that	“recycled	rubber	was	the	major	source	of	
potentially	hazardous	substances.		An	exposure	scenario	where	the	runoff	from	a	football	field	is	
drained	to	a	small	creek	showed	a	positive	risk	of	toxic	effects	on	biota	in	the	water	phase	and	in	the	
sediment.		The	risk	was	mainly	attributed	to	zinc,	but	also	for	octylphenol	the	predicted	
environmental	concentrations	exceeded	the	no	environmental	effect	concentration.”	80			The	
hazardous	leaching	could	result	in	local	environmental	effect.81			
	
Conclusion	
Given	all	of	the	science	on	the	record	that	demonstrates	artificial	turf	is	a	threat	to	health	and	the	
environment,	the	precautionary	principle	dictates	that	artificial	turf	with	crumb	rubber	infill	be	
recognized	as	a	threat	to	public	health	and	safety	and	the	environment	and	that	the	ongoing	
expansion	and	construction	of	crumb	rubber	turf	fields	should	be	prohibited	and	those	fields	that	
have	already	been	installed	should	be	removed	and	properly	disposed	of.			
	
When	a	community	installs	a	crumb	rubber	artificial	turf	field	it	is	forcing	children	who	want	to	
participate	in	sports	to	be	forced	to	expose	themselves	to	its	hazards.		It	is	simply	neither	right	nor	
fair	for	communities,	with	the	support	or	false	sense	of	security	given	by	an	acquiescing	government	
agency,	to	be	making	investments	that	take	from	parents	and	kids	the	ability	to	decide	for	themselves	
what	health	hazards	they	are	willing	to	be	exposed	to	if	they	want	to	participate	in	sports.		Advancing	
in	anyway	the	construction	and	expansion	of	crumb	rubber	artificial	turf	fields		is	forcing	an	unfair	
choice	on	kids	and	parents:		play	sports	or	protect	your	health,	but	you	are	not	allowed	to	have	both.	
	
Respectfully,	
	
	

Maya	K.	van	Rossum	
the	Delaware	Riverkeeper		
	
P.S.	I	note,	that	as	a	result	of	my	work	on	this	issue,	as	a	parent	I	have	had	to	pull	my	son	from	the	
township	lacrosse	team	because	they	started	playing	on	artificial	turf	this	past	year.		The	health	
impacts	of	artificial	turf	are	too	significant	and	concerning	for	me,	as	a	parent,	to	allow	my	10	year	old	
son	to	play	on	crumb	rubber	artificial	turf.			
78	Byggforsk,	SINTEF	Building	and	Infrastructure,	Potential	Health	and	Environmental	Effects	Associated	with	Synthetic	
Turn	Systems,	2004,	as	referenced	in	KEM,	Swedish	Chemicals	Agency,	Facts:	Synthetic	Turf,	April	2007.	
79	M.	Ray	Tucker,	Agronomist,	Ground	Rubber:	Potential	Toxicity	to	Plants,	Media	Notes	for	North	Carolina	Growers,	North	
Carolina	Dept	of	Agriculture	&	Consumer	Services,	April	1997.	
80	Dr.	Christine	Bjorge,	Norwegian	Institute	of	Public	Health,	Artificial	turf	Pitches	–	an	assessment	of	the	health	risks	for	
football	players	and	the	environment,	Presentation	at	the	ISSS	Technical	meeting	2006,	Dresden.	
81	Dr.	Christine	Bjorge,	Norwegian	Institute	of	Public	Health,	Artificial	turf	Pitches	–	an	assessment	of	the	health	risks	for	
football	players	and	the	environment,	Presentation	at	the	ISSS	Technical	meeting	2006,	Dresden.	

Page 11 of 12

	
Attachments:	
Submitted	as	part	of	this	comment	are	fact	sheets	and	an	annotated	bibliography	that	discuss	the	
research	detailed	above	as	well	as	additional	research	speaking	about	the	environmental	and	public	
health	threats	posed	by	crumb	rubber	infill	artificial	turf.	
	

Page 12 of 12

	
Summary	of	Research		
Assessing	the	Impacts	of	Artificial	Turf	
Updated	4/29/2016	
	
Heat:	Research	has	documented	that	the	surface	temperature	on	artificial	turf	is	dramatically	higher	than	the	
surrounding	land	uses	including	asphalt.	Concerns	regarding	the	excessive	temperatures	range	from	the	implications	
for	players	who	are	already	exerting	themselves	to	the	implications	for	burns	when	players	or	pedestrians	come	into	
contact	with	the	hot	surfaces.	
1. Petrass,	L.	A.,	et	al.	(2014).	Comparison	of	surface	temperatures	of	different	synthetic	turf	systems	and	
natural	grass:	Have	advances	in	synthetic	turf	technology	made	a	difference.	Proceedings	of	the	Institution	
of	Mechanical	Engineers,	Part	P:	Journal	of	Sports	Engineering	and	Technology.	
a. A	comparison	of	surface	temperatures	of	third-generation	synthetic	turf	with	a	cool	climate	product	
that	claims	to	reduce	surface	temperatures	to	surface	temperatures	of	natural	grass.		
b. Although	surface	temperatures	were	lower	for	the	cool	climate	field	compared	to	other	synthetic	
turf,	both	types	of	artificial	turf	fields	were	considerably	hotter	than	natural	grass	with	temperatures	
that	were	between	12°	C	(53°	F)	and	22°	C	(72°	F)	hotter.	
2. Reasor,	E.	H.	(2014).	Synthetic	Turf	Surface	Temperature	Reduction	and	Performance	Characteristics	as	
Affected	by	Calcined	Clay	Modified	Infill.	Master’s	Thesis,	University	of	Tennessee.	Available	at:	
http://trace.tennessee.edu/utk_gradthes/2750		
a. Surface	temperatures	of	artificial	turf	were	between	31°	C	(88°	F)	and	57°	C	(135°	F).	
b. Although	irrigation	reduced	surface	temperatures	of	artificial	turf,	increases	of	74	to	102%	of	the	
pre-irrigation	temperature	were	observed	within	30	minutes	after	irrigation.	
c. Surface	temperatures	returned	to	pre-irrigation	temperature	on	all	of	the	treatments	between	60	
and	120	minutes	after	irrigation.		Therefore,	the	cooling	effect	of	irrigation	will	not	last	the	entire	
length	of	an	athletic	competition.			
3. Thoms,	A.	W.	et	al.	(2014).	Models	for	Predicting	Surface	Temperatures	on	Synthetic	Turf	Playing	Surfaces.	
Procedia	Engineering,	72,	895-900.	Available	at:	
http://www.sciencedirect.com/science/article/pii/S1877705814006699	
a. Artificial	turf	surface	temperatures	ranged	from	-9.8	to	86.4°	C	(14	to	188°	F)	to	when	ambient	air	
temperatures	ranged	from	-0.4	to	37.1°	C	(31	to	99°	F).			
b. Absorption	of	solar	radiation	results	in	increased	temperatures	on	artificial	turf	surfaces,	and	high	
rates	of	solar	radiation	are	absorbed	with	minimal	light	reflectance.			Therefore,	air	temperature	in	
conjunction	with	solar	radiation	explained	most	of	the	variation	in	artificial	turf	surface	
temperatures.		
4. Penn	State’s	Center	for	Sports	Surface	Research	(2012).	Synthetic	Turf	Heat	Evaluation-	Progress	Report.	
January	2012.	Available	at:	http://plantscience.psu.edu/research/centers/ssrc/documents/heat-progressreport.pdf		
DELAWARE RIVERKEEPER NETWORK
925 Canal Street, Suite 3701
Bristol, PA 19007
Office: (215) 369-1188
fax: (215)369-1181
[email protected]
www.delawareriverkeeper.org

5.

6.

7.

8.

9.

a. This	study	measured	surface	temperatures	of	artificial	turf	fields	between	140.2	and	173.4°	F	when	
air	temperatures	were	between	73	and	79°	F.		
b. Looking	at	various	color	options	for	infill	and	temperature,	no	product	significantly	reduced	surface	
temperatures.		Small	reductions	in	temperature	are	insignificant	when	surface	temperatures	still	
exceed	150°	F.		This	study	concluded	that	“[w]hile	marketing	materials	may	claim	lower	surface	
temperatures,	no	scientific	reports	exist	that	substantiate	such	claims.”		
c. Research	has	not	found	a	good	solution	for	excessive	heat	levels	of	turf.			
Serensits,	T.	J.	et	al.	(2011).	Human	health	issues	on	synthetic	turf	in	the	USA.	Proceedings	of	the	Institution	
of	Mechanical	Engineers,	Part	P:	Journal	of	Sports	Engineering	and	Technology,	225(3),	139-146.	
a. High	surface	temperatures	found	on	artificial	turf	fields	can	contribute	to	physiological	stress	and	
cause	“serious	heat-related	illnesses”	including	heat	stress,	heat	stroke,	and	burns.		
b. The	“New	York	City	Department	of	Health	and	Mental	Hygiene	recognizes	excessive	surface	
temperatures	as	the	most	important	health	concern	associated	with	infilled	synthetic	turf.”	
c. Irrigation	of	excessively	hot	artificial	turf	surfaces	only	provides	cooling	benefits	for	about	20	
minutes,	with	a	rebound	to	within	10	degrees	of	the	pre-irrigation	temperature	within	3	hours.					
d. The	use	of	white	crumb	rubber	as	the	infill	does	not	resolve	the	heat	issue.		
Sciacca,	T	(2008).	The	Thermal	Physics	of	Artificial	Turf.	SynTurf.org.	Available	at:	
http://www.synturf.org/sciaccaheatstudy.html		
a. A	study	comparing	temperatures	on	artificial	turf	temperatures	with	air	temperature	found	that	
artificial	turf	ranged	from	58	to	75°	hotter	than	measured	air	temperature.		
SportsTurf	Managers	Association	(STMA)	(2008).	A	Guide	to	Synthetic	and	Natural	Turfgrass	for	Sports	
Fields:	Selection,	Construction	and	Maintenance	Considerations.	2nd	edition.	Available	at:	
http://www.stma.org/sites/stma/files/STMA_Synthetic_Guide_2nd_Edition.pdf				
a. Artificial	turf	gets	dramatically	hotter	than	surrounding	land	uses	including	asphalt	with	surface	
temperatures	as	much	as	95	to	140°	F	hotter	than	natural	grass	fields	whereas	the	temperature	of	
natural	grass	rarely	rises	above	85°	F,	regardless	of	air	temperature	
Williams,	C.	F.,	&	Pulley,	G.	E.	(2002).	Synthetic	surface	heat	studies.	Brigham	Young	University.	Available	at:	
www.wellesleyma.gov/pages/WellesleyMA_SpragueResources/Synthetic%20Surfaces%20Heat%20Study.do
c		
a. Temperature	measurements	were	taken	at	the	surface,	above	the	surface,	and	below	the	surface	of	
artificial	turf,	natural	turf,	bare	soil,	asphalt,	and	concrete.		
b. Surface	temperatures	of	synthetic	turf	were	37°	F	higher	than	asphalt	and	86.5°	F	hotter	than	
natural	turf.	
c. Two	inches	below	the	surface,	synthetic	turf	was	28.5°	F	hotter	than	natural	turf.	
d. Although	irrigation	of	synthetic	turf	resulted	in	a	reduction	of	close	to	90°F,	temperatures	rose	35°	
within	five	minutes	and	returned	to	the	starting	temperature	within	20	minutes.	
e. “The	hottest	surface	temperature	recorded	was	200º	F	on	a	98º	F	day.		Even	in	October	the	surface	
temperature	reached	112.4º	F.”	
f. Brigham	Young	University	has	set	a	surface	temperature	guideline	which	restricts	play	on	synthetic	
turf	fields	when	surface	temperatures	are	potentially	hazardous	to	athletes.		This	reduces	the	
playing	season	and	eliminates	any	continuous	play	benefit	that	is	typically	mentioned	in	favor	of	
artificial	turf.		
Beard,	J.	B.,	&	Green,	R.	L.	(1994).	The	role	of	turf	grasses	in	environmental	protection	and	their	benefits	to	
humans.	Journal	of	Environmental	Quality,	23(3),	452-460.	Available	at:	
https://www.landcarenetwork.org/legislative/TheRoleofTurfgrassesinEnvironmentalProtection.pdf		
a. Synthetic	surfaces	can	be	up	to	39°	C	(102°	F)	hotter	than	natural	turf.		Natural	turf	grass	provides	a	
natural	cooling	affect	and	helps	to	dissipate	heat	from	neighboring	developed	areas.	

	
	

Page 2 of 10

	
Health:	The	impacts	of	inhalation	or	ingestion	of	chemicals	continues	to	be	a	concern	for	those	playing	on	artificial	
turf.		Direct	human	exposure	to	the	hazardous	substances	contained	in	the	rubber	in-fill	of	artificial	turf	is	believed	
to	occur	via	inhalation,	skin	contact,	and/or	ingestion.		Furthermore,	there	are	concerns	for	increased	injuries	and	
bacterial	infections	when	playing	on	artificial	turf.	
1. Kim,	S.,	Yang,	J.-Y.,	Kim,	H.-H.,	Yeo,	I.-Y.,	Shin,	D.-C.,	&	Lim,	Y.-W.	(2012).	Health	Risk	Assessment	of	Lead	
Ingestion	Exposure	by	Particle	Sizes	in	Crumb	Rubber	on	Artificial	Turf	Considering	Bioavailability.	
Environmental	Health	and	Toxicology,	27,	e2012005.	http://doi.org/10.5620/eht.2012.27.e2012005.	
a. Researchers	considered	the	risks	for	lead	exposure	from	children	ingesting	rubber	powder	resulting	
from	exposure	to	crumb	rubber	infill	artificial	turf	and	found	that	elementary	school	students	had	a	
hazard	index	that	exceeded	0.1,	a	level	that	is	considered	a	“potential	for	hazard”,	with	middle	and	
high	school	students	also	suffering	exposure	levels.		
	
2. Balazs,	G.	C.,	et	al.	(2014).	Risk	of	Anterior	Cruciate	Ligament	Injury	in	Athletes	on	Synthetic	Playing	Surfaces	
A	Systematic	Review.	The	American	journal	of	sports	medicine,	0363546514545864.	
a. A	systematic	review	of	available	literature	on	the	risk	of	ACL	rupture	on	natural	grass	versus	artificial	
turf	found	that	there	is	an	increased	rate	of	ACL	injury	on	synthetic	playing	surfaces	for	football	
players.			
3. Celeiro,	M.,	Lamas,	J.	P.,	Garcia-Jares,	C.,	Dagnac,	T.,	Ramos,	L.,	&	Llompart,	M.	(2014).	Investigation	of	PAH	
and	other	hazardous	contaminant	occurrence	in	recycled	tyre	rubber	surfaces.	Case-study:	restaurant	
playground	in	an	indoor	shopping	centre.	International	Journal	of	Environmental	Analytical	Chemistry,	
94(12),	1264-1271.	
a. The	presence	of	a	large	number	of	hazardous	substances	were	found	in	both	the	runoff	and	vapor	
phase	of	recycled	tire	playground	surfaces.		
b. Nine	polycyclic	aromatic	hydrocarbons	(PAHs)	were	detected	in	the	runoff/	cleaning	water	with	total	
PAH	concentrations	in	the	ppm	(parts	per	million)	range.		
c. The	most	toxic	PAH,	benzo[a]pyrene	was	detected	in	extracts	from	playground	surfaces.		
d. “The	presence	and	the	high	concentration	of	these	chemical	compounds	in	playground	should	be	a	
matter	of	concern	owing	to	their	high	toxicity.”	
4. Laible,	C.,	&	Sherman,	O.	H.	(2014).	Risk	Factors	and	Prevention	Strategies	of	Non-Contact	Anterior	Cruciate	
Ligament	Injuries.	Bulletin	of	the	Hospital	for	Joint	Diseases,	72(1),	70-5.	Available	at:	
http://www.nyuhjdbulletin.org/mod/bulletin/v72n1/docs/v72n1_7.pdf		
a. Since	shoe-surface	interaction	is	important	for	injury	prevention,	“the	optimal	surface	to	prevent	
injury	is	outdoors	on	natural	grass.”	
b. Artificial	turf	has	a	higher	friction	coefficient	and	greater	ground	reaction	force,	both	conditions	that	
increase	the	risk	for	injury.		
c. Furthermore,	as	temperature	increases	the	shoe-surface	friction	interaction	increases	and	exposes	
athletes	to	greater	risk	of	injury.			
5. Bass,	J.	J.,	&	Hintze,	D.	W.	(2013).	Determination	of	Microbial	Populations	in	a	Synthetic	Turf	System.	
Skyline-The	Big	Sky	Undergraduate	Journal,	1(1),	1.	Available	at:	
http://skyline.bigskyconf.com/cgi/viewcontent.cgi?article=1000&context=journal		
a. Abrasions,	even	insignificant	ones,	from	artificial	turf	can	create	an	entry	site	for	pathogens.	
b. The	higher	abrasion	rate	for	synthetic	turf	increases	the	risk	of	infection,	and	the	microbial	
populations	found	within	synthetic	turf	are	a	source	of	pathogens	when	abrasions	occur.		
c. Older	turf	fields	have	higher	microbial	populations,	as	well	as	higher	levels	in	the	higher	traffic	areas	
such	as	the	sidelines.		These	results	indicate	that	artificial	turf	poses	a	greater	risk	for	the	spread	of	
pathogens	and	infections	among	student	athletes.		
6. Llompart,	M.,	Sanchez-Prado,	L.,	Lamas,	J.	P.,	Garcia-Jares,	C.,	Roca,	E.,	&	Dagnac,	T.	(2013).	Hazardous	
organic	chemicals	in	rubber	recycled	tire	playgrounds	and	pavers.	Chemosphere,	90(2),	423-431.	Available	
at:	http://www.elcorreodelsol.com/sites/default/files/chemosphere_maria_llompart.pdf		

Page 3 of 10

7.

8.

9.

10.

11.

a. An	analysis	of	surfaces	containing	recycled	rubber	tires	confirmed	the	presence	of	hazardous	
substances	including	PAHs,	phthalates,	antioxidants	(e.g.	BHT,	phenols),	benzothiazole,	derivatives,	
and	other	chemicals.		
b. The	vapor	phase	above	the	samples	confirmed	volatilization	of	many	organic	compounds	
demonstrating	that	these	chemicals	can	enter	the	human	body	through	inhalation.	
c. The	use	of	recycled	rubber	tires	for	play	areas,	especially	facilities	for	children,	should	be	restricted	
or	prohibited.			
Serensits,	T.	J.,	McNitt,	A.	S.,	&	Petrunak,	D.	M.	(2011).	Human	health	issues	on	synthetic	turf	in	the	USA.	
Proceedings	of	the	Institution	of	Mechanical	Engineers,	Part	P:	Journal	of	Sports	Engineering	and	Technology,	
225(3),	139-146.	
a. Synthetic	turf	is	more	abrasive	than	natural	turf	grass,	therefore,	“breaks	in	the	skin	are	more	
common,	creating	a	pathway	for	infection	when	in	contact	with	an	infected	surface.”				
Shalat,	S.L.	(2011).	An	Evaluation	of	Potential	Exposures	to	Lead	and	Other	Metals	as	the	Result	of	
Aerosolized	Particulate	Matter	from	Artificial	Turf	Playing	Fields,	Final	Report.	Submitted	to	NJ	Department	
of	Environmental	Protection,	July	14,	2011.		Available	at:	http://www.nj.gov/dep/dsr/publications/artificialturf-report.pdf		
a. In	air	samples	collected	from	artificial	turf	during	various	levels	of	activity,	researchers	detected	
arsenic,	cadmium,	chromium	and	lead,	all	metals	with	known	human	toxicity.		
b. This	research	demonstrates	that	activity	by	players	on	the	fields	could	suspend	contaminated	
particulates	into	the	air	that	could	be	inhaled	and	therefore,	human	exposure	from	artificial	turf	
fields	is	not	limited	to	dermal.		
c. These	results	“raise	some	concerns	with	regard	to	the	potential	hazards	that	may	exist	for	
individuals	and	in	particular	children	who	engage	in	sports	activities	on	artificial	turf	fields.”	
Van	Ulirsch,	G.	et	al.	(2010).	Evaluating	and	regulating	lead	in	synthetic	turf.	Environmental	health	
perspectives,	118(10),	1345.	Available	at:	http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2957910/pdf/ehp118-1345.pdf		
a. Artificial	turf	can	degrade	to	form	lead	containing	dust	at	levels	that	pose	a	health	risk	to	children.			
b. Due	to	the	lack	of	research,	“…physicians	should	be	aware	of	synthetic	turf	as	one	potential	source	
of	exposure	for	young	children…”	and	“Health	officials	investigating	elevated	blood	lead	in	children	
should	also	be	aware	of	synthetic	turf	as	a	potential	source	of	lead	exposure.”	
Center	for	Disease	Control	and	Prevention.	(2008).	CDC	Health	Advisory.	Potential	exposures	to	lead	
inartificial	turf:	Public	health	issues,	actions,	and	recommendations.	June	18,	2008.	Available	at:	
http://www.dhhr.wv.gov/oeps/disease/Documents/Advisory_00275.pdf		
a. Artificial	turf	made	of	nylon	or	nylon/	polyethylene	blend	fibers	contain	lead	and	pose	a	potential	
public	health	concern.		
b. The	risk	for	lead	exposure	is	higher	for	artificial	fields	that	are	old,	frequently	used,	exposed	to	the	
weather,	or	demonstrate	signs	of	abraded,	faded,	or	broken	fibers.		As	turf	ages,	lead	is	released	in	
dust	that	could	then	be	ingested	or	inhaled.			
c. CDC	does	not	know	how	much	lead	the	body	will	absorb.		However,	lead	can	cause	neurological	
development	symptoms	and	behavioral	problems.		Children	less	than	6	years	old	are	more	affected	
by	lead	than	adults	and	absorb	lead	more	easily.		
d. CDC	does	not	understand	the	potential	risks	associated	with	lead	exposure	from	artificial	turf	but	
recommends	precautions	including	aggressive	hand	and	body	washing	after	playing	on	fields,	
washing	clothes	immediately	to	avoid	tracking	contaminated	dust	to	other	places,	and	discouraging	
eating	and	drinking	while	on	turf	products.	
Han,	I.	K.,	Zhang,	L.,	&	Crain,	W.	(2008).	Hazardous	chemicals	in	synthetic	turf	materials	and	their	
bioaccessibility	in	digestive	fluids.	Journal	of	Exposure	Science	and	Environmental	Epidemiology,	18(6),	600607.		Available	at:	http://www.nature.com/jes/journal/v18/n6/pdf/jes200855a.pdf	

Page 4 of 10

a. Samples	from	rubber	granules	and	from	artificial	grass	fibers	were	taken	at	fields	of	different	ages	
and	analyzed	for	polycyclic	aromatic	hydrocarbons	(PAHs),	zinc,	chromium,	arsenic,	cadmium,	and	
lead.		These	samples	were	then	analyzed	to	determine	their	bioaccessibility	in	synthetic	digestive	
fluids.		
b. The	rubber	granules	found	in	artificial	turf	fields	had	PAH	levels	above	health-based	soil	standards.		
Although	levels	appear	to	decline	over	time,	this	trend	can	be	altered	by	the	fact	that	new	rubber	
can	be	added	periodically	to	compensate	for	the	loss	of	infill	material.			
c. There	was	a	“slightly	worrisome”	level	of	chromium	found	in	artificial	turf	fiber	samples.	
d. Lead	in	artificial	fields	can	come	from	the	blades	of	artificial	grass,	the	pigment	used	for	the	field	
markings	and	lines,	and	the	infill	material.		Although	there	were	relatively	low	concentrations	of	lead	
measured,	the	researchers	were	careful	to	point	out:	“some	health	scientists	believe	that	any	Pb	
[lead]	is	harmful	to	children’s	neurocognitive	development,	and	that	no	new	Pb	should	be	added	to	
their	surroundings.”	Furthermore,	the	lead	present	in	the	rubber	granules,	while	at	low	levels,	was	
“highly	bioaccessible”	to	synthetic	gastric	fluid.				
12. Brown,	D.R.	(2007).	Artificial	Turf:	Exposures	to	Ground-up	Rubber	Tires.	Environment	&	Human	Health,	Inc.	
(EHHI).	Available	at:	http://www.ehhi.org/reports/turf/turf_report07.pdf		
a. Direct	human	exposure	to	the	hazardous	substances	contained	in	artificial	turf	occurs	via	three	
pathways:		inhalation	as	chemicals	off	gas	from	the	turf,	skin	contact,	or	ingestion	including	by	
children	or	infants	who	come	into	contact	with	the	material.		In	the	case	of	allergies	(i.e.	latex	
allergies),	inhalation	could	result	in	a	systemic	response,	as	opposed	to	a	contact	response.				
b. Extreme	temperatures	or	solvents	are	not	needed	to	release	metals	(including	zinc,	selenium,	lead	
and	cadmium),	volatile	organic	compounds,	or	semi-volatile	organic	compounds	from	the	rubber	infill	of	artificial	turf	into	the	air	or	water	–	release	takes	place	in	ambient	air	and	water	temperatures.	
c. While,	“the	status	of	the	information	about	human	exposures	to	recycled	tire	crumb	rubber	in-fill	…	
is	not	sufficient	to	determine	the	safety	of	the	use	of	the	product	in	situations	that	involve	
continuous	episodes	of	human	exposure;”			“the	available	information	is	sufficient	and	strong	
enough	to	raise	plausible	questions	with	respect	to	acute	toxicity	for	susceptible	persons,	and	for	
cancer	risks.”		
13. California	Office	of	Environmental	Health	Hazard	Assessment	(OEHHA)	(2007).	Evaluation	of	Health	Effects	
of	Recycled	Waste	Tires	in	Playground	and	Track	Products.	Report	prepared	for	the	Integrated	Waste	
Management	Board.		Available	at:	
http://www.calrecycle.ca.gov/publications/Documents/Tires%5C62206013.pdf		
a. Based	on	a	review	of	46	studies,	49	chemicals	that	are	released	from	tire	crumb	were	identified.		
b. Of	the	49	chemicals	identified,	“seven	of	the	chemicals	leached	from	tire	shreds	were	carcinogens.”			
c. OEHHA	calculated	a	cancer	risk	of	1.2	in	10	million	based	on	a	one-time	ingestion	of	the	tire	crumb	
rubber	over	a	lifetime.				
d. Chrysene,	a	PAH	and	carcinogen,	was	found	to	be	ingested	as	the	result	of	hand-to-surface-tomouth	transfer	from	playground	surfaces	made	with	recycled	tires.		Assuming	playground	use	for	an	
11	year	period	(from	age	1	to	12)	there	was	found	to	be	an	increased	cancer	risk	of	2.9	in	one	million	
from	the	general	cancer	risk	gauge	of	one	in	one	million	
e. Only	31%	of	the	playground	surfaces	made	of	recycled	tires	tested	passed	the	California	State	
mandated	Head	Impact	Criterion	(HIC)	of	<1,000.		In	this	same	study	100%	of	the	playground	
surfaces	made	of	wood	chips	passed	the	same	standard.			
14. Crain,	W.	and	Zhang,	J.	(2007).	Rachel’s	Democracy	and	Health	News	#992:	Hazardous	Chemicals	in	
Synthetic	Turf,	Follow-up	Analyses,	April	12,	2007.	Available	at:	
http://www.precaution.org/lib/07/prn_synthetic_turf.070405.htm		

Page 5 of 10

15.

16.

17.

18.

19.

a. Testing	on	two	sites	in	New	York	where	synthetic	turf	has	been	used	(the	large,	3	year	old,	Parade	
Ground	in	Brooklyn;	the	relatively	small	5	month	old	Sara	D.	Roosevelt	Park	in	Manhattan)	found	
PAHs	at	hazardous	levels	(as	per	New	York	standards).		Dibenzo	(a.h)anthracene,	a	probable	human	
carcinogen,	was	also	found	at	hazardous	levels,	with	two	other	PAH	forms,	both	possible	human	
carcinogens,	found	at	hazardous	levels	at	the	Parade	Ground	site.				
b. Research	into	the	pathways	by	which	these	substances	may	be	absorbed	into	the	bodies	of	children	
and	athletes	via	skin	contact,	ingestion	or	other	pathways,	is	very	limited	with	additional	research	
needed.	
Epstein,	V.	(2007).	Texas	Football	Succumbs	to	Virulent	Staph	Infection	from	Turf.	Bloomberg	Press,	
December	21,	2007.	Available	at:	
http://www.bloomberg.com/apps/news?pid=newsarchive&sid=alxhrJDn.cdc	
a. Artificial	turf	is	linked	with	serious	and	potentially	life	threatening	staph	infections	including	MRSA	
(methicillin-resistant	staphylococcus	aureus).		MRSA	can	exploit	minor	skin	injuries	such	as	turf	
burn,	and	therefore,	MRSA	infection	rate	among	players	is	16	times	higher	than	the	national	
average.	
KEMI,	Swedish	Chemicals	Agency	(2007).		Facts:	Synthetic	Turf.	April	2007.		Available:	
http://www2.kemi.se/upload/trycksaker/pdf/faktablad/fbsyntheticturf.pdf.		
a. Tires	contain	up	to	60	different	substances	which	may	be	bioaccumulative,	carcinogenic,	reprotoxic,	
mutagenic	and/or	endocrine	disrupting.				
b. Most	PAHs	are	persistent,	bioaccumulative	and	carcinogenic.				
c. Among	the	metals	found	in	tires	that	may	be	of	concern	are	zinc,	lead,	copper,	chromium	and	
cadmium.	Zinc	and	copper	are	harmful	when	absorbed	at	high	levels.		Lead	can	affect	reproduction	
and	development	of	the	nervous	system	leading	to	poor	cognitive	development.		Chromium	is	
carcinogenic	and	mutagenic.		Cadmium	is	toxic	to	humans	and	can	contribute	to	poor	liver	and	
kidney	function,	as	well	as	osteoporosis.				
Mattina,	M.	I.,	Isleyen,	M.,	Berger,	W.,	&	Ozdemir,	S.	(2007).	Examination	of	crumb	rubber	produced	from	
recycled	tires.	The	Connecticut	Agricultural	Experiment	Station,	New	Haven,	CT.	Available	at:	
http://www.ct.gov/caes/lib/caes/documents/publications/fact_sheets/examinationofcrumbrubberac005.pd
f	
a. Multiple	compounds	out-gas	and	leached	into	water	from	synthetic	turf	rubber	crumb	under	
ambient	temperatures	including	benzothiazole	(a	skin	and	eye	irritant),	butylated	hydroxyanisole	(a	
“recognized	carcinogen,	suspected	endocrine	toxicant,	gastrointestinal	toxicant,	immune	toxicant,	
neurotoxicant,	skin	and	sense-organ	toxicant”),	n-hexadecane	(a	severe	irritant),	and	4-(t-octyl)	
phenol	(“corrosive	and	destructive	to	mucous	membranes”).	
Anderson,	M.	E.	et	al.		(2006).	A	case	study	of	tire	crumb	use	on	playgrounds:	risk	analysis	and	
communication	when	major	clinical	knowledge	gaps	exist.	Environmental	health	perspectives,	114(1),	1.	
Available	at:	http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1332647/pdf/ehp0114-000001.pdf		
a. A	Case	Study	conducted	by	a	group	of	physicians	and	public	health	professionals	working	with	the	
U.S.	Environmental	Protection	Agency’s	Region	Pediatric	Environmental	Health	Specialty	Unit	found	
that	the	research	and	information	necessary	is	not	available	to	establish	“the	safety	in	use	with	
children”	of	tire	crumb	used	as	playground	surfaces.				
b. “The	use	of	recycled	tire	crumb	products	on	playgrounds	has	had	little	health	investigation.		The	
major	unresolved	concern	is	the	potential	for	latex	allergy	with	short-term	dermal	exposure.”					
Crain,	W.	and	Zhang,	J.	(2006).	Rachel’s	Democracy	and	Health	News	#871:	Hazard	Chemicals	in	Synthetic	
Turf.		September	7,	2006.	Available	at:	
http://www.precaution.org/lib/06/prn_toxins_in_synthetic_turf.060831.htm		

Page 6 of 10

20.

21.

22.

23.

24.

a. Analyses	conducted	at	the	Environmental	and	Occupational	Health	Sciences	Institute	of	Rutgers	
University	found	the	crumb	rubber	from	artificial	turf	to	contain	high	levels	of	PAHs,	as	well	as	zinc	
and	arsenic.				
b. PAHs	found	to	be	contained	in	the	crumb	rubber	“were	above	the	concentration	levels	that	the	New	
York	State	Department	of	Environmental	Conservation	(DEC)	considers	sufficiently	hazardous	to	
public	health	to	require	their	removal	from	contaminated	soil	sites.	It	is	highly	likely	that	all	six	PAHs	
are	carcinogenic	to	humans.”						
c. “The	analyses	also	revealed	levels	of	zinc	in	both	samples	that	exceed	the	DEC's	tolerable	levels.”						
d. The	researchers	associated	with	these	findings	were	careful	to	state	“We	want	to	emphasize	that	
the	findings	are	preliminary.	PAHs	in	rubber	might	not	act	the	same	way	as	in	soil,	and	we	do	not	yet	
have	information	on	the	ease	with	which	the	PAHs	in	these	rubber	particles	might	be	absorbed	by	
children	or	adults	--	by	ingestion,	inhalation,	or	absorption	through	the	skin.	However,	the	findings	
are	worrisome.	Until	more	is	known,	it	wouldn't	be	prudent	to	install	the	synthetic	turf	in	any	more	
parks.”			
Kazakova,	S.	V.	et	al.		(2005).	A	clone	of	methicillin-resistant	Staphylococcus	aureus	among	professional	
football	players.	New	England	Journal	of	Medicine,	352(5),	468-475.		Available	at:	
http://www.nejm.org/doi/pdf/10.1056/NEJMoa042859		
a. In	a	study	of	professional	football	players	from	the	St.	Louis	Rams	team,	all	MRSA	infections	
developed	at	sites	of	turf	burns.	
b. Players	reported	a	higher	frequency	of	abrasions	when	playing	on	artificial	turf	compared	to	natural	
grass.		
Begier,	E.	M.	et	al.	(2004).	A	high-morbidity	outbreak	of	methicillin-resistant	Staphylococcus	aureus	among	
players	on	a	college	football	team,	facilitated	by	cosmetic	body	shaving	and	turf	burns.	Clinical	infectious	
diseases,	39(10),	1446-1453.	(a	study	conducted	for	the	Connecticut	Department	of	Public	Health,	Student	
Health	Services	of	Sacred	Heart	Univ,	Centers	for	Disease	Control	and	Prevention,	Minnesota	Department	of	
Public	Health,	and	the	Los	Angeles	County	Department	of	Health	Services).	
a. In	a	study	of	MRSA	outbreaks	involving	college	football	players,	infection	was	associated	with	turf	
burns	from	artificial	grass.	Turf	burns	increased	the	risk	of	infection	regardless	of	the	type	and	
timing	of	care	provided	the	burn.		Turf	burns	may	be	facilitating	infection	by	acting	as	a	pathway	for	
infection.		
Shorten,	M.	R.,	&	Himmelsbach,	J.	A.	(2003).	Sports	surfaces	and	the	risk	of	traumatic	brain	injury.	Sports	
surfaces.	University	of	Calgary,	Calgary,	49-69.	Available	at:	
http://biomechanica.com/docs/publications/docs/Shorten%20-%20Head%20Injury%20Risk.pdf			
a. There	is	double	the	risk	of	head	traumas	such	as	concussions	associated	with	artificial	turf	compared	
to	natural	turf,	and	artificial	turf	presents	a	5	times	greater	risk	of	more	severe	head	injury.			
b. Concussions	(formally	described	as	Mild	Traumatic	Brain	Injury	or	MTBI)	resulting	from	sports	has,	
according	to	the	US	Centers	for	Disease	Control,	reached	“epidemic	proportions,”	and	these	’mild’	
head	traumas,	especially	a	series	of	concussions,	can	have	long	term,	negative	effects	on	cognitive	
function.					
Naunheim,	R.,		et	al.	(2002).	Does	the	use	of	artificial	turf	contribute	to	head	injuries?.	Journal	of	TraumaInjury,	Infection,	and	Critical	Care,	53(4),	691-694.	
a. The	impact-attenuating	properties	of	two	artificial	fields	were	compared	to	a	grass	outdoor	practice	
field.		Both	artificial	surfaces	were	harder	compared	to	the	outdoor	grass	field.		It	was	concluded	
that	the	low	impact	attenuation	of	the	artificial	turf	may	be	contributing	to	the	high	incidence	of	
concussion.	
Guskiewicz,	K.	M.,		et	al.	(2000).	Epidemiology	of	concussion	in	collegiate	and	high	school	football	players.	
The	American	Journal	of	Sports	Medicine,	28(5),	643-650.		

Page 7 of 10

a. In	a	survey	of	both	high	school	and	collegiate	certified	athletic	trainers	representing	over	17,000	
football	players,	contact	with	artificial	turf	was	associated	with	more	serious	concussion	than	
contact	with	natural	grass.		
	
	
Environment:	The	pollutant	substances	found	in	artificial	turf	contribute	to	contamination	of	soil,	plants	and	aquatic	
ecosystems	and	pose	a	risk	of	toxic	effects	for	aquatic	and	sediment	dwelling	organisms.		The	resulting	
environmental	harm	is	on-going	and	long-term,	happening	over	many	years.	The	varying	content	of	tires	used	for	
infill	of	turf	systems	makes	this	threat	a	moving	target.	A	growing	body	of	scientific	analysis	is	documenting	a	
concerning	level	of	environmental	threat	and	harm	and	is	further	demonstrating	the	need	for	more	research	
regarding	artificial	turf	and	its	ramifications	for	the	environment.		
1. Public	Employees	for	Environmental	Responsibility	(PEER)	(2012).	Petition	for	a	Rulemaking	on	Surface	Heat	
from	Artificial	Turf,	Submitted	by	PEER	to	Consumer	Product	Safety	Commission,	Sept	6,	2012.		Available	at:	
http://www.peer.org/assets/docs/doc/9_6_12_PEER_Petition_heat_rulemaking.pdf		
a. As	well	explained	by	an	oft	cited	petition	to	the	Consumer	Product	Safety	Commission	for	
rulemaking:		“When	tires	are	shredded	and	pulverized,	their	surface	area	increases	exponentially,	as	
does	the	particulate	and	gas	yield	from	the	tire	material.		Since	tires	are	made	of	very	harmful	
materials,	including	24	gases	found	to	be	harmful	to	humans,	carbon	black,	(a	carcinogen	which	
makes	up	30%	of	tires),	latex,	benzothiazoles,	phthalates,	lead,	mercury,	cadmium,	zinc	and	many	
other	known	toxins,	when	the	fields	heat	up,	they	become	increasingly	dynamic.		Of	primary	
concern	is	the	interaction	of	particles	and	gases,	‘because	when	particles	adsorb	onto	the	surface	of	
gases,	they	become	10-20	times	more	toxic	than	the	materials	themselves.’”		
b. Furthermore,	artificial	turf	becomes	more	toxic	as	it	heats	up.	
2. Sadiktsis,	I.,	et	al.	(2012).	Automobile	Tires 	A	Potential	Source	of	Highly	Carcinogenic	Dibenzopyrenes	to	
the	Environment.	Environmental	science	&	technology,	46(6),	3326-3334.	Available	at:		
http://www.locchiodiromolo.it/blog/wp-content/uploads/2012/03/Sadiktsis-et-al-Automobile-TiresPotential-Source-of-Highly-Carcinogenic-2012.pdf		
a. The	variability	in	PAH	concentrations	between	different	tires	is	large.	
b. Due	to	“leaching	of	PAHs	from	recycled	tire	rubber	material,	tires	are	a	source	of	environmental	
pollution	of	PAHs	through	their	entire	lifecycle.”	
3. Connecticut	Department	of	Environmental	Protection	(2010).	Artificial	Turf	Study:	Leachate	and	Stormwater	
Characteristics,	Final	Report.	Available	at:	
http://www.ct.gov/deep/lib/deep/artificialturf/dep_artificial_turf_report.pdf		
a. Stormwater	runoff	from	artificial	turf	contained	zinc,	manganese,	and	chromium	at	levels	toxic	to	
aquatic	organisms.		
b. Therefore,	there	is	a	potential	risk	to	surface	waters	from	the	installation	of	artificial	turf.		Zinc	levels	
could	cause	exceedance	of	acute	aquatic	toxicity	criteria.		This	risk	is	especially	high	for	smaller	
watercourses.		
c. Best	management	practices	and	treatment	(i.e.	wetlands,	wet	ponds,	infiltration	structures,	
compost	filter,	sand	filters,	or	biofiltration	structures)	should	be	used	for	stormwater	runoff	from	
artificial	turf	fields	that	discharge	to	surface	waters.		
4. Yaghoobian,	N.,	et	al.	(2010).	Modeling	the	thermal	effects	of	artificial	turf	on	the	urban	environment.	
Journal	of	Applied	Meteorology	and	Climatology,	49(3),	332-345.		
a. An	urban	temperature	model	showed	an	increase	in	local	atmospheric	temperatures	of	up	to	4°	C	
(39°	F)	in	areas	where	natural	grass	cover	had	been	replaced	with	artificial	turf.		
5. Han,	I.	K.,	et	al.	(2008).	Hazardous	chemicals	in	synthetic	turf	materials	and	their	bioaccessibility	in	digestive	
fluids.	Journal	of	Exposure	Science	and	Environmental	Epidemiology,	18(6),	600-607.		Available	at:	
http://www.nature.com/jes/journal/v18/n6/pdf/jes200855a.pdf	

Page 8 of 10

6.

7.

8.

9.

a. Zinc	was	found	to	exceed	soil	limits	and	the	leaching	rate	from	rubber	granules	was	up	to	20	times	
more	than	the	leaching	rate	from	agricultural	applications	of	manure	and	pesticides.		“Runoff	with	
high	Zn	[zinc]	from	synthetic	turf	fields	may	produce	adverse	effects	to	plants	and	aquatic	life.”		
KEMI,	Swedish	Chemicals	Agency	(2007).		Facts:	Synthetic	Turf.	April	2007.		Available:	
http://www2.kemi.se/upload/trycksaker/pdf/faktablad/fbsyntheticturf.pdf.		
a. Hazardous	substances	found	in	tires	may	persist	in	the	environment	including	polycyclic	aromatic	
hydrocarbons	(PAHs),	phthalates,	phenols,	and	certain	metals.			
b. Most	PAHs	are	persistent,	bioaccumulative	and	carcinogenic.				
c. Phthalates	and	phenols	are	not	chemically	bound	to	the	rubber	and	as	a	result	can	leach	from	the	
infill	material.			These	chemicals	are	persistent	and	bioaccumulative	and	can	have	long-term	effects	
on	the	environment.				
Meil,	J.,	&	Bushi,	L.	(2006).	Estimating	the	Required	Global	Warming	Offsets	to	Achieve	a	Carbon	Neutral	
Synthetic	Field	Turf	System	Installation.	Athena	Institute.	Ontario	Canada.	Available	at:	
http://sfrecpark.org/wp-content/uploads/AthenaICarbonOffsets.pdf		
a. Artificial	turf	systems	have	a	carbon	footprint	due	to	the	greenhouse	gases	emitted	during	the	life	
cycle	of	synthetic	turf	systems	compared	to	natural	grass	surfaces.	
b. To	achieve	a	10-year	carbon	neutral	synthetic	turf	installation,	1861	trees	would	need	to	be	planted	
to	offset	the	field’s	carbon	footprint.	
Källqvist,	T.	(2005).	Environmental	risk	assessment	of	artificial	turf	systems.	Norwegian	Institute	for	Water	
Research,	19.	
a. Recycled	rubber	varies	considerably	in	its	chemical	composition,	even	when	from	the	same	
manufacturer.	
b. Leaching	of	contaminants	from	artificial	turf	as	the	result	of	surface	water	runoff	from	precipitation	
is	a	great	risk	for	the	environment.		It	is	predicted	that	chemicals	leaching	from	synthetic	turf	
materials	occurs	slowly,	and	as	a	result	the	environmental	harms	may	take	place	over	many	years.	
There	is	also	a	level	of	“erosion”	that	takes	place	and	can	result	in	fine	particles	that	could	be	carried	
to	local	waterways.	Chemicals	have	even	been	shown	to	leach	from	the	artificial	turf	fibers.		
c. The	leachate	from	artificial	turf	can	contain	a	variety	of	metals	(including	lead,	cadmium,	copper,	
mercury	and	zinc)	and	organic	pollutants	(including	PAHs,	phthalates,	4-t-octylphenol	and	isononyphenol).		
d. The	runoff	from	an	artificial	turf	field	poses	“a	positive	risk	of	toxic	effects	on	biota	in	the	water	
phase	and	in	the	sediment.”		
e. Of	the	organic	compounds	at	issue,	octylphenol	represents	the	greatest	risk,	and	possibly	could	
occur	at	levels	where	hormone	disrupting	effects	are	a	concern.	
f. The	Norwegian	Institute	for	Water	Research	has	determined	that	it	is	“appropriate	to	perform	a	risk	
assessment	which	covers	water	and	sediments	in	watercourses	which	receive	run-off	from	artificial	
turf	pitches.”	
Thale,	S.W.	et	al.	(2004)	Potential	Health	and	Environmental	Effects	Associated	with	Synthetic	Turf	Systems-	
final	report.	Byggforsk,	Norwegian	Building	Research	Institute.		Available	at:	http://www.issssportsurfacescience.org/downloads/documents/vskyslv2qq_nbiengelsk.pdf	
a. While	recycled	rubber	is	a	greater	source	of	pollution,	newly	manufactured	rubber	also	contains	
levels	of	hazardous	substances;	in	the	case	of	zinc	and	chromium	the	levels	of	recycled	and	newly	
manufactured	rubber	are	comparable.	
b. The	synthetic	grass	fibers	can	also	be	a	significant	source	of	pollution,	albeit	significantly	lesser	
amounts	leach	from	the	synthetic	grass	than	the	rubber	infill		

Page 9 of 10

10. Tucker,	M.R.	(1997).	Ground	Rubber:	Potential	Toxicity	to	Plants.	Media	Notes	for	North	Carolina	Growers,	
North	Carolina	Dept.	of	Agriculture	&	Consumer	Services,	April	1997.		Available	at:	
http://www.ncagr.gov/agronomi/pdffiles/rubber.pdf		
a. When	talking	about	the	use	of	ground	rubber	as	a	supplement	to	planting	soils,	the	North	Carolina	
Department	of	Agriculture	and	Consumer	Services	sent	out	a	notice	identifying	the	risk	that	zinc	
leaching	from	the	rubber	causes	a	decline	in	plant	growth	“directly	attributable	to	zinc	toxicity.”	
11. Quoting	Dr.	Linda	Chalker-Scott,	Washington	State	University	-	Turfgrass	Resource	Center,	Facts	About	
Artificial	Turf	and	Natural	Grass.	(n.d.)	Available	at:	http://plasticfieldsfornever.org/ArtificialTurfBooklet.pdf		
a. “There	is	no	question	that	toxic	substances	leach	from	rubber	as	it	degrades,	contaminating	the	soil,	
flora,	and	fauna	and	aquatic	systems.”	
12. Turfgrass	Resource	Center	(n.d.)	Facts	About	Artificial	Turf	and	Natural	Grass.		Available	at:	
http://plasticfieldsfornever.org/ArtificialTurfBooklet.pdf		
a. Part	of	artificial	turf	maintenance	is	the	regular	replenishment	of	the	infill.		Some	of	the	infill	is	
merely	settling,	but	some	of	it	is	washing	away	or	literally	“walking	away”	with	players	after	use.		
The	effects	of	this	“runaway”	infill	are	unknown	and	more	research	is	needed	to	draw	conclusions–	
where	is	it	going	and	what	impacts	is	it	having?	
b. Maintenance	of	artificial	turf	can	include	application	of	algaecides	or	disinfectants	to	keep	the	
surface	clean	and	application	of	fabric	softener	to	mask	the	odor	of	the	artificial	turf.		What	is	the	
final	destination	of	these	chemicals	and	their	implications	for	the	environment	and	those	coming	
into	contact	with	them	while	playing	on	the	fields?			
c. There	is	no	indication	that	artificial	turf	drains	more	effectively	for	purposes	of	a	stormwater	
infiltration	system	than	natural	grass.		In	addition,	infiltration	systems	are	designed	to	work	with	
whatever	surface	coating	they	receive	from	natural	grass	to	porous	paving.		Although	there	is	no	
assumed	benefit	from	an	infiltration	perspective	of	natural	turf	or	artificial	turf,	in	many	cases	the	
complex	systems	designed	for	artificial	turf	fields	have	experience	problems,	work	incorrectly,	or	
inefficiently.	
	

Page 10 of 10

Fact Sheet

Artificial/Synthetic Turf
While professional sports are turning away from artificial turf, it is gaining ground and
use at the local level at schools and community fields. Producers of artificial turf
make claims of environment, health and safety benefits associated with artificial turf –
when they make these blanket claims they are not giving the full picture.
In terms of environment, health and safety, the jury is still very far out
on artificial turf. There continues to be information documenting harm in
each of these arenas. Most of all, there is a widespread demonstration
and recognition that in terms of environmental, health and safety threats
from artificial turf, much more study, analysis and consideration is
needed. And whatever the final outcome of the research, manufacturers neglect the
reality that as much as they try to mimic natural grass, artificial turf is not grass, and
cannot provide the same natural feel, natural look, natural smell and environmental
benefits that natural grass provides.
Artificial Turf is generally comprised of plastic fibers (generally made of polyethylene,
polypropylene or nylon) attached to a polypropylene or polyester plastic webbing. A
combination of sand and rubber, or sometimes rubber alone, fills between the fibers.
The source for the rubber infill is generally recycled tires. Sometimes newly
manufactured rubber granulate is used but the cost is so much greater than the
recycled tire form that it is generally not the substance used. New developments in
artificial turf technology seem continually in the works.
Water Quality:

While it seems well recognized that there is a limited level of assessment and
investigation into the environmental impacts associated with artificial turf, a growing
body of scientific analysis is documenting a concerning level of environmental threat
and harm and is further demonstrating the need for more research regarding artificial
turf and its ramifications for the environment.
Synthetic turf is generally made with rubber from waste tires. Recycled rubber varies
considerably in its chemical composition, even when from the same manufacturer.1
Hazardous substances found in tires may persist in the environment including
polycyclic aromatic hydrocarbons (PAHs), phthalates and certain metals. These
substances may be bioaccumulative, carcinogenic, reprotoxic, mutagenic and/or
endocrine disrupting.2 The chemicals in waste tires are of such concern that a report
published by the Swedish Chemicals Inspectorate recommends: “waste tyres should
not be used for synthetic turf surfaces.” 3
• Most PAHs are persistent, bioaccumulative and carcinogenic.4
• Phthalates are generally used as solvents and plasticisers in plastics. Phthalates
are not chemically bound to the rubber and as a result can leach from the infill
material.5
• Phenols likewise are not chemically bound to the rubber and so can leach.
Phenols too are persistent and bioaccumulative and can have long-term effects
on the environment.6
• Among the metals found in tires that may be of concern are zinc, lead, copper,
chromium and cadmium. While zinc and copper are essential for living
organisms, when absorbed at high levels they become harmful. Lead can affect
reproduction, development of the nervous system leading to poor cognitive
development, and is a particular threat to fetuses and young children.
Chromium is carcinogenic and mutagenic. Cadmium is toxic to humans and if
taken in can contribute to poor liver and kidney function, as well as
osteoporosis. 7
The Connecticut Agricultural Experiment Station conclusively found four compounds
which out-gassed and leached into water from synthetic turf rubber crumb under
ambient temperatures:
Ø Benzothiazole (a skin and eye irritant),
T. Kallqvist, Norwegian Institute for Water Research (NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 7.
2
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
3
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
4
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
5
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
6
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
7
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
1

Page 2 of 13
Artificial Turf Fact Sheet, 9/9/07

Ø Butylated hydroxyanisole (a “recognized carcinogen, suspected endocrine
toxicant, gastrointestinal toxicant, immune toxicant, neurotoxicant, skin and
sense-organ toxicant”),
Ø n-hexadecane (a severe irritant) &
Ø 4-(t-octyl) phenol (“corrosive and destructive to mucous membranes”).8
As rubber degrades it can leach toxic substances which can contaminate soil, plants
and aquatic ecosystems.9 Study has concluded that the use of tires in artificial turf
has the potential to pollute our environment with PAHs, phenols and zinc10 and that
runoff from an artificial turf field draining to a local creek can pose “a positive risk of
toxic effects on biota in the water phase and in the sediment.”11 Other metal
contaminants found to leach from tire crumb rubber include zinc, selenium, lead and
cadmium.12 Zinc has also been shown to leach from the artificial turf fibers.13
Extreme temperatures or solvents are not needed to release these metals, volatile
organic compounds or semi-volatile organic compounds from the rubber in-fill of
artificial turf into the air or water – release takes place in ambient air and water
temperatures.14
Leaching of substances as the result of surface water runoff from precipitation has,
by some researchers, been predicted to be the greatest risk for the environment from
artificial turf. 15 Study shows there is a risk of local effects for aquatic and sediment
dwelling organisms in impacted water courses. 16 Recycled rubber, and associated
The Connecticut Agricultural Experiment Station, Examination of Crumb Rubber Produced from
Recycled Tires, August 2007; Environment & Human Health, Inc., Artificial Turf, Exposures to GroundUp Rubber Tires, 2007.
9
Quoting Dr. Linda Chalker-Scott, Washington State University -- Turfgrass Resource Center, Facts
About Artificial Turf and Natural Grass; T. Kallqvist, Norwegian Institute for Water Research(NIVA),
Environmental Risk Assessment of Artificial Turf Systems, December 2005, p. 17.; Connecticut
Agricultural Experiment Station, Examination of Crumb Rubber Produced from Recycled Tires.
10
T. Kallqvist, Norwegian Institute for Water Research(NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 5; T. Edeskar, Lulea University of Technology, Technical and
Environmental Properties of Tyre Shreds Focusing on Ground Engineer Application, 2004 as cited in
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
11
T. Kallqvist, Norwegian Institute for Water Research (NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 6.
12
Environment & Human Health, Inc., Artificial Turf, Exposures to Ground-Up Rubber Tires, 2007.
13
T. Kallqvist, Norwegian Institute for Water Research (NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 17.
14
Environment & Human Health, Inc., Artificial Turf, Exposures to Ground-Up Rubber Tires, 2007.
15
T. Kallqvist, Norwegian Institute for Water Research (NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 5; NIVA (The Norwegian Institute for Water Research),
Evaluation of the Environmental Risks of Synthetic Turf, 2005; KEM, Swedish Chemicals Agency, Facts:
Synthetic Turf, April 2007.
16
T. Kallqvist, Norwegian Institute for Water Research(NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 5; NIVA (The Norwegian Institute for Water Research),
Evaluation of the Environmental Risks of Synthetic Turf, 2005, as cited by KEM, Swedish Chemicals
8

Page 3 of 13
Artificial Turf Fact Sheet, 9/9/07

leachate, has been found to contain a variety of metals (including lead, cadmium,
copper, mercury and zinc), as well as organic pollutants such as PAHs, phthalates, 4-toctylphenol and iso-nonyphenol. 17 The leaching of zinc has been determined to be of
major environmental concern.18 The leaching of zinc increases as the rubber infill
weathers over time,19 it is likely this is the same for other contaminants. While Zinc
contributes the most risk, phenols (specifically octylphenol) and PAHs are also of
concern. 20 Of the organic compounds at issue, Octylphenol represents the greatest
risk, and possibly could occur at levels where hormone disrupting effects are a
concern. 21 The varying content of tires makes this threat a moving target.
The Norwegian Institute for Water Research has determined that it is “appropriate to
perform a risk assessment which covers water and sediments in watercourses which
receive run-off from artificial turf pitches.”22
While recycled rubber is a greater source of pollution, newly manufactured rubber also
contains level of hazardous substances; in the case of zinc and chromium the levels of
recycled and newly manufactured rubber are comparable.23
It is predicted that chemicals leaching from synthetic turf materials occurs slowly, and
as a result the environmental harms may take place over many years.24
Leaching may not be the only source of water contamination from artificial turf. As
the artificial turf is used there is a level of “erosion” that takes place and can result in

Agency, Facts: Synthetic Turf, April 2007; KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April
2007
17
T. Kallqvist, Norwegian Institute for Water Research (NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 7.
18
INTRON, Environmental and Health Risks of Rubber Infill, rubber crumb from car tyres as infill on
artificial turf, February 9, 2007.
19
INTRON, Environmental and Health Risks of Rubber Infill, rubber crumb from car tyres as infill on
artificial turf, February 9, 2007.
20
NIVA (The Norwegian Institute for Water Research), Evaluation of the Environmental Risks of
Synthetic Turf, 2005, as cited by KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
21
T. Kallqvist, Norwegian Institute for Water Research (NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 17.
22
T. Kallqvist, Norwegian Institute for Water Research (NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 8.
23
Byggforsk, SINTEF Building and Infrastructure, Potential Health and Environmental Effects Associated
with Synthetic Turn Systems, 2004, as referenced in KEM, Swedish Chemicals Agency, Facts: Synthetic
Turf, April 2007.
24
T. Kallqvist, Norwegian Institute for Water Research(NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 5; NIVA (The Norwegian Institute for Water Research),
Evaluation of the Environmental Risks of Synthetic Turf, 2005, as cited by KEM, Swedish Chemicals
Agency, Facts: Synthetic Turf, April 2007.
Page 4 of 13
Artificial Turf Fact Sheet, 9/9/07

fine particles that could be carried to local waterways. This source of contamination
needs study.25
The synthetic grass fibers can also be a significant source of pollution, particularly
zinc, albeit significantly lesser amounts leach from the synthetic grass than the rubber
infill.26
Concerns about the environmental and health effects of synthetic turf in European
countries is so great that standards and/or guidelines have been set or are under
consideration. For example: Germany has set standards for the use of synthetic turf
including a maximum allowable level of pollution or contamination of water and soil,
with a requirement of regular sampling to ensure these standards are not exceeded.
Allowable pollution levels include: lead 0.04 mg/l, cadmium 0.005 mg/l; chromium
0.05 mg/l, mercury 0.001 mg/l and zinc 3.0 mg/l or 0.5 mg/l depending on the
testing method used. 27 Holland has also suggested appropriate language for a
standard applicable to use of synthetic turf including a ban on the use of carcinogens,
mutagenic, reprotoxic, persistent, bioaccumulative and toxic, or very persistent and
very bioaccumulative substances in the surface layer of the turf and a limitation on
the level of substances in the rubber infill that may cause cancer, may cause heritable
genetic damage, may cause cancer by inhalation, are toxic or harmful to aquatic
organisms or may cause long term affects on the aquatic environment, that may
impair fertility or cause harm to unborn children. Sweden has set guidelines and
limiting values for some of the substances that are present in synthetic turf,
specifically as it relates to air pollution, soil contamination and water pollution. 28 And
because vehicle tires contain levels of several substances of “very high concern”, the
recycling and use of tires in synthetic turf is apparently in conflict with the Swedish
environmental objective of A Non Toxic Environment.29
Part of artificial turf maintenance is the regular replenishment of the infill. There is a
need for research into the loss of existing infill – where is it going and what impacts is
it having?30
Maintenance of artificial turf can include application of algaecides or disinfectants to
keep the surface clean. 31 Maintenance could also include application of fabric
T. Kallqvist, Norwegian Institute for Water Research (NIVA), Environmental Risk Assessment of
Artificial Turf Systems, December 2005, p. 18.
26
Byggforsk, SINTEF Building and Infrastructure, Potential Health and Environmental Effects Associated
with Synthetic Turn Systems, 2004, as referenced in KEM, Swedish Chemicals Agency, Facts: Synthetic
Turf, April 2007.
27
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
28
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
29
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
30
Turfgrass Resource Center, Facts About Artificial Turf and Natural Grass.
25

Page 5 of 13
Artificial Turf Fact Sheet, 9/9/07

softener to mask the odor of the artificial turf. 32 What is the final destination of
these chemicals and their implications for the environment and those coming into
contact with them while playing on the fields? More information is needed on this
subject as well.
Stormwater:
There is no indication that artificial turf drains more effectively for purposes of a
stormwater infiltration system than natural grass. In addition, infiltration systems are
designed to work with whatever surface coating they receive from natural grass to
porous paving. It should be noted that while generally there can be no assumed
benefit from an infiltration perspective of natural turf or artificial turf, there are
instances where schools have experienced problems with the drainage of their artificial
turf fields. 33
Natural grass provides a level of evapotranspiration, pulling water out of the soil and
subsurface and releasing it to the air, providing benefits in reducing the volume of
runoff that results from a site and/or needs to be addressed by other stormwater
management strategies. Artificial turf has no evapotranspiration capabilities.
Grass does provide a level of pollution filtering and therefore water quality protection
for nearby waterways. While this filtering may be limited in the case of turf grass;
such filtering is nonexistent with artificial turf.
Heat Island Effect – for Human Health and Surrounding communities:
Extreme heat is a health concern. Studies document that the surface temperature on
artificial turf is dramatically increased as compared to surrounding land uses including
asphalt.
In a 2002 study it was found that “the surface temperature of the synthetic turf was
37° F higher than asphalt and 86.5° F hotter than natural turf.” 34 A study published
in the Journal of Health and Physical Education and Recreation showed “surface
temperatures as much as 95 to 140 degrees Fahrenheit higher on synthetic turf than
natural turfgrass when exposed to sunlight.” 35 Random sampling at Brigham Young
University identified temperatures ranging from 117.38 to 157 degrees on artificial
turf while neighboring natural grass areas were in the range of 78.19 to 88.5 degrees
Fahrenheit. “Two inches below the synthetic turf surface was 28.5° F hotter than
Turfgrass Resource Center, Facts About Artificial Turf and Natural Grass.
Turfgrass Resource Center, Facts About Artificial Turf and Natural Grass.
33
Turfgrass Resource Center, Facts About Artificial Turf and Natural Grass.
34
Dr. C. Frank Williams and Dr. Gilbert E. Pulley, Synthetic Surface Heat Studies, Brigham Young
University.
35
SportsTurf Managers Association, A Guide to Synthetic and natural Turfgrass for Sports Fields,
Selection, Construction and Maintenance Considerations.
31
32

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Artificial Turf Fact Sheet, 9/9/07

natural turf at the surface.”36 And still another study comparing temperatures on
artificial turf temperatures with air temperature found that artificial turf ranged from
58 to 75 degrees hotter than measured air temperature.37 While irrigation provided
significant cooling for the synthetic turf (lowering the temperature from 174° F to
85° F) after only 5 minutes the temperature quickly rose again to 120°F; after 20
minutes it rose to 164°F.38
Concerns regarding the excessive temperatures range from the implications for
players who are already exerting themselves playing in such excessively high
temperatures, to the implications for burns when players or pedestrians come into
contact with the hot surfaces, to the implications for small children who may come
into contact with the extremely hot surfaces during non-sporting events. Particularly
when installed in already built up areas, what affect does the extreme heat associated
with artificial turf have on the surrounding community in terms of temperature?
Natural grass, by comparison, provides a natural cooling affect and helps to dissipate
heat from neighboring developed areas.39 “The temperature of natural grass rarely
rises above 85 degrees Fahrenheit, regardless of air temperature.” 40
The heat impacts of artificial turf need to be considered in the context of today’s
changing climate. Global climate change is expected to dramatically increase the
number of days over 100 degrees communities in our region experience. Depending
on how aggressively global warming gasses are reduced in coming years, communities
nearby Philadelphia will begin to experience in the range of 10 days (in lower emission
scenarios) to 30 days (if higher emission scenarios continue to prevail) over 100o.41
By later in this century seasonable temperatures are projected to rise 6oF to 14oF in

summer (depending again on emission reductions achieved in the future). 42
Educators and decisionmakers selecting artificial turf based on its long-term
viability and community impacts should consider the affect of global climate
change to magnify the heat impacts of artificial turf.
Dr. C. Frank Williams and Dr. Gilbert E. Pulley, Synthetic Surface Heat Studies, Brigham Young
University.
37
T. Sciacca, The Thermal Physics of Artificial Turf, January 2008.
38
Dr. C. Frank Williams and Dr. Gilbert E. Pulley, Synthetic Surface Heat Studies, Brigham Young
University.
39
James B. Beard & Robert L. Green, The Role of Turfgrasses in Environmental Protection and Their
Benefits to Humans, J. Environ Qual. 23:452-460 (1994).
40
SportsTurf Managers Association, A Guide to Synthetic and natural Turfgrass for Sports Fields,
Selection, Construction and Maintenance Considerations.
41
Union of Concerned Scientists, Confronting Climate Change in the U.S. Northeast l New Jersey,
2007.
42
Union of Concerned Scientists, Confronting Climate Change in the U.S. Northeast l New Jersey,
2007.
36

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Artificial Turf Fact Sheet, 9/9/07

Health Issues:
Direct human exposure to the hazardous substances contained in the rubber in-fill of
artificial turf is believed to occur via three pathways: inhalation, skin contact, or
ingestion including by children or infants who come into contact with the material.43
In October 2006 and January 2007, respectively, two sites in New York where
synthetic turf has been used (the large, 3 year old, Parade Ground in Brooklyn; the
relatively small 5 month old Sara D. Roosevelt Park in Manhattan) were analyzed. This
testing found PAHs at hazardous levels (as per New York standards) at each of the
sites. At both sites dibenzo (a.h)anthracene, a probable human carcinogen, was found
at hazardous levels, with two other PAH forms, both possible human carcinogens,
found at hazardous levels at the Parade Ground site. Research into the pathways by
which these substances may be absorbed into the bodies of children and athletes via
skin contact, ingestion or other pathways, is very limited with additional research
needed.44
A study by the California Office of Environmental Health Hazard Assessment (OEHHA)
summarized 46 studies that identified 49 chemicals which are released from tire
crumb. Of the 49, “seven of the chemicals leached from tire shreds were carcinogens.
OEHHA calculated a cancer risk of 1.2 in 10 million based on a one-time ingestion of
the tire crumb rubber over a lifetime.”45 While there are limited studies which assert
that recycled tire crumb are stable in the gastrointestinal tract and that therefore this
is not a pathway for exposure, there are other studies which contradict these
findings.46
Concerns have been raised about the potential implications of recycled tire in-fill for
individuals with latex allergies and that inhalation could result in a systemic response,
as opposed to a contact response.47
While, “the status of the information about human exposures to recycled tire crumb
rubber in-fill … is not sufficient to determine the safety of the use of the product in
situations that involve continuous episodes of human exposure;” 48 “the available

Environment & Human Health, Inc., Artificial Turf, Exposures to Ground-Up Rubber Tires, 2007.
Rachel’s’ Democracy & Health News #992, Hazardous Chemicals in Synthetic Turf, Follow-up
Analyses, April 12, 2007.
45
Environment & Human Health, Inc., Artificial Turf, Exposures to Ground-Up Rubber Tires, 2007 citing
California Office of Environmental Health Hazard Assessment (OEHHA), Evaluation of Health Effects of
Recycled Waste Tires in Playground and Track Products, January, 2007.
46
Environment & Human Health, Inc., Artificial Turf, Exposures to Ground-Up Rubber Tires, 2007.
47
Environment & Human Health, Inc., Artificial Turf, Exposures to Ground-Up Rubber Tires, 2007.
48
Environment & Human Health, Inc., Artificial Turf, Exposures to Ground-Up Rubber Tires, 2007.
43
44

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information is sufficient and strong enough to raise plausible questions with respect to
acute toxicity for susceptible persons, and for cancer risks.”49
There is great debate about whether artificial turf can increase exposure to, and
infection from, MRSA (methicillin-resistant staphylococcus aureus). Reports including
a December 21, 2007 article in the Bloomberg Press reporting the affliction of an 18
year old football player from MRSA as the result (according to the boy’s doctor) of an
abrasion he received from playing on artificial turf, and citing other findings linking
MRSA infections with artificial turf,50 are a great concern for parents and sports
players alike. Defenders of artificial turf often refer to studies like that of the Penn
State Department of Crop and Soil Sciences which finds that Staphylococcus aureus is
commonplace in the human environment, including on both artificial turf and natural
grass fields.51 But even this study acknowledges that there is no conclusive evidence
currently available that the source of bacteria causing the infections of sports players
is not artificial turf. In addition, the study does not consider the link between burns
sustained while playing on artificial turf and available bacteria as a pathway for
infection. New studies are emerging that demonstrate that turf burns may be
facilitating infection by acting as a pathway for infection.52 Study has found that turf
burns increased the risk of infection regardless of the type and timing of care
provided the burn. 53
Concussions (formally described as Mild Traumatic Brain Injury or MTBI) resulting from
sports has, according to the US Centers for Disease Control, reached “epidemic
proportions.”54 “’Mild’ head traumas, and especially a series of such minor
concussions can have long term, negative effects on cognitive function.” 55 Study has
documented that artificial turf increases the risk of MTBI over natural turf,
Environment & Human Health, Inc., Artificial Turf, Exposures to Ground-Up Rubber Tires, 2007.
Texas Football Succumbs to Virulent Staph Infection from Turf, December 21, 2007, Bloomberg
Press.
51
Penn State Department of Crop and Soil Sciences, A Survey of Microbial Populations in Infilled
Synthetic Turf Fields.
52
A High Morbidity Outbreak of Methicillin-Resistant Staphylococcus aureus among Players on a College
Football Team, Facilitated by Cosmetic Body Shaving and Turf Burns, study conducted 2004 for
Connecticut Dept of Public Health, Student Health Services of Sacred Heart Univ, Centers for Disease
Control and Prevention, Minnesota Dept of Public Health, Los Angeles County Dept of Health Svces; Dr.
S.V. Kazakova et.al., A Clone of Methicillin-Resistant Staphylococcus aureus among Professional Football
Players, The New England Journal of Medicine, Vol 352:468-475 No. 5, Feb. 3, 2005.
53
A High Morbidity Outbreak of Methicillin-Resistant Staphylococcus aureus among Players on a College
Football Team, Facilitated by Cosmetic Body Shaving and Turf Burns, study conducted 2004 for
Connecticut Dept of Public Health, Student Health Services of Sacred Heart Univ, Centers for Disease
Control and Prevention, Minnesota Dept of Public Health, Los Angeles County Dept of Health Svces.
54
Dr. M. Shorten, J.A. Himmelsbach, BioiMechanica, Sports Surfaces and the Risk of Traumatic Brain
Injury citing the US Centers for Disease Control.
55
Dr. M. Shorten, J.A. Himmelsbach, BioiMechanica, Sports Surfaces and the Risk of Traumatic Brain
Injury.
49
50

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Artificial Turf Fact Sheet, 9/9/07

approximately doubling that risk, as well as causing a greater degree of trauma.56
According to study, artificial turf presents a 5 times greater risk of the more severe
head injury than natural turf, although it is still unknown the particular characteristics
of the two surfaces that cause the difference in head injury incidence. 57
Costs:
It is generally agreed that artificial turf costs more to install than natural grass, while
natural grass costs more to maintain. Installation and maintenance costs for each
must be assessed on a case by case basis depending on site specific conditions. But
generally speaking, when the installation and maintenance costs of artificial turf are
assessed for the life span of the turf, particularly when the cost of disposal is added,
the cost of installing and maintaining natural grass is far less. The guaranteed life
and/or lifespan of artificial turf is 8 to 10 years.58 Some attempt to claim a longer life
in order to assert a lower annual cost.59 Comparative cost figures for artificial turf
and natural grass include:
Artificial Turf

Source: San Francisco
Rec and Parks 60
Installation
Annual Maintenance
Cost of Disposal
Average annual cost for
guaranteed life of 8 years.
Average annual cost for life
of 10 years
Average annual cost for life
of 15 years (maximum life
span seen asserted in the

Natural Grass

$800,000

$260,000

$6,000
Unknown but significant as a
hazardous waste
$106,000

$42,000
$0

$86,000

$68,000

$59,333

$59,333

$74,500

Dr. M. Shorten, J.A. Himmelsbach, BioiMechanica, Sports Surfaces and the Risk of Traumatic Brain
Injury.
56

Dr. M. Shorten, J.A. Himmelsbach, BioiMechanica, Sports Surfaces and the Risk of Traumatic Brain
Injury. See also K.M. Guskiewica, N.L. Weaver, D.A. Padua, W.E. Garrett Jr., Epidemiology of Concussion
in Collegiate and High School Football Players, Sep-Oct 2000 & Does the Use of Artificial Turf
Contribute to Head Injuries, The Journal of Trauma-Injury, Infection and Critical Care, Oct 2002 for the
finding that artificial turf increases the level of injury in comparison to natural grass fields.
58
Turfgrass Resource Center, Facts About Artificial Turf and Natural Grass.
59
San Francisco Recreation & Parks, Natural and Synthetic Turf: A Comparative Analysis, December 20,
2005.
60
San Francisco Recreation & Parks, Natural and Synthetic Turf: A Comparative Analysis, December 20,
2005.
57

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Artificial Turf Fact Sheet, 9/9/07

literature)

Source: Facts About
Artificial Turf and
Natural Grass 61
Cost of construction and
maintenance per sq. ft.

Cost of disposal per sq. ft.
Springfield College case
study installation and
maintenance average annual
cost during 8 year
guaranteed life of artificial
turf – no disposal costs
included

Source: A Guide to
Synthetic and Natural
Turfgrass for Sports
Fields. 62
Cost of installation per
square foot

Annual Maintenance
Disposal per square foot –
note this cost does not
include the cost of
transportation or landfill

$7.80 – $10.75

$1.75 - $2.25
$105,000
($800,000 install & annual
maintenance of $5,000)
For a 10 year life the figure
is $85,000;
for 15 years it is $58,377

$7.80 to $10.75

$5,000 to $25,000
$1.75 to $2.25

With high quality soil
amendments
$6.50 – $7.95
With native soils
$2.50 – $5.25
$0
$78,000
($400,000 install &
$28,000 annual
maintenance)
For a 10 year life the figure
is $68,000;
for 15 years it is $54,666

$2.50 to $5.25 if done with
native soils
$3.50 to $5.25 if done with
combination of native soils
and sand.
$6.50 to $7.95 if done with
sand and drainage
$4,000 to $11,000 as per
the case studies provided
$0

Turfgrass Resource Center, Facts About Artificial Turf and Natural Grass.
SportsTurf Managers Association, A Guide to Synthetic and natural Turfgrass for Sports Fields,
Selection, Construction and Maintenance Considerations. While the cost figures in this document focus
on the southeast, the figures provide a sound comparative for the relative cost figures provided.
61
62

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Artificial Turf Fact Sheet, 9/9/07

surcharges for
environmentally controlled
products
Artificial turf made from rubber contains a number of hazardous substances. As a
result disposal is neither easy nor cheap. It is important to identify and consider the
cost of disposal when considering an investment in artificial turf. The life expectancy
of artificial turf generally ranges from 8 to 10 years63 – therefore disposal of artificial
turf should be amortized over this time frame.
Miscellaneous:
Artificial Turf is available for use immediately upon installation. Natural Turf generally
requires 2 growing seasons before it should be heavily used.64
One of the biggest supporting assertions for artificial turf is the increased level of
playing time it provides. While natural grass may not equal artificial turf in playing
time, natural soil and grass science has progressed significantly, greatly increasing its
durability for sports. Modern natural grass sports fields include sand in their soil
profile to resist compaction and a combination of grass varieties. Natural grass is
becoming the preferred surface for a number of professional sports teams.
Natural grass fields require regular maintenance including, mowing and watering, and
may also result in the use of fertilizers and potentially herbicides. But there are less
environmentally harmful alternatives available for maintenance including electric
mowing equipment and environmentally sensitive lawn care strategies that do not rely
on environmentally harmful chemicals. A number of schools, including Radnor
Township, Delaware County, PA, have successful policies that prevent the use of
dangerous chemicals on school grounds.
Artificial turf also requires regular maintenance. Artificial turf maintenance includes
sweeping, dragging and watering to provide a clean and uniform appearance.65 In
addition, as the result of wear, the infill may need periodic replenishment. 66
Management of an artificial turf field requires special knowledge inseam repair and
snow removal. 67 Special solvents and cleansers are needed to remove tough debris. 68
Turfgrass Resource Center, Facts About Artificial Turf and Natural Grass.
Communication with Nancy Bosold, Extension Educator, Turfgrass Management, Penn Stat
Cooperative Extension, Berks County, Aug 15, 2007.
65
SportsTurf Managers Association, A Guide to Synthetic and natural Turfgrass for Sports Fields,
Selection, Construction and Maintenance Considerations.
66
SportsTurf Managers Association, A Guide to Synthetic and natural Turfgrass for Sports Fields,
Selection, Construction and Maintenance Considerations.
67
SportsTurf Managers Association, A Guide to Synthetic and natural Turfgrass for Sports Fields,
Selection, Construction and Maintenance Considerations.
63
64

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Artificial turf is at risk of damage from plastic bottles, cigarettes and/or gum as well
as general trash thrown on the field. When damaged special repairs may be needed.
Artificial turf also becomes a recipient of a variety of bodily fluids which cannot be
cleansed by natural action as is the case with natural grass. Maintenance can include
application of algaecides and fabric softener to mask the odor of the artificial turf. 69
Artificial turf systems that claim chemical treatment is not required do not seem to
provide a mechanism for handling the germs associated with the bodily fluids on the
turf when there is an absence of rain or when it is captured and reused in newly
emerging artificial turf cooling systems.
It is important to note that the environmental, health and safety impacts
of artificial turf are in need of further study by independent experts.
Until such time as there are conclusive findings regarding the
environmental, health and safety impacts of artificial turf the
Precautionary Principle would direct decisionmakers away from artificial
turf and towards the traditional use of natural grass for sports and public
play fields.

Updated: February 25, 2008
Dated: September 9, 2007

SportsTurf Managers Association, A Guide to Synthetic and natural Turfgrass for Sports Fields,
Selection, Construction and Maintenance Considerations.
69
Turfgrass Resource Center, Facts About Artificial Turf and Natural Grass.
68

Page 13 of 13
Artificial Turf Fact Sheet, 9/9/07

	
  
	
  
	
  
	
  
	
  
	
  
	
  
	
  
Artificial	
  Turf	
  Fact	
  Sheet	
  Temporary	
  Addendum.	
  
	
  
Chrysene,	
  a	
  PAH	
  and	
  carcinogen,	
  was	
  found	
  to	
  be	
  ingested	
  as	
  the	
  result	
  of	
  hand-­‐to-­‐surface-­‐to-­‐mouth	
  
transfer	
  from	
  playground	
  surfaces	
  made	
  with	
  recycled	
  tires.	
  	
  Assuming	
  playground	
  use	
  for	
  an	
  11	
  year	
  
period	
  (from	
  age	
  1	
  to	
  12)	
  there	
  was	
  found	
  to	
  be	
  an	
  increased	
  cancer	
  risk	
  of	
  2.9	
  in	
  one	
  million	
  	
  
(2.9	
  X	
  10-­‐6).	
  	
  This	
  risk	
  is	
  greater	
  than	
  the	
  general	
  cancer	
  risk	
  gauge	
  of	
  one	
  in	
  one	
  million	
  (1X10-­‐6).1	
  	
  This	
  
research	
  would	
  seem	
  to	
  suggest	
  that	
  repeat	
  exposure	
  over	
  time	
  to	
  the	
  chemicals	
  released	
  from	
  
artificial	
  turf	
  increases	
  the	
  associated	
  increase	
  in	
  cancer	
  risk.	
  
	
  
Only	
  31%	
  of	
  the	
  playground	
  surfaces	
  made	
  of	
  recycled	
  tires	
  tested	
  in	
  one	
  research	
  study	
  passed	
  the	
  
California	
  State	
  mandated	
  Head	
  Impact	
  Criterion	
  (HIC)	
  of	
  <1,000.	
  	
  In	
  this	
  same	
  study	
  100%	
  of	
  the	
  
playground	
  surfaces	
  made	
  of	
  wood	
  chips	
  passed	
  the	
  same	
  standard.	
  2	
  
	
  
When	
  talking	
  about	
  the	
  use	
  of	
  ground	
  rubber	
  as	
  a	
  supplement	
  to	
  planting	
  soils	
  the	
  North	
  Carolina	
  
Department	
  of	
  Agriculture	
  and	
  Consumer	
  Services	
  sent	
  out	
  a	
  notice	
  identifying	
  the	
  risk	
  that	
  zinc	
  
leaching	
  from	
  the	
  rubber	
  causes	
  a	
  decline	
  in	
  plant	
  growth	
  “directly	
  attributable	
  to	
  zinc	
  toxicity.”3	
  
	
  
A	
  Case	
  Study	
  conducted	
  by	
  a	
  group	
  of	
  “physicians	
  and	
  public	
  health	
  professionals	
  working	
  with	
  the	
  U.S.	
  
Environmental	
  Protection	
  Agency’s	
  Region	
  Pediatric	
  Environmental	
  Health	
  Specialty	
  Unit”	
  found	
  that	
  
they	
  could	
  not	
  secure	
  the	
  research	
  and	
  information	
  necessary	
  to	
  establish	
  the	
  safety	
  in	
  use	
  with	
  

Office of Environmental Health Hazard Assessment, Evaluation of Health Effects of Recycled Waste
Tires in Playground and Track Products, January 2007.	
  Note	
  -­‐-­‐	
  the	
  1.2	
  in	
  10	
  million	
  cancer	
  risk	
  found	
  in	
  the	
  
OEHHA	
  study	
  was	
  considered	
  by	
  the	
  authors	
  to	
  be	
  an	
  acceptable	
  level	
  of	
  risk	
  as	
  it	
  falls	
  below	
  the	
  general	
  cancer	
  risk	
  gauge	
  
-­‐6
of	
  one	
  in	
  one	
  million	
  (1X10 ).
2
Office of Environmental Health Hazard Assessment, Evaluation of Health Effects of Recycled Waste
Tires in Playground and Track Products, January 2007. Please note that in this study 32 recycled tire
playground surfaces were tested as compared to only 5 wood chip playground surfaces.
3
M. Ray Tucker, Agronomist, Ground Rubber: Potential Toxicity to Plants, Media Notes for North
Carolina Growers, North Carolina Dept of Agriculture & Consumer Services, April 1997.
1

children	
  of	
  tire	
  crumb	
  used	
  as	
  playground	
  surface.4	
  	
  “The	
  use	
  of	
  recycled	
  tire	
  crumb	
  products	
  on	
  
playgrounds	
  has	
  had	
  little	
  health	
  investigation.	
  	
  The	
  major	
  unresolved	
  concern	
  is	
  the	
  potential	
  for	
  latex	
  
allergy	
  with	
  short-­‐term	
  dermal	
  exposure.”	
  5	
  	
  “No	
  published	
  information	
  is	
  available	
  specifically	
  
regarding	
  exposure	
  to	
  crumb	
  rubber	
  constituents	
  from	
  use	
  of	
  the	
  product	
  on	
  playgrounds.”	
  6	
  
	
  
Analyses	
  conducted	
  at	
  the	
  Environmental	
  and	
  Occupational	
  Health	
  Sciences	
  Institute	
  of	
  Rutgers	
  
University	
  found	
  the	
  crumb	
  rubber	
  from	
  artificial	
  turf	
  to	
  contain	
  high	
  levels	
  of	
  PAHs,	
  as	
  well	
  as	
  zinc	
  and	
  
arsenic.7	
  	
  PAHs	
  found	
  to	
  be	
  contained	
  in	
  the	
  crumb	
  rubber	
  “were	
  above	
  the	
  concentration	
  levels	
  that	
  
the	
  New	
  York	
  State	
  Department	
  of	
  Environmental	
  Conservation	
  (DEC)	
  considers	
  sufficiently	
  hazardous	
  
to	
  public	
  health	
  to	
  require	
  their	
  removal	
  from	
  contaminated	
  soil	
  sites.	
  It	
  is	
  highly	
  likely	
  that	
  all	
  six	
  PAHs	
  
are	
  carcinogenic	
  to	
  humans.”	
  8	
  	
  	
  “The	
  analyses	
  also	
  revealed	
  levels	
  of	
  zinc	
  in	
  both	
  samples	
  that	
  exceed	
  
the	
  DEC's	
  tolerable	
  levels.”	
  9	
  	
  	
  The	
  researchers	
  associated	
  with	
  these	
  findings	
  were	
  careful	
  to	
  state	
  “We	
  
want	
  to	
  emphasize	
  that	
  the	
  findings	
  are	
  preliminary.	
  PAHs	
  in	
  rubber	
  might	
  not	
  act	
  the	
  same	
  way	
  as	
  in	
  
soil,	
  and	
  we	
  do	
  not	
  yet	
  have	
  information	
  on	
  the	
  ease	
  with	
  which	
  the	
  PAHs	
  in	
  these	
  rubber	
  particles	
  
might	
  be	
  absorbed	
  by	
  children	
  or	
  adults	
  -­‐-­‐	
  by	
  ingestion,	
  inhalation,	
  or	
  absorption	
  through	
  the	
  skin.	
  
However,	
  the	
  findings	
  are	
  worrisome.	
  Until	
  more	
  is	
  known,	
  it	
  wouldn't	
  be	
  prudent	
  to	
  install	
  the	
  
synthetic	
  turf	
  in	
  any	
  more	
  parks.”	
  10	
  
	
  

M.E. Anderson et al, A Case Study of tire Crumb Use on Playgrounds: Risk Analysis and
Communication When Major Clinical Knowledge Gaps Exist, Environmental Health Perspectives, Vol 114,
No. 1, January 2006.
5
M.E. Anderson et al, A Case Study of tire Crumb Use on Playgrounds: Risk Analysis and
Communication When Major Clinical Knowledge Gaps Exist, Environmental Health Perspectives, Vol 114,
No. 1, January 2006.
6
M.E. Anderson et al, A Case Study of tire Crumb Use on Playgrounds: Risk Analysis and
Communication When Major Clinical Knowledge Gaps Exist, Environmental Health Perspectives, Vol 114,
No. 1, January 2006.
7
Junfeng Zhang, professor and acting chair, Department of Environmental and Occupational Health,
the School of Public Health, the University of Medicine and Dentistry of New Jersey and Rutgers
University & William Crain, professor of psychology at The City College of New York, president of
Citizens for a Green Riverside Park, Hazardous Chemicals in Synthetic Turf, 2006, analyses conducted
at at the Environmental and Occupational Health Sciences Institute of Rutgers.
8
Junfeng Zhang, professor and acting chair, Department of Environmental and Occupational Health,
the School of Public Health, the University of Medicine and Dentistry of New Jersey and Rutgers
University & William Crain, professor of psychology at The City College of New York, president of
Citizens for a Green Riverside Park, Hazardous Chemicals in Synthetic Turf, 2006, analyses conducted
at at the Environmental and Occupational Health Sciences Institute of Rutgers.
9
Junfeng Zhang, professor and acting chair, Department of Environmental and Occupational Health,
the School of Public Health, the University of Medicine and Dentistry of New Jersey and Rutgers
University & William Crain, professor of psychology at The City College of New York, president of
Citizens for a Green Riverside Park, Hazardous Chemicals in Synthetic Turf, 2006, analyses conducted
at at the Environmental and Occupational Health Sciences Institute of Rutgers.
10
Junfeng Zhang, professor and acting chair, Department of Environmental and Occupational Health,
the School of Public Health, the University of Medicine and Dentistry of New Jersey and Rutgers
University & William Crain, professor of psychology at The City College of New York, president of
Citizens for a Green Riverside Park, Hazardous Chemicals in Synthetic Turf, 2006, analyses conducted
at at the Environmental and Occupational Health Sciences Institute of Rutgers.
4

Connecticut	
  is	
  currently	
  considering	
  legislation	
  to	
  provide	
  $250,000	
  of	
  funding	
  for	
  a	
  study	
  into	
  the	
  
toxicity	
  of	
  artificial	
  turf	
  athletic	
  fields.11	
  
	
  
One	
  Norwegian	
  assessment/presentationconcluded	
  that	
  while	
  indoor	
  artificial	
  turf	
  fields	
  were	
  not	
  
generally	
  an	
  elevated	
  health	
  risk,	
  studies	
  to	
  date	
  could	
  not	
  eliminate	
  the	
  concerns	
  associated	
  with	
  
development	
  of	
  airway	
  allergies	
  and	
  made	
  a	
  point	
  of	
  noting	
  “a	
  link	
  between	
  exposure	
  to	
  phthalates	
  
and	
  the	
  development	
  of	
  asthma/allergies”.	
  12	
  	
  Phthalates	
  is	
  one	
  of	
  the	
  contaminants	
  of	
  concern	
  found	
  
in	
  artificial	
  turf	
  crumb	
  rubber.	
  13	
  
	
  
The	
  Norwegian	
  assessment/presentation	
  also	
  reported	
  that	
  “recycled	
  rubber	
  was	
  the	
  major	
  source	
  of	
  
potentially	
  hazardous	
  substances.	
  	
  An	
  exposure	
  scenario	
  where	
  the	
  runoff	
  from	
  a	
  football	
  field	
  is	
  
drained	
  to	
  a	
  small	
  creek	
  showed	
  a	
  positive	
  risk	
  of	
  toxic	
  effects	
  on	
  biota	
  in	
  the	
  water	
  phase	
  and	
  in	
  the	
  
sediment.	
  	
  The	
  risk	
  was	
  mainly	
  attributed	
  to	
  zinc,	
  but	
  also	
  for	
  octylphenol	
  the	
  predicted	
  environmental	
  
concentrations	
  exceeded	
  the	
  no	
  environmental	
  effect	
  concentration.”	
  14	
  	
  	
  The	
  hazardous	
  leaching	
  could	
  
result	
  in	
  local	
  environmental	
  effect.15	
  	
  	
  
	
  
Of	
  interest	
  –	
  William	
  Carin,	
  OpEd,	
  NY	
  Times,	
  Turf	
  Wars,	
  September	
  16,	
  2007.	
  

An Act Concerning a Study of the Toxicity of Artificial Turf Athletic Fields, Raised Bill No. 361,
February Session 2008.
12
Dr. Christine Bjorge, Norwegian Institute of Public Health, Artificial turf Pitches – an assessment of
the health risks for football players and the environment, Presentation at the ISSS Technical meeting
2006, Dresden.
13
KEM, Swedish Chemicals Agency, Facts: Synthetic Turf, April 2007.
14
Dr. Christine Bjorge, Norwegian Institute of Public Health, Artificial turf Pitches – an assessment of
the health risks for football players and the environment, Presentation at the ISSS Technical meeting
2006, Dresden.
15
Dr. Christine Bjorge, Norwegian Institute of Public Health, Artificial turf Pitches – an assessment of
the health risks for football players and the environment, Presentation at the ISSS Technical meeting
2006, Dresden.
11

Page 1 of 3

PUBLIC SUBMISSION

As of: 5/3/16 6:19 PM
Received: May 02, 2016
Status: Posted
Posted: May 02, 2016
Tracking No. 1k0-8pe9-f189
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0046
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: California Safe Schools
Address: 90012
Email: [email protected]

General Comment
California Safe Schools, a children's environmental health and environmental justice coalition
would like to comment on Docket No. ATSDR-2016-0002, which proposes two studies that
will investigate the chemical composition, and use of crumb rubber infill in synthetic turf,
including the potential for exposure, and links between tire crumb rubber exposure and human
health.
We respectfully request that the study consider including research to determine when chemicals
in tire crumb rubber may be released under various environmental conditions. We also would
like the studies to identify, and examine the exposure pathways and health risks these potential
releases may pose to athletes and other individuals who come in contact with tire crumb rubber
playing, working, or participating in events on these fields and play areas.
To date, existing research and information on tire crumb rubber has been incomplete and based
largely on an unsupported theory that there is limited exposure. We are requesting that these
two studies please consider an analysis of all health and environmental risks from tires, tire
crumb rubber, and their various proposed uses which include, but may not be limited to: athletic
fields, playgrounds, play mats, gardens, driveways, sidewalks, and pathways.
We would like the studies to please include detailed accounts of athletes, parents, soccer
coaches and other individuals regarding their personal experience and health effects that they

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Page 2 of 3

believe were directly related to interacting with tire crumb rubber.
Examples include, but are not limited to: allergic reactions such as asthma, nasal, eye, ear and
throat irritation when swallowing the material, rashes related to the off gassing and dust
generated from the materials disintegrating, various cancers, hormonal and neurological
disorders, and burns sustained when temperatures on the fields rise, often exceeding 140
degrees on hot days.
We request the two studies be full, comprehensive, and that they address new questions and
concerns, tackle the gaps in research, and include the synergistic and cumulative impacts to
health.
Because of the tire shredding process into crumb rubber, there are unique mixtures of tire crumb
at each field, and the tires are manufactured throughout the world. As a result, the unique
cumulative impacts and synergistic effects of exposures are especially important to both human
health and the environment.
California has discovered more than thirty hazardous chemicals in tire crumb rubber. Of
particular concern is carbon black, a substance that has been classified as a cancer-causing
chemical by the state. Other tire ingredients can include but are not limited to; arsenic,
cadmium, chromium, mercury and dangerous hydrocarbons.
Studies have also found that crumb rubber can emit gases that can be inhaled. Athletes,
children, and other individuals playing on these fields and areas where tire crumb rubber are
installed or used are often exposed to these materials for years.
According to one parent whose child has played for more than a decade, parents and coaches
are urged to bring sterilized tweezers to the games played on fields with tire crumb rubber in
order to physically remove tire crumb pellets from abrasions.
The tire crumb rubber exposure is not only on the fields where it enters their clothing, shoes
socks, hair, ears, eyes, nose, ears mouth and often ingested. Leaving the fields, it remains in
their clothing, in the seats and floors of vehicles transporting the individuals to and from the
fields, and in their showers.
Given all of the above, we hope that there will be a moratorium placed on installing any new
fields with tire crumb rubber, and exposure to already installed fields with tire crumb rubber
should require posting advising individuals of the known chemicals in tire crumb rubber.
We urge you to discourage the continued funding for installation of tire crumb rubber fields
while the studies are being conducted. Many of these proposed fields are being placed in
environmental justice communities who already have a disproportionate amount of
environmental concerns. These communities in particular, deserve a Right to Know about the
materials being used and chemicals they are being exposed when playing.
We ask that you consider epidemiology studies, and include studying particulates from tire
crumb rubber released in the air, water, and soil.
Our children and athletes should not be treated as lab rats or guinea pigs and we cannot forget
that tires are considered to be too toxic to be placed landfills, yet continue to be used in areas
where athletes and children play.
Thank you for this opportunity to comment.

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Page 3 of 3

Respectfully,

Robina Suwol
Founder & Executive Director
California Safe Schools
1000 North Alameda, Suite 240
Los Angeles, California 90012
818.785.5515 office
818.261.7965 cell
www.calisafe.org

Attachments
MAY 1 FINAL CALIFORNIA SAFE SCHOOLS COMMENTS TIRE CRUMB STUDY

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May 1, 2016

May 1, 2016
Docket No. ATSDR-2016-0002
California Safe Schools, a children’s environmental health and environmental justice coalition
would like to comment on Docket No. ATSDR-2016-0002, which proposes two studies that will
investigate the chemical composition, and use of crumb rubber infill in synthetic turf, including
the potential for exposure, and links between tire crumb rubber exposure and human health.
We respectfully request that the study consider including research to determine when chemicals
in tire crumb rubber may be released under various environmental conditions. We also would
like the studies to identify, and examine the exposure pathways and health risks these potential
releases may pose to athletes and other individuals who come in contact with tire crumb rubber
playing, working, or participating in events on these fields and play areas.
To date, existing research and information on tire crumb rubber has been incomplete and based
largely on an unsupported theory that there is limited exposure. We are requesting that these two
studies please consider an analysis of all health and environmental risks from tires, tire crumb
rubber, and their various proposed uses which include, but may not be limited to: athletic fields,
playgrounds, play mats, gardens, driveways, sidewalks, and pathways.
We would like the studies to please include detailed accounts of athletes, parents, soccer coaches
and other individuals regarding their personal experience and health effects that they believe
were directly related to interacting with tire crumb rubber.
Examples include, but are not limited to: allergic reactions such as asthma, nasal, eye, ear and
throat irritation when swallowing the material, rashes related to the off gassing and dust
generated from the materials disintegrating, various cancers, hormonal and neurological
disorders, and burns sustained when temperatures on the fields rise, often exceeding 140 degrees
on hot days.

1

We request the two studies be full, comprehensive, and that they address new questions and
concerns, tackle the gaps in research, and include the synergistic and cumulative impacts to
health.
Because of the tire shredding process into crumb rubber, there are unique mixtures of tire crumb
at each field, and the tires are manufactured throughout the world. As a result, the unique
cumulative impacts and synergistic effects of exposures are especially important to both human
health and the environment.
California has discovered more than thirty hazardous chemicals in tire crumb rubber. Of
particular concern is carbon black, a substance that has been classified as a cancer-causing
chemical by the state. Other tire ingredients can include but are not limited to; arsenic, cadmium,
chromium, mercury and dangerous hydrocarbons.
Studies have also found that crumb rubber can emit gases that can be inhaled. Athletes,
children, and other individuals playing on these fields and areas where tire crumb rubber are
installed or used are often exposed to these materials for years.
According to one parent whose child has played for more than a decade, parents and coaches are
urged to bring sterilized tweezers to the games played on fields with tire crumb rubber in order to
physically remove tire crumb pellets from abrasions.
The tire crumb rubber exposure is not only on the fields where it enters their clothing, shoes
socks, hair, ears, eyes, nose, ears mouth and often ingested. Leaving the fields, it remains in their
clothing, in the seats and floors of vehicles transporting the individuals to and from the fields,
and in their showers.
Given all of the above, we hope that there will be a moratorium placed on installing any new
fields with tire crumb rubber, and exposure to already installed fields with tire crumb rubber
should require posting advising individuals of the known chemicals in tire crumb rubber.
We urge you to discourage the continued funding for installation of tire crumb rubber fields
while the studies are being conducted. Many of these proposed fields are being placed in
environmental justice communities who already have a disproportionate amount of
environmental concerns. These communities in particular, deserve a Right to Know about the
materials being used and chemicals they are being exposed when playing.
We ask that you consider epidemiology studies, and include studying particulates from tire
crumb rubber released in the air, water, and soil.
Our children and athletes should not be treated as lab rats or guinea pigs and we cannot forget
that tires are considered to be too toxic to be placed landfills, yet continue to be used in areas
where athletes and children play.
Thank you for this opportunity to comment.
2

Respectfully,

Robina Suwol
Founder & Executive Director
California Safe Schools
1000 North Alameda, Suite 240
Los Angeles, California 90012
818.785.5515 office
818.261.7965 cell
www.calisafe.org

3

4

Page 1 of 2

PUBLIC SUBMISSION

As of: 5/3/16 6:20 PM
Received: May 02, 2016
Status: Posted
Posted: May 02, 2016
Tracking No. 1k0-8pe9-yfcg
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0047
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Nicholas Baker
Address: 91411
Email: [email protected]

General Comment
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill
Docket # ATSDR-2016-0002
Thank you. I appreciate the ability to comment. For more than a decade our government has
permitted tire waste, a material that is considered to be so toxic that it'
not allowed in landfills, to be shredded and placed on athletic fields, kids play areas, gardens,
driveways and other
recreational areas.
We know from numerous credible studies, that tires contain carbon black, benzene, arsenic,
mercury, hydrocarbons,
and heavy metals, that have been linked to cancer. We know when people are playing sports on
these fields, it's common
for these materials to be swallowed, caught in ears, nose, clothing, hair, under skin, and in floor
or seats of cars, showers,
tubs, etc.
Tire crumb and it's by products are harmful to our environment, water. soil, and our eco-system.
Anecdotal evidence of

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Page 2 of 2

hundreds of individuals who have played on fields using this material, who have died or
become seriously ill should be enough
to stop the use of these materials once and for all. If your studies will move this toxic material
out of areas where harm
can occur, then please let's move forward quickly. In the meantime, stopping any further fields
from using this material should
be mandated .
Sincerely,
Nicholas Baker

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Page 1 of 2

PUBLIC SUBMISSION

As of: 5/3/16 6:24 PM
Received: May 01, 2016
Status: Posted
Posted: May 02, 2016
Tracking No. 1k0-8pdw-u7hh
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0052
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Steven Gilbert
Address: 98105
Email: [email protected]

General Comment
My very you young 3-4 year old granddaughters plays soccer or at least kicks the ball around How do you intend ti keep her from eating the crumb rubber ? She is very curious about thus
black stuff and naturally wants to taste it.
also a few other questions
Why is the CPSC not already testing and regulating this material as a children's product given
the pervasive and targeted use for children's play areas? (See recent reports from Duluth MN on
tire crumb playgrounds as examples of what is going on all over).
Will the study be looking at combinations of personal exposures low to the surface directly with
tire crumb on under active use?
Why are they not studying child exposure on tire crumb playgrounds? Why are they leaving it
to the CPSC to (maybe) do?
How will the study, as planned, help answer the question, "Are synthetic turf fields and
playgrounds with crumb rubber infill safe for children of all ages to play on?"
What are the plan and the timeline for gathering all of the data to answer the above safety
question to a reasonable degree of certainty?
How do the agencies plan to obtain toxicity data that would be needed for a components based
health risk assessment model?

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Page 2 of 2

Do they plan on conducting toxicity testing for all the components for which toxicity data is
currently missing? Where will they get the data for interaction effects? Do the agencies plan on
testing the toxicity of crumb rubber as a whole?
Why isn't an epidemiological study the first priority? Are there plans for one? If so, when will it
be done?
What about the effects of small rubber particles on the eco-system? Are there plans to study the
effects of run-off on marine life?
why not use the precautionary principle - test before it is used with kids ?

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Page 1 of 1

PUBLIC SUBMISSION

As of: 5/3/16 6:35 PM
Received: May 02, 2016
Status: Posted
Posted: May 03, 2016
Tracking No. 1k0-8pem-rune
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0069
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Marc Elrich
Address: 20850
Email: [email protected]

General Comment
See attached file(s)

Attachments
ME comment re federal review of AT

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MONTGOME RY COUNTY CO UNCI L
R O C K V I L L E , M A R Y L AN D
Comment on “Collections Related to Synthetic Turf Fields with Crumb Rubber Infill”
From: Montgomery County, Maryland Councilmember Marc Elrich (At-large)
Date: May 2, 2016
As an elected official, I have been confronted with the issue of whether artificial turf playing
fields are safe and whether public funds should be used to construct and maintain these fields. I
represent the almost one million residents of Montgomery County, Maryland; our county is one
of the wealthiest and best-educated counties in the country. My staff and I have grappled with
questions surrounding artificial turf for years, and the more we have examined the issue, the
more we realize how little is known and how few questions can be adequately answered.
I appreciate the attempt by the federal agencies to tackle this issue, and on behalf of many of my
constituents and based on years of reviewing research and conversations with scientists, parks
managers, school administrators, elected officials, residents and other concerned individuals, I
make the following comments, observations and requests. I have five major points and then
follow them with additional information to support those points.
1. Clarify that the questions and goals outlined in this study will not answer the question of the
true safety/toxicity of AT with tire crumb infill. Characterizing chemical composition and
“exposure potential” are insufficient tools. This study will not satisfactorily answer the
question: are artificial turf fields safe for children to use over the long-term? An
epidemiological study is necessary. Only a long-term controlled epidemiological study could
provide meaningful answers about human safety. University of Washington soccer coach
Amy Griffin continues to collect names of soccer players, other athletes and other frequent
users of artificial turf fields (like marching band participants). This information raises
serious concern, and the federal agencies need to consider how they can collect information
that could analyze actual uses and outcomes.
2. Any and all toxicity studies must address and examine cumulative and combined effects of
toxic chemicals. Artificial turf contains a variety of chemicals that interact with each other
and in the body. Without studying their synergistic effects, the study will exclude some
important considerations. (See below for scientific comment on this issue.)
3. All potential health impacts should be viewed specifically and separately for children.
Studies should examine exposure for children. “Environmental exposure for children is quite
different. They take in much more of everything than adults. Their brains and nervous
systems are developing quite rapidly – referred to as “unique windows of vulnerability.”
(Joel Forman, MD, Mt. Sinai Medical School, Program Director of the Pediatric Residency

Program, Children's Environmental Health Center) Towards that end, I urge you to consult
extensively with Dr. Forman, Dr. Phillip Landrigan and other researchers associated with the
Childrens Environmental Health Center at Mt. Sinai Medical School.
4. For a federal study to be useful to local jurisdictions and residents, it must acknowledge and
address the myriad of issues and concerns that are inextricably intertwined. The chemical
composition of crumb rubber infill is an important issue, but it is not the only issue. The
blades, carpet, carpet backing and the color of the blades are all integral to any meaningful
assessment. Other issues should be examined and acknowledged: the heat impact for the
field users as well as serious environmental concerns, including the “heat island” effect and
impacts on waterways, aquatic life and wildlife.
5. Every step of the way, the involved federal agencies must be mindful of their possible biases.
I would refer you to the EPA website announcing this study: “Limited studies have not
shown an elevated health risk from playing on fields with tire crumb, but the existing studies
do not comprehensively evaluate the concerns about health risks from exposure to tire
crumb.” (https://www.epa.gov/chemical-research/federal-research-action-plan-recycled-tirecrumb-used-playing-fields) Such a statement is misleading and should be deleted. Results
from “limited studies” have been mixed. If “limited studies” refers to EPA’s prior studies, it
should be noted that they were not simply limited but also quite possibly flawed, and
therefore, not an appropriate basis for any general statements.
(http://www.peer.org/news/news-releases/epa-retracts-synthetic-turf-safety-assurances.html)

Additional information and commentary:
Regarding points 1 and 2 above:
How we think about levels of concern of chemicals is changing and evolving.
A recently published scientific paper, “What Can Epidemiological Studies Tell Us about the
Impact of Chemical Mixtures on Human Health?” explains:
“Although there is growing concern that exposure to chemical mixtures during critical
periods of human development could increase the risk of adverse health effects including
allergic diseases, cancer, neurodevelopmental disorders, reproductive disorders, and
respiratory diseases, researchers primarily study chemicals as if exposure occurs
individually. This one-chemical-at-a-time approach has left us with insufficient
knowledge about the human health effects of exposure to chemical mixtures.” [Emphasis
added.] http://ehp.niehs.nih.gov/15-10569/
Another study from 2015 suggests that the combination of “safe” chemicals may increase
cancer risk:
“Our analysis suggests that the cumulative effects of individual (non-carcinogenic)
chemicals acting on different pathways, and a variety of related systems, organs, tissues
and cells could plausibly conspire to produce carcinogenic synergies.” [Emphasis added.]
http://carcin.oxfordjournals.org/content/36/Suppl_1/S254.full?sid=db47f5ec-47a2-4879bf30-6da9c076003d#ref-8

COUNCIL OFFICE BUILDING, 100 MARYLAND AVE. ROCKVILLE, MARYLAND 20850 - 240/777-7966

2

In commenting on the above study, the director of the National Institute of Environmental Health
Sciences, Linda Birnbaum (who was not involved in the study), said
“….We live in a chemical soup,…Considering the safety of individual chemicals is a lot like
looking at the trees, but missing the forest, Birnbaum said. When doing research to determine
chemical safety, “we’ve got to start thinking more about what reality is,” she said. This could
mean sweeping changes in rules about the levels of chemicals considered safe in drinking water,
food, and air. I’d like to see regulators and policy makers start looking at the totality of the
exposure instead of one chemical at a time,” she said. [Emphasis added.] (“Combinations of
'safe' chemicals may increase cancer risk, study suggests,” Los Angeles Times, by Sasha HarrisLovett, 7/1/15 http://www.latimes.com/science/sciencenow/la-sci-sn-chemical-combinationssafety-cancer-20150626-story.html)
While the 2015 report is important and significant, this general idea and information is not new.
As the President’s Cancer Panel pointed out in its 2008-2009 annual report, federal
environmental laws not only leave many known carcinogens completely unregulated, they also
“fail to address the potential hazards of being exposed to combinations of chemicals”. [Emphasis
added] (Environmental Working Group, http://www.ewg.org/research/rethinkingcarcinogens/executive-summary)
The true impact of chemical exposure could take decades to be measured.
A telling example is a study of 9,300 daughters born to mothers who had been exposed to the
pesticide DDT, which was banned in 1972 because of its effects on the environment, especially
the eggs of the bald eagle. EPA labeled DDT as a probable carcinogen, and multiple studies
linked DDT exposure to breast cancer, but then a 2014 meta-analysis found no significant
association. But then this mother-daughter study showed that the prior studies were looking at
the wrong generation – the daughters of women exposed to DDT - were associated with almost a
fourfold increase in breast cancer, independent of the mother's history of breast cancer. The
study, which covered a span of 54 years, also determined that those with higher levels of
exposure were diagnosed with more advanced breast cancer. The study results are dramatic, but
they took 54 years. (“Startling link between pregnant mother’s exposure to DDT and daughter’s
risk of breast cancer,” by Ariana Eunjung Cha, The Washington Post, 6/17/15
https://www.washingtonpost.com/news/to-your-health/wp/2015/06/16/ddts-breast-cancer-legacypregnant-mothers-exposure-linked-to-four-fold-increase-in-daughters-risk/ and
http://press.endocrine.org/doi/10.1210/jc.2015-1841)
You will not have “safety” answers in 2016 or one or two years later. Please acknowledge this
fact and address epidemiological questions.
Further points to consider:
Federal agencies should not reference “prior studies” without including and acknowledging the
following studies, which raise serious concern about artificial turf. One study raises the
possibility of inhalable lead.
The study states “…if the lead is present to any appreciable extent in the wipes it will likely
be present in the breathing zone of players who are active on these fields, and that
furthermore, these levels potentially exceed ambient EPA standards. (“An Evaluation of

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3

Potential Exposures to Lead and Other Metals as the Result of Aerosolized Particulate
Matter from Artificial Turf Playing Fields Submitted to:Alan Stern, Dr.P.H. New Jersey
Department of Environmental ProtectionSubmitted by: Stuart L. Shalat, Sc.D. (July 14,
2011) http://www.nj.gov/dep/dsr/publications/artificial-turf-report.pdf) Note that many
facilities would not allow testing.
Other studies have raised serious concerns about tire crumb and lead exposure.
A 2014 study found lead and other toxins in the both the plastic rug and tire crumb infill.
Lead was also was found in simulated body fluids meaning there is little or no protection of
any kind against the lead getting out of the material into the body. "Since it is possible that
children may be exposed to potentially high concentrations of lead while using artificial turf
fields we recommend, at a minimum, all infill and fibers should be certified for low or no
lead content prior to purchase and installation."
("Bio-accessibility and Risk of Exposure to Metals and SVOCs in Artificial Turf Field Fill
Materials and Fibers" Brian T. Pavilonis, Clifford P. Weisel, Brian Buckley, and Paul J.
Lioy http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4038666/pdf/nihms565643.pdf 2014)
No two fields are alike because each field contains 30,000 to 40,000 ground up tires, which
come from a multitude of manufacturers.
“Every turf field has to be analyzed in detail to be sure it doesn’t have a problem,’
said Paul Lioy, a professor of environmental and occupational medicine at the Robert
Wood Johnson Medical School in New Jersey.” [Emphasis added.] (“Feds promote
artificial turf as safe despite health concerns,” by Thomas Frank USA Today, 3/16/2015
http://www.usatoday.com/story/news/2015/03/15/artificial-turf-health-safetystudies/24727111/)
"Not surprisingly, the shredded tires contain a veritable witch’s brew of toxic
substances," Gaboury Benoit, Ph.D., Yale Professor of Environmental Chemistry and
Engineering. (“Study: Artificial turf contains carcinogens,” by Tony Spinelli, 7/3/15
http://www.theridgefieldpress.com/48210/study-artificial-turf-containscarcinogens/#ixzz47WNF1FSf)
Additionally, the information required from field managers around the country is time-intensive
as outlined in the Federal Register, and the attempt to reach a maximum of 40 fields nationally is
insufficient. So the time required from the individuals is large and the amount of information
collected will not be much more than anecdotal.
The fields heat is a health hazard. It is hotter than asphalt and much hotter than grass.
At the Women’s World Cup in Edmonton, Canada, in June 2015, the air temperature was 75
degrees, and “the heat from the carpet approaching 120 degrees at kickoff…Research, partly
funded by the city of Las Vegas, found artificial turf above 122 degrees is considered unsafe for
sustained athletic use and that, depending on the air temperature, turf can get as hot as 180
degrees…This was a temperature where if you put your hand down on it, you could only hold it
for five seconds or so before it would burn,” Dale Devitt, director of the Center for Urban Water
Conservation at the University of Nevada Las Vegas told the Vegas Sun. [Emphasis added.]

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4

(“The artificial turf at the Women’s World Cup was reportedly 120 degrees at kick off,” by
Marissa Payne, The Washington Post, 6/6/2015
http://www.washingtonpost.com/news/early-lead/wp/2015/06/06/the-artificial-turf-at-thewomens-world-cup-was-reportedly-120-degrees-at-kick-off/)
Environmental impacts of artificial turf should also be noted.
Artificial turf fields create “heat islands” – an environmental hazard.
The extreme heat “is not only a hazard for users, but also can contribute to the ‘heat island
effect,’ in which cities become hotter than surrounding areas because of heat absorbed by
dark man-made surfaces such as roofs and asphalt.” (“Synthetic Turf: Health Debate Takes
Root” by Luz Claudio, Environmental Health Perspectives 2008 March; 116(3): A116–
A122. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2265067/
“Columbia University climate researcher Stuart Gaffin analyzed thermal images generated
from NASA satellite maps of New York City. He wanted to figure out how urban trees may
help cool down neighborhoods. When Gaffin noticed a bunch of hot spots on the maps,
he assumed they were rooftops…two turned out to be turf fields" says Gaffin. In
retrospect, he says he should have realized that, because they're a perfect sunlight-absorbing
system.” (“High Temps On Turf Fields Spark Safety Concerns,” by Allison Aubrey,
National Public Radio, 8/7/2008
http://www.npr.org/templates/story/story.php?storyId=93364750)
Artificial turf appears to contribute to elevated levels of zinc in the water.
“There is a potential risk to surface waters and aquatic organisms associated with whole
effluent and zinc toxicity of stormwater runoff from AT fields.” (“Artificial Turf Study,
Leachate and Stormwater Characteristics,” July 2010 Conn. Department of Environmental
Protection
“Crumb rubber derived entirely from truck tires may have an impact on aquatic life due to
the release of zinc. For the other three types of crumb rubber, aquatic toxicity was found to
be unlikely.” Pg. 2
“Zinc concentrations are higher than the surface water standards.” Pg. 29
(“An Assessment of Chemical Leaching, Releases to Air and Temperature at Crumb-rubber
Infilled Synthetic Turf Fields” May 2009 from staff at NY State Department of
Environmental Conservation)
Plastic artificial turf blades will likely disintegrate and degrade with some ending up in bodies of
water and in the food of wildlife either directly or via landfills; plastics of various sizes are
already threatening aquatic life. The impacts of larger sized plastics is more widely known, but
now more is being discovered about the serious effects of microplastics. (“Ingested microscopic
plastic translocates to the circulatory system of the mussel, Mytilus edulis (L).” by Browne
MA1, Dissanayake A, Galloway TS, Lowe DM, Thompson RC, Environmental Science &
Technology, 7/1/2008 http://www.ncbi.nlm.nih.gov/pubmed/18678044) “As plastic breaks into
smaller pieces, it is more likely to infiltrate food webs. In laboratory and field studies, fish,
invertebrates and microorganisms ingest micrometer-sized particles…” (“Classify plastic waste

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5

as hazardous,” by Chelsea M. Rochman, Mark Anthony Browne, Eunha Hoh, Hrissi K.
Karapanagioti, Lorena M. Rios- Mendoza, Hideshige Takada, Swee Teh, Richard C. Thompson.
Nature, 2/14/13.)
Confusion over focus of the undertaking:
While the official federal register announcement does not mention playgrounds, the EPA’s
website explaining this study refers to “this coordinated Federal Research Action Plan on
Recycled Tire Crumb Used on Playing Fields and Playgrounds…”
(https://www.epa.gov/chemical-research/federal-research-recycled-tire-crumbs-used-playingfields) It would be better to included playgrounds, especially since children are particularly
vulnerable to toxic chemicals, but at a minimum the information disseminated should be
consistent between postings.
Conclusion:
As should be apparent from the above information and comments, my staff, constituents and I
have spent numerous hours reviewing these issues. I am deeply concerned that the study as
designed will offer the false hope of absolute answers. We may not know for many years the
true and complete impacts of artificial turf fields. I have concluded that we should adhere to the
precautionary principle and minimize use of artificial turf fields. Instead, we need to focus our
research and energy on improving natural grass fields, which already can be designed to
withstand heavy rains and avoid rain-outs. Increasing knowledge and experience is helping
expand the usage of these fields. The public focus should be on the best practices that give the
greatest use of natural grass fields with the least amount of fertilizers, pesticides and water.

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Page 1 of 1

PUBLIC SUBMISSION

As of: 5/3/16 6:39 PM
Received: May 02, 2016
Status: Posted
Posted: May 03, 2016
Tracking No. 1k0-8peo-o930
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0074
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Jean Barish
Address: 10028
Email: [email protected]

General Comment
Attached are my comments regarding Collections Related to Synthetic Turf Fields with Crumb
Rubber Infill 0923-16PJ
FR Doc # 2016-03305
Thank you for your consideration.
Jean B Barish, Esq., MS

Attachments
FR Doc # 2016-03305

https://www.fdms.gov/fdms/getcontent?objectId=0900006481fa2584&format=xml&showor... 5/3/2016

JEAN B BARISH, Esq., MS
[email protected]
212-249-5060
May 2, 2016

Leroy A. Richardson
Information Collection Review Office
Centers for Disease Control and Prevention
1600 Clifton Road NE, MSD-74
Atlanta, GA 30329
Re: Docket No. 2016-03305
Dear Mr. Richardson:
Thank you for this opportunity to comment on the proposed Federal research on the toxicity of synthetic
turf athletic fields with rubber tire crumb infill. I have worked as a research scientist, a consumer
advocate, and an attorney specializing in health care law. I am also affiliated with several environmental
organizations that have been concerned about this issue. One of these organizations, Action for
Nature, recognized Claire Dworsky as an AFN Eco-Hero for her study on the toxicity impact of synthetic
turf with rubber tire crumb. (http://actionfornature.org/2011_winners.aspx;
http://www.scgh.com/featured/success-stories/4th-graders-research-reveals-dangers-of-artificialturf/nggallery/image/image-463)
Rubber tires are a complex blend of materials and chemicals, many of which are carcinogenic,
neurotoxic, eye and throat irritants, and toxic to many organ systems. These chemicals include but are
not limited to polynuclear aromatic hydrocarbons (PAHs); phthalates; volatile organic compounds
(VOCs); heavy metals including lead, zinc, iron, manganese, and mercury; nanoparticles such as
carbon black; and dioxin. Additionally, a great deal of dust and particulate matter, including
nanoparticles, are created during play on an artificial turf field. All of this harmful material can enter the
body by inhalation, ingestion, dermal contact and eye contact. Other health and safety concerns
include sports injuries; infections from methicillin-resistant Staphylococcus aureus (MRSA); overheating
of the fields; and; disposal problems. Finally, the use of artificial turf with rubber tire crumb also raises
environmental concerns.
Many cities and school districts have chosen not to install turf with rubber tire crumb after considering
the health and environmental risks. For example, the City of New York Parks and Recreation and
Department has not used rubber tire crumb infill since 2008. And in 2009 the Los Angeles Unified
School District served manufacturers of artificial turf with Proposition 65 Notices claiming that artificial
turf with SBR infill contains unacceptable levels of lead and carbon black. LAUSD no longer uses turf
with rubber tire crumb. Several school districts in Sonoma County in Norther California have also
decided not to use rubber tire crumb infill, and the San Francisco Recreation and Parks Department is
planning to replace worn out fields with safer, organic infill. These are just a few examples of schools
and municipalities throughout the country that no longer use synthetic turf with rubber tire crumb.

Leroy A. Richardson
May 2, 2016
Page 2

In view of the growing concern about the health and environmental hazards of these fields, your
research should be done rigorously and thoroughly. To assure the studies will provide meaningful
information, please consider the following recommendations:
Study Recommendations
It is important that samples of rubber tire crumb are taken from an adequate number of fields
throughout the country. There are many variables that must be considered to assure adequate
sampling, including but not limited to the following: age of the fields; weather conditions to which the
fields are exposed such as temperature, humidity, precipitation; use of the fields; age of the fields;
source of the tire crumb; location on the field from which the samples are taken. Rubber tire crumb
comes from a huge variety of tires that have been manufactured all over the world. This lack of
homogeneity of the rubber tire crumb must be accounted for in your research.
Numerous studies have identified several categories of chemicals found in rubber tire crumb, including
but not limited to: polyaromatic hydrocarbons; phthalates; dioxins; semivolatile compounds;
nitrosamines, and; heavy metals. These should all be measured.
Rubber tires contain nanotubules. These should be measured.
There is also off-gassing of volatile compounds on synthetic turf fields, as well as the dispersal of
particulates into the air. These volatiles and particulates should also be measured on indoor and
outdoor fields under various ambient and play conditions when the fields are in use.
There is growing concern about the health risks of exposure to nanoparticles and carbon black. These
particles are able to cross biological membranes such as the blood-brain barrier and access cells,
tissues and organs. The risk of exposure to nanoparticles and carbon black should be studied.
(Nanoparticles – known and unknown health risks. Peter HM Hoet, Irene Brüske-Hohlfeld and Oleg V
Salata. Journal of Nanobiotechnology 20042:12.
http://jnanobiotechnology.biomedcentral.com/articles/10.1186/1477-3155-2-12). See also:
“Understanding the mechanism of toxicity of carbon nanoparticles in humans in the new millennium: A
systemic review,” Mukesh Sharma. Indian Journal of Occupational and Environmental Medicine, vol.
14(1), 2010, web publication June 24, 2010, abstract available at
http://www.ijoem.com/article.asp?issn=00195278;year=2010;volume=14;issue=1;spage=3;epage=5;aulast=Sharma ; Peter Gehr “Nanoparticles
can penetrate brain tissue,” on the website of the Federal Office for the Environment (FOEN) (also
BAFU in German), March 2010, available at
http://www.bafu.admin.ch/dokumentation/umwelt/10649/10659/index.html?lang=en ; “Toxic Potential of
Materials at the Nanolevel,” Mädler,and Ning Li, Science, 3 February 2006: 622- 627, abstract at
http://www.sciencemag.org/cgi/content/abstract/311/5761/622.

Leroy A. Richardson
May 2, 2016
Page 3

In addition to surveying field representatives to determine facility use and characteristics, please survey
players, coaches, and spectators. This will provide more reliable information regarding field uses and
conditions.
In addition to air monitoring, dermal sampling, and urinalysis, mucous membranes such as the oral
cavity, nasal passages, and conjunctiva of players should also be sampled. Dermal sampling should
include all exposed areas of the body, including the face and scalp.
Exposure characterization should also include contact with clothing and shoes, and the impact that has
on the spread of material off-site. This is especially important since many people report that rubber tire
crumb is tracked into cars and homes, and that players’ clothing is covered with black dust after a
game.
The risk of increased skin, muscular and joint injury caused by synthetic turf versus natural turf should
be studied.
All impact studies should account for demographic variations in users of the fields, including age,
gender, and race.
One of the adverse health impacts of artificial turf fields is related to the fact that the fields get much
hotter than natural grass fields. Synthetic surface undesirably absorbs, retains and emanates heat at
temperatures and rates that can be dangerous. (https://www.pitchcare.com/magazine/concerns-overheat-stress-on-3g-surfaces.html) The health hazards of playing on these hot fields should be studied.
Analysis of the health hazards of rubber tire crumb must also analyze the cumulative risk of exposure to
the synthetic turf with rubber tire crumb, defined in the US EPA document “Framework for Cumulative
Risk Assessment” as “the combined risks from aggregate exposure (i.e., including all relevant routes) to
multiple agents or stressors.” (U.S. EPA 2003. Framework for Cumulative Risk Assessment. PA/630/P02/001A. Washington, DC)
Please review the Material Safety Data Sheets (MSDS) for the manufacturer of rubber tire crumb and
evaluate these for information about health and safety hazards.
In addition to an analysis of the constituents of rubber tire crumb and exposure levels, the synthetic turf
fibers also contain chemicals of concern, including but not limited to phthalates, quaternary ammonium
bocides, BPA, acetone, elastomers, and heavy metals. A chemical analysis of a representative sample
of turf fibers should be done.

Leroy A. Richardson
May 2, 2016
Page 4

Other Considerations
The following comments are also submitted for your consideration:
Epidemiological Studies
There is a growing data base of soccer players exposed to fields with rubber tire crumb that have
developed cancer. Notably, there is a disproportionate number of young people lymphomas in this
population. (http://www.ehhi.org/turf/cancer_patterns_1114.shtml) Epidemiological research is
necessary to more accurately assess the health impacts of playing on artificial fields with rubber tire
crumb. This research should study the incidence of cancer, as well as allergies, asthma and other
respiratory disorders, gastrointestinal disorders, autoimmune diseases, neurological conditions, skin
conditions, and the like. There is already a great deal of information about the components of rubber
tire crumb. Epidemiological research is the next step that should be taken to determine whether
exposure to these toxins on the playing field increases the risk of cancer and other health problems.
The testing your agency proposes will never capture what is really going in the real life exposures of a
generation of young people. A national agency such as NCI or CDC has the resources to do the
necessary epidemiological research. It should begin as soon as possible in order to protect a the young
people who are now playing on these fields.
Animal Studies
Several experts I have spoken to have recommended that your research includes animal studies in
order to better assess exposure risks. Please include animal studies in this project or explain why you
do not plan to include it.
Environmental Impacts
Rubber tire crumb can also impact the environment, especially if the field is built above an aquifer.
Chemicals from rubber tire crumb can leach into this underlying aquifer, as well as spill into waste
water, poisoning drinking water and impacting aquatic life. Additionally, synthetic turf fields with rubber
tire crumb can impact the ecosystems where they are installed. Accordingly, please address the
following issues in your research:
Include consideration of the impact of these fields on rainwater and other waters that flow through the
turf that will pick up particulates that could then enter the public water system or adjoining waterways.
Include consideration of the impact of these fields on all animal species in the surrounding ecosystems.

Leroy A. Richardson
May 2, 2016
Page 5

Disposal
The environmental impact of disposal of the fields and the rubber tire crumb infill should also be
studied. It is important to understand the regulatory control of the disposal of these fields. Do they end
up in landfills? Can they be recycled? What is the impact of the particulates on the environment when
they must be removed at the end of their lifespan or the repurposing of the fields?
Precautionary Principle
The Precautionary Principle stands for the proposition that when an activity raises threats of harm to
human health or the environment, precautionary measures should be taken even if some cause and
effect relationships are not fully established scientifically.
(http://unesdoc.unesco.org/images/0013/001395/139578e.pdf) Much has been written about the
Precautionary Principle, but in its simplest terms it means that there is a social responsibility to protect
the public from exposure to harm when scientific investigation has found a plausible risk. These
protections can be relaxed only if further scientific findings emerge that provide sound evidence that no
harm will result.
You are encouraged to apply the Precautionary Principle in analyzing the data from your studies.

Thank you for your consideration of these comments.
Sincerely,
Jean B Barish, Esq., MS

Page 1 of 1

PUBLIC SUBMISSION

As of: 5/3/16 6:42 PM
Received: May 02, 2016
Status: Posted
Posted: May 03, 2016
Tracking No. 1k0-8per-nvit
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0077
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Christi Davis, Ph.D.
Address: 98036
Email: [email protected]
Organization: Washington Alliance for Non-toxic Play and Athletic Fields

General Comment
See attached file(s)

Attachments
Comments on ASTDR 2016-0002

https://www.fdms.gov/fdms/getcontent?objectId=0900006481fa2025&format=xml&showor... 5/3/2016

Comments on ASTDR 2016-0002-0003
Federal Research Action Plan on
Recycled Tire Crumbs Used on Playing Fields and Playgrounds
Submitted to Federal Register May 2, 2016

Washington Alliance for Non-Toxic Play and Athletic Fields

The overarching public health question surrounding crumb rubber is, “Is crumb rubber safe to use on
play fields and playgrounds?” Not only has it been established that the carcinogens and other toxicants
from crumb rubber off-gas into the air, but research has also proven that they leach into water and
simulated body fluids as well (1) (2) (3) (4) (5) (6). Coach Amy Griffin has already compiled a selfreported list of hundreds of athletes whose cancers may be related to crumb rubber exposure (7), and
millions of children and young adults are currently exposed to crumb rubber on a daily basis. Therefore,
a timely, accurate, and reliable estimate of the risks associated with crumb rubber exposure is of utmost
importance.
Given the current state of relevant toxicity data, the planned exposure study is insufficient to provide
reliable, timely estimates of the health risks associated with the use of crumb rubber. In the April 14,
2016 webinar for this study, one of the presenters stated that study researchers intended to combine
exposure data from the federal study with existing toxicology data to predict health risks and make
recommendations. There are no toxicity studies on crumb rubber as a complete mixture. Further, even
if EPA guidelines didn’t clearly state that component-based methods were useless for estimating the
toxicity of complex mixtures, the toxicity information on the components of crumb rubber is too
incomplete to be usable (8). For example, the recent EHHI/Yale study identified 96 chemicals in crumb
rubber, almost half of which had not undergone any government toxicity testing (9). Until there is a
reliable, scientifically defensible estimate of the carcinogenicity of crumb rubber, there can be no
reliable health risk assessment.
It is not even clear that an estimate of the carcinogenicity of crumb rubber is technically feasible
because crumb rubber is not a standardized product. It is a waste product. The chemical composition
of the waste stream used to produce it is highly heterogeneous, may contain chemical hot spots, and
may change at any time in significant and unpredictable ways with no notice, ever.
Predicting the health risks posed by crumb rubber is a formidable challenge. However, measuring any
harm already caused should be relatively straightforward.
Prior formal studies on crumb rubber have provided the scientific basis to ascertain not only that crumb
rubber may cause cancer, but also predict what types of cancer it would be likely to cause on the basis
of its chemical components. However, it is the list of athletes who have contracted cancer compiled by
Coach Amy Griffin that gives research on the safety of crumb rubber urgency. Crumb rubber has only
WANPAF Comments on ASTDR 2016-0002-0003
1

been commonly used in playgrounds and playfields for about 15 years, but there is already a selfreported list of hundreds of suspected cancer cases in young people. The list is remarkable not only for
the age of the cancer patients, but also for how quickly cancers related to crumb rubber exposure seem
to be appearing. Cancer is typically slow to develop, often only appearing decades after exposure.
Further, parents have been repeatedly reassured that any carcinogens in crumb rubber are present at
minute doses that pose virtually no risk. If cancers are appearing in unexpectedly large numbers now,
then either exposures are much higher than believed or crumb rubber may be a potent carcinogen and
the long-term cancer risk may be far greater than originally thought.
Amy Griffin’s List
While the list of athletes diagnosed with cancer collected by Coach Amy Griffin does not constitute an
epidemiologic study, what the list reveals is as instructive as it is frightening. The distribution of cancers
by type on the list does not reflect the distribution in the general population for individuals aged 5-29.
There is an excess rate of leukemia, lymphoma, and lung cancer relative to thyroid, brain, and testicular
cancer on the list. Further, the risk may be concentrated in certain areas or with certain teams.
If a self-reported cancer list is just the product of public fears, then the reported cancers should display a
distribution that reflects the distribution of cancer in the underlying population. A failure to display this
pattern either reflects a significant reporting bias or an underlying difference in cancer rates in the
reference population, or both. Standard population cancer incidence rates are easily available from the
SEER dataset as shown in Table 1 below (10).
Table 1. Age-Specific SEER Incidence Rates By Cancer Site, All Ages, All Races, Both Sexes, 2004-2013
Cancer Site

Age at Diagnosis
5-9
4.18
1.50
0.15
3.41

10-14
3.22
2.52
0.65
2.61

15-19
3.08
4.82
2.36
2.20

20-24
2.66
6.89
5.24
2.26

25-29
2.74
7.54
9.25
2.82

Leukemia
Lymphoma
Thyroid
Brain and Other Nervous
System
Lung and Bronchus
-0.05
0.12
0.32
0.60
Testis*
0.04 0.11
1.88
5.13
7.20
Rates are per 100,000 persons. *Rates for testicular cancer are for 100,000 persons assuming 50,000
males.
An age 5-29 age adjusted cancer rate for each of the cancers can be calculated using the standard 2000
US population distribution (not shown) from the SEER database. The age adjusted cancer rates are
shown in Table 2.
At last report, the individuals on Amy’s list range in age from 5 to 29 years and were diagnosed at least
as far back as 2007. The list contains data through March of 2016, so it covers at least 9.25 years (11).
The numbers included in Table 2 only include individuals that self-reported as playing soccer. Sixteen
cases of sarcomas and 9 cases of other rare cancers in soccer players are not included in Table 2.
Sarcomas were not included in the list because the SEER database breaks down cancers by site, not

WANPAF Comments on ASTDR 2016-0002-0003
2

type. Fifty-four individuals that only reported playing sports other than soccer are on Amy’s list but are
not included in Table 2.
While the numbers on Amy Griffin’s list do not represent the cases for a defined population, they could
be assumed to do so for purposes of illustration. Assume the actual cancer cases in Table 2 represent
cases from a defined population of unknown size x. If it is assumed that the rate of thyroid cancer in the
theoretical population is the same as the rate in the U.S. population, then the size of the theoretical
population can be calculated as 12*100,000/(3.37*9.25)= 38,548 individuals. Given a population of
38,548 individuals at risk for 9.25 years, it is possible to calculate the expected number of cases for each
of the other cancers on Amy’s list. Then the ratio of actual to expected cases can be calculated. As can
be seen in Table 2, the number of leukemia, lymphoma and lung cancer cases are elevated relative to
thyroid, brain and testicular cancer.
Table 2. Expected Number of Cancer Cases Versus Actual Number on Amy Griffin’s List

Leukemia
Lymphoma
Thyroid
Brain and Other Nervous
System
Lung and Bronchus
Testis

Age-adjusted
incidence in
5-29 year
olds
3.19
4.55
3.37
2.66
0.21
2.73

Expected
number of
cases

Ratio Actual to
Expected
Cases

11.39
16.21
12

Actual
number of
soccer
players
41
64
12

9.49
0.74
9.73

11
4
9

1.16
5.41
0.92

3.60
3.95
1

The incidence of lymphoma cases in soccer goalkeepers in Washington State was investigated based on
Amy Griffin’s list. Washington was selected because the author and Ms. Griffin live in Washington and a
significant percentage of the names on the list are from Washington. Goalkeepers were examined
because of their elevated exposure and high rates of appearance on the list. Lymphoma was examined
because many of the carcinogens in crumb rubber are believed to cause blood cancers and because of
the number of lymphoma cases on the list as a whole.
Based on private communications with Amy Griffin, her list includes 7 goalkeepers from Washington
State, aged 12-24 who were diagnosed with lymphoma between 2008 and 2015. By estimating the
number of goalkeepers in this age group, it is possible to estimate incidence.
There are approximately 1,552 boys and girls high school soccer teams in Washington State. Per Amy
Griffin, approximately an additional 10% of high school age soccer players play on select teams instead
of high school teams. This yields a total estimate of 1,707 teams of high school age players, and an
estimated 3,414 14-17 year old goalkeepers. Assuming goalkeepers are spread equally over the age
range, this yields 854 goalkeepers per age, or 4,268 goalkeepers per 5 year age spread. Although
athletes may stop playing after graduation from high school, their exposure during their youth can never
be erased. Thus, they remain in the risk pool. Additionally, goalkeeper is such a specialized position
that it is highly unlikely that a player who was not a goalkeeper in high school would become one after
WANPAF Comments on ASTDR 2016-0002-0003
3

high school. Thus, once a cohort completes high school, the number of people in that cohort who are
exposed to crumb rubber while playing goalkeeper should remain stable over time.
Estimating the number of goalkeepers in the 12-13 age range is difficult. There are likely more 12-13
year old children playing soccer, but 12-13 year olds are less likely to be set in the position they play at
that age. Therefore, to provide a conservative estimate, it is assumed that there are twice as many
goalkeepers per age for 12-13 year olds as there are for 14-24 year olds. The estimate of the at-risk
population is a back of the envelope estimate, and there are additional unstated assumptions in play.
However, it provides a useful, reasonably conservative, estimate of the at-risk population.
Based on the estimated numbers of goalkeepers and age-specific rates for lymphoma for individuals
aged 10-14, 15-19, and 20-24 years, there should have been approximately 5.6 lymphomas in
goalkeepers between the ages of 12 and 24 in Washington between 2007 and 2015. There are 8 on
Amy’s list, approximately 43% more than expected. It is a disturbing finding given that Amy’s list is
entirely self-reported and should only represent a fraction of the actual number of cases. This provides
support to the theory that soccer players are at an elevated risk of leukemia, lymphoma, and lung
cancer and the proportions of cancers on Amy’s list are due to elevated risks of certain cancers in soccer
players and not reporting bias.
Amy Griffin testified before the Washington State House Environment Committee on January 26, 2016
that her list contained five different groups of two or more players with cancer from the same team (7).
Thus, at least 5% of the names on Amy Griffin’s list come from mini clusters. Some clustering of cancer
cases will occur by random chance, but the proportion of the cases on Amy’s list that come from
individual teams is clearly excessive. Either players from teams with multiple cases are more likely to
self-report, or something is placing players on certain teams at elevated risk, or both. Given the
concerns about crumb rubber, it is entirely possible that players on teams with high levels of exposure
to crumb rubber, either due to extended seasons, or practicing on indoor fields, are at elevated risk. It is
also possible that certain fields pose much higher risk than other fields.
The data on Amy’s list raise grave concerns. Many of these concerns can be answered by a thorough
epidemiologic study. Fortunately, the necessary data exist, and the CDC has epidemiologists that are
fully capable of doing the type of research that is necessary to protect the health of our children.

Epidemiology
It should be fairly straightforward to design an epidemiologic study that would at least be able to
determine if soccer players, or goalkeepers in particular, are at an elevated risk of developing certain
cancers such as Hodgkin’s lymphoma or lung cancer.
For example, epidemiologists could model the incidence of selected specific cancers for all athletes who
played NCAA soccer between 2000 and 2013.
Cancer registries are already in place. The NCAA should have a list of all college athletes complete with
basic demographic data as well as information on sports and positions played. Hopefully, the NCAA will
be willing to cooperate in the name of public health and athlete health. While there are always
concerns about privacy, the NCAA would not necessarily need to reveal any information that isn’t

WANPAF Comments on ASTDR 2016-0002-0003
4

already publicly available. Further, cooperation in a government study designed to protect athlete
health could be portrayed as positive and proactive. Failure to cooperate could be publicly portrayed as
a sign that the association has something to hide or that it does not put the well-being of its student
athletes first.
If the NCAA is unwilling to cooperate, it is likely that the necessary information will be available from big
data brokers. Failing that, there are always sites such as TopDrawerSoccer.com that display the name,
college, home town, and position of 69,802 college soccer players in the US right now (12). Sites such as
this likely have archives of data from previous years as well.
Without a measure of athlete exposure to crumb rubber, a comparison of cancer incidence rates in
soccer players to rates in the general population can underestimate the risks associated with crumb
rubber. When soccer players are mixed together in the same data set with nothing to indicate exposure
level, the resulting risk estimate is a function of both the risk associated with exposure to crumb rubber
and the average level of exposure. However, the average level of exposure remains unknown, and if it is
assumed that all practices and games are spent on artificial turf, then the risk associated with crumb
rubber will be greatly underestimated.
However, adding proxy measures of exposure could improve estimates of any increased cancer risk
associated with exposure to crumb rubber and provide an estimate of any potential dose response.
NCAA data should include both the location of the athletes’ colleges and their home towns or high
schools. The average high temperatures in the summer and fall months might be one proxy measure of
exposure since the outgassing of toxic chemicals increases exponentially with temperature.
Adding annual US crumb rubber market penetration data to the model would increase the precision of
the model. Obviously, if exposure to crumb rubber causes cancer, then cancer rates should increase as
market penetration increases and as the number of years athletes are exposed to it increases. College
athletes in 2005 were exposed to crumb rubber for a relatively short period of time and a much smaller
percentage were exposed. College athletes in 2013 may have played on it for 13 years, and a relatively
large percentage probably played on it since high school.
Adding annual market penetration to the model for each athlete’s home town/ home state would
increase the precision of the model. Adding in the type of field present at each athlete’s college or
annual market penetration of crumb rubber in each athlete’s college town / state would also increase
the precision of the model.
Although the EPA no longer participates in the Scrap Tire Workgroup, it may have historical market
penetration data. Otherwise, the Synthetic Turf Council, or major turf retailors such as FieldTurf, may
have the data. Since this study has explicitly stated that it will include representatives from the
synthetic turf industry in this research, it is only reasonable to expect basic cooperation from the
stakeholders. If the STC or major retailors choose not to cooperate with an investigation on the safety
of crumb rubber, partial, if not complete, data may be available elsewhere. For example, states that
have given subsidies for the construction of synthetic turf fields and may have market data for their
state. (A failure of the synthetic turf industry to cooperate with the study could be interpreted as a tacit
admission that the industry believes that there are significant health risks associated with crumb rubber
use. This could provide further justification for an immediate moratorium on the use of crumb rubber.)

WANPAF Comments on ASTDR 2016-0002-0003
5

A multivariate regression model with proxy variables and other basic explanatory variables such as age,
gender, and position, as well as all necessary interaction terms could be created. Determination of the
exact type of statistical model to be used should obviously be left up to biostatisticians / epidemiologists
who regularly model cancer epidemiological data. A list of the types of cancer to investigate can be
compiled from the list of cancer cases maintained by Coach Amy Griffin, and by consultation with
toxicologists on the cancers expected from the carcinogens in crumb rubber. In addition, the
Washington State Department of Health is validating the Washington State cancer cases on Amy’s list
and expects to publish some descriptive statistics concerning the list in the summer of 2016 (13). The
DOH plans to determine if the cases represented on Amy’s list represent an excessive rate of cancer
cases among soccer players / goalkeepers in Washington (14). However, there is no plan to
independently identify other cases of cancer in soccer players in Washington.
The main weakness of an epidemiologic study is that it has no ability to predict long-term effects.
Crumb rubber has been widely used for around 15 years. The full effects of a carcinogen on human
health typically take 30-50 years to appear. If the epidemiologic studies do not reveal any current
cancer excesses, animal experimentation could help rule out any long-term risks. However animal
experimentation is expensive, time-consuming, and should be avoided whenever possible for ethical
reasons. If there is a current excess of cancer cases, then crumb rubber is unsafe and should not be
used. Animal studies would not be necessary to determine whether or not to ban it.

Specific Comments on Exposure Study Design
Bioavailability
Any bioavailability studies should mimic real world exposure scenarios, including using realistic particle
sizes and exposure periods as much as possible. Thus, gastric studies should include crumb rubber dust
as well as crumbs. While some children engage in pica, and soccer goalies get crumbs in their mouths
when diving for balls, much of the oral exposure of children is via hand to mouth behavior. Thus,
children are ingesting dust, not tire shreds or crumbs. Toxins on particles 10 to 250 micrometers in
diameter are likely to be much more bioavailable than toxins encased in shreds half an inch in length.
The Kim study examined the effects of particle size on the bioavailability of lead in EPDM based on acid
extraction and simulated digestive fluid extraction (15). The study found that lead was more than five
times more bioavailable in particles less than 250 microns in diameter than it was in larger particles.
The bioavailability of toxins in 1-2 mm diameter crumbs in simulated lung fluid is not biologically
relevant because humans are breathing in airborne particles, not large crumbs (4). Further, the smaller
particles, those just a few microns in diameter, can pass through the lung tissue, into the bloodstream,
and from there into various organs and tissues. At that point, the bioavailability of the toxicants in
blood or tissue becomes relevant. Similarly, the estimated bioavailability of PAHs on PM 2.5 that are
estimated to stay in the lungs for 3 months is very different than the estimated bioavailability of PAHs
on a 1 mm crumb that is estimated to stay in the lungs for 24 hours.

Collection Procedures

WANPAF Comments on ASTDR 2016-0002-0003
6

Samples of crumb rubber should not be washed as washing removes the smaller dust particles.
Samples of new crumb rubber should be taken from the top, middle and the bottom of the bag because
of granular convection, also known as the ‘Brazil-nut effect.” Different sized crumbs will have different
surface areas relative to their mass. Hence the toxicants contained in them will have different levels of
bioaccessibility. Different sizes of crumb rubber particles may also be chemically different. A tire is not
composed of a uniform piece of rubber. Different portions of the tire have different formulations, some
of which may be more likely to crumble than others. Different tire parts have been exposed to different
microenvironments containing different contaminants. This affects how the rubber ages and breaks
down. The outer layer of the tread that was most exposed to roadway contaminants could be the most
brittle and likely to crumble into dust. Conversely, inner layers of rubber that were more protected
from the elements and contaminants may remain as larger crumbs. Washing the dust off of the crumbs
could mean washing away relevant contaminants from the sample.
Similarly, when collecting crumb rubber samples from fields and playgrounds, care must be taken to
collect the dust and respirable particulate matter as well. Care must be taken not to re-suspend
particulate matter that has settled from the air. Sweeping samples into a collector risks loss of dust and
settled particulates. Vacuuming up the crumb may be the best way of capturing all of the crumb rubber
in a given area. It is important to know all of what is actually on the fields, not just what is in the large
crumbs on the fields.

Legislation or administrative action compelling institutions that receive federal funding, such as most
public schools, to participate upon request should be considered. In 2011, Dr. Stuart Shalat noted that
only 5 of the 50 schools and towns he contacted gave him permission to test their fields due to liability
concerns (16). That was before Coach Amy Griffin’s list of athletes who have developed cancer started
raising public concern. Field owners might be much less cooperative today. Given previous difficulties
in obtaining permissions to test fields, collecting 40 samples from fields, stratified by field type, age and
census region may mean contacting hundreds of towns or schools. Alternatively, it might help to
publicize the school districts and cities that refuse to allow their fields to be tested. At the same time, a
policy of not releasing any individual results, unless hazardous levels of a toxicant are identified (such as
lead > 400 ppm in crumbs), could shield participants from unintended negative consequences. Thus,
those who refuse to help look like they have something to hide or like they aren’t concerned about the
health of their field users, while those that participate get to look like they are taking steps to protect
public health.
All air monitoring should include personal air monitoring of VOCs, SVOCs, PM 2.5, and carbon black.
Proper off-field, up wind controls should be taken concurrently. On-field sampling should be done
during actual games, scrimmages or practices. Referees may wear the monitoring equipment if it is not
feasible to have players wear monitors. Stationary monitors on the side of the field do little to reveal
what players on the field are exposed to due to atmospheric mixing and the settling of dusts. Players
actively churn the crumb re-suspending dust and PM 2.5, and opening up pockets of trapped gasses
(16).
Measurements of PM 2.5 and carbon black from personal air monitors would be new information.
Personal air monitors have been used for VOCs and SVOCs but not PM 2.5 (17). Even though carbon
WANPAF Comments on ASTDR 2016-0002-0003
7

black constitutes roughly 30% of crumb rubber, no measurements of ambient carbon black levels at
synthetic turf fields in the U.S. using any type of monitor were located. The estimates of airborne
carbon black from crumb rubber typically come from a study of indoor turf fields conducted in Norway
(18).
Estimating exposures goal keepers receive, especially during practice diving drills may be difficult. It
may not be safe for either the player or the equipment for goal keepers to dive into the turf while
wearing the monitors. It may be more practical to have engineers study films of goalies diving after
balls, and then design ways to mimic the spray of crumbs and dust particles they receive each time they
dive into the turf.

It is encouraging that the CDC, CPSC and EPA are examining the toxic exposures that children and
athletes receive when using playgrounds and athletic fields that use artificial turf. However, given the
number of citizens that are exposed to crumb rubber on a daily basis, and the evidence that crumb
rubber is already responsible for excess cancer cases in the country’s youth, a more aggressive research
program, including a large epidemiological study, is needed.

WANPAF Comments on ASTDR 2016-0002-0003
8

References
1. Characterization of Substances Released from Crumb Rubber Material Used on Artificial Turf Fields. Li,
X, et al. 2010, Chemosphere, pp. 279-285.
2. Hazardous organic chemicals in rubber recycled tire playgrounds and pavers. Llompart, Maria, et al.
2013, Chemosphere, pp. 423-431.
3. Release of Polycyclic Aromatic Hydrocarbons and Heavy Metals from Rubber Crumb in Synthetic Turf
Fields: Preliminary Hazard Assessment for Athletes. Marsili, L., Coppola, D., Bianchi, N., Maltese, S.,
Bianchi, M., & Fossi, M. C. 2016, Environmental & Analytical Toxicology.
4. Bioaccessibility and Risk Exposure to Metals and SVOCs in Artificial Turf Field Fill Materials and Fibers.
Pavilonis, B.T., et al. 2013, Risk Analysis .
5. Simcox, Nancy, Bracker, Anne and John, Meyer. Artificial Turf Field Investigation in Connecticut.
Farmington : University of Connecticut, 2010.
6. Mutagenic Potential of Artificial Athletic Field Crumb Rubber at Increased Temperatures. Dorsey,
Michale J., et al. 2, 2015, The Ohio Journal of Science, Vol. 115, pp. 32-39.
7. TVW. House Environment Committee. [Online] January 26, 2016. [Cited: May 2, 2016.]
http://www.tvw.org/watch/?eventID=2016010305.
8. EPA Risk Assessment Forum Technical Panel. Supplementary Guidance for Conducting Health Risk
Assessment of Chemical Mixtures. Washington DC : U.S. Environmental Protection Agency, 2000.
9. EHHI. New Study – Many carcinogens found in Yale analysis of crumb rubber infill and playground
mulch surfacing. Environment and Human Health, Inc,. [Online] June 11, 2015.
http://www.ehhi.org/turf/new_study_jun2015.shtml.
10. Surveillance, Epidemiology, and End Results (SEER) Program: SEER*Stat Database: Incidence - SEER
18. Age-Specific (Crude) SEER Incidence Rates By Cancer Site All Ages, All Races, Both Sexes 2004-2013.
s.l. : National Cancer Institute, DCCPS, Surveillance Resarch Program, Surveillance Systems Branch, 2016.
11. Alderman, Nancy. personal email. 2016.
12. TopDrawerSoccer.com. College Player Search. [Online] Advanced Sports Media Group. [Cited: May
2, 2016.]
http://www.topdrawersoccer.com/search/?query=&genderId=&classId=&divisionId=All&conferenceId=
All&positionId=0&pageNo=0&area=collegeplayer.
13. Wasserman, Cathy. personal email. 2016.
14. Washington State Department of Health. Synthetic Turf. [Online] [Cited: May 2, 2016.]
http:www.doh.wa.gov/CommunityandEnvironment/Schools/EnvironmentalHealth/syntheticTurf.
15. Kim, Sunduk, et al. Health Risk Assessment of Lead Ingestion Exposure by Particle Sizes in Crumb
Rubber on Artificial Turf Considering Bioavailability. [Online] February 2, 2012. [Cited: May 2, 2016.]
http://e-eht.org/journal/view.php?doi=10.5620/eht.2012.27.e2012005.

WANPAF Comments on ASTDR 2016-0002-0003
9

16. Shalat, Stuart L. An Evaluation of Potential Exposures to Lead and Other Metals as the Result of
Aerosolized Particulate Matter from Artificial Turf Playing Fields. s.l. : New Jersey Department of
Environmental Protection, 2011.
17. Ginsburg, Gary and Toal, Brian. Human Health Risk Assessment of Artificial Turf Fields Based Upon
Results from Five Fields in Connecticut. Hartford : Connecticut Department of Public Health, 2010.
18. Norwegian Institute for Air Pollution. Measurement of Air Pollutions in Indoor Turf Halls. s.l. :
Norwegian Pollution Control Authority, 2005.
19. Assessing the carcinogenic potential of low-dose exposures to chemical mixtures in the environment:
the challenge ahead. Goodson, William H, Lowe, Leroy and al, et. 2015, Carcinogenesis, pp. S254-S296.
20. Substantial contribution of extrinsic risk factors to cancer development. Wu, Song, et al. 2016,
Nature, pp. 43-47.
21. Artificial-Turf Playing Fields: Contents of Metals, PAHs, PCBs, PCDDs and PCDFs, Inhalation Exposure
to PAHs and Related Preliminary Risk Assessment. Menichini, E, et al. 2011, The Science of the Total
Environment, pp. 4950-4957.
22. Highsmith, R., Thomas, K.W. and Williams, R.W. A Scoping-Level Field Monitoring Study of Synthetic
Turf Fields and Playgrounds. s.l. : National Exposure Research Laboratory, U.S. Environmental Protection
Agency, 2009.
23. Synthetic Turf Field Investigation in Connecticut. Simcox, Nancy J., et al. 2011, Journal of Toxicology
and Environmental Health: Part A Current Issues, pp. 1133-1149.
24. Office of Environment Health Hazard Assessment. Appendix B. Chemical-specific summaries of the
information used to derive unit risk and cancer potency values. updated 2011. OEHHA Toxicity Criteria
Database. [Online] 2011. http://www.oehha.ca.gov/tcdb/index.asp.
25. Toxicity and metabolism of methylnaphthalenes: Comparison with naphthalene and 1nitronaphthalene. Lin, Ching Yu, et al. 2009, Toxicology, pp. 16-27.
26. President’s Cancer Panel. Reducing Environmental Cancer Risk: What We Can Do Now. Bethesda :
U.S. Deptartment Health and Human Services, 2010.

WANPAF Comments on ASTDR 2016-0002-0003
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WANPAF Comments on ASTDR 2016-0002-0003
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Page 1 of 3

PUBLIC SUBMISSION

As of: 5/3/16 6:43 PM
Received: May 02, 2016
Status: Posted
Posted: May 03, 2016
Tracking No. 1k0-8per-o6x7
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0079
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Jonathan Damm
Address: 20191
Email: [email protected]

General Comment
Dear Federal Agencies:
I am a concerned parent with a background in environmental law and a lacrosse player and
coach. Because of my education, I understand and appreciate the dangers inherent with repeated
exposure to toxins. Since I am a coach and player, I have also spent many hours on tire crumb
fields. I have witnessed how children are exposed to the fine particulate. After reading all the
available literature, my wife and I concluded the risks far outweigh any benefits of using fields
with tire crumb. Regardless of your final conclusions, it is clear that tire crumb is beyond our
capacity to thoroughly investigate - as I will discuss below. So we will never let our three young
children play on tire crumb. A generation of young Americans relies on you for similar
protection.
Later this year, when the federal government issue its preliminary statement regarding the
safety of tire crumb on synthetic turf fields, the most important messages to communicate to
concerned parents are: 1) Tire Crumb is a "Moving Target" - tire manufacturers frequently
change tire ingredients. So any formal study conclusion only speaks to existing fields. Any field
installed after a study, or any field not studies, may contain chemicals that were not examined in
past studies - including any federal study. So for all the millions of dollars of resources the
federal government is about to spend on this study, any conclusions can only speak to actual

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Page 2 of 3

fields that were studied. A study can only be backwards looking by its very nature since there
can be zero confidence that manufacturers will not change tire ingredients. This must be clearly
communicated. 2) Compound based risk assessment can only be done on chemicals and
compounds that have regulatory risk frameworks. Tire crumb contains numerous chemicals and
compounds with no regulatory risk frameworks. Therefore, any formal study will necessarily
contain significant data gaps. 3) Given that tire crumb contains multiple chemicals and
compounds with no risk frameworks, epidemiological studies and animal studies are the only
available methods of study to overcome this intrinsic problem. If there are no significant
epidemiological studies undertaken or planned, this must be communicated. If there are no
animal studies planned, this must be communicated.
If the three points of focus above were communicated clearly and prominently, it would help
educated field users to truly understand that sometimes, a problem is beyond our ability and
present capacity to accurately make predictions or draw conclusions regarding safely. If the
federal government was realistic in this endeavor, it would recognize this from the very start.
And given what we know about the multiple carcinogens, mutagens and reprotoxins in this
material, the government should conclude from the start that tire crumb is simply too risky to
use in such close proximity to children.
Sweden Concluded that Tires should Not be Used
Such a position would not be novel or unprecedented. The Swedish agency tasked with
reviewing tire crumb on synthetic fields recommended that tires should not be used as material
on synthetic turf fields for exactly these reasons. Sweden wisely concluded that given the
complexity and the inherent unknowns regarding tire crumb use on turf fields, they simply
should not be used.
"Tyres contain substances of very high concern
Tyres contain several substances that are substances of very high concern. These substances
maypersist in the environment, they may be bioaccumulative, carcinogenic, reprotoxic, or
mutagenic. This is true of, for example, polycyclic aromatic hydrocarbons (PAHs), phthalates
and certain metals. These substances should not be released into the environment and thus
waste tyres should not be used for synthetic turf surfaces.
KemI's Recommendations:
Do not select synthetic turf that contains substances of very high concern when laying new
surfaces
Material that contains substances of very high concern should not be used, as specified by the
environmental objectives of the Swedish parliament. This means that granulate formed from
recycled rubber should not be used when laying new surfaces of synthetic turf. The Norwegian
authorities have issued a similar recommendation."
http://www.wellesleyma.gov/pages/WellesleyMA_SpragueResources/Swedish%20Study.doc
In addition to Sweden and Norway, whole countries that have recommended that tires not be
used on turf fields, municipalities like as New York City have has banned tire crumb since 2009
for their schools and parks.

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Page 3 of 3

Similarly in 2009, the L.A. Unified School district has banned tire crumb. The list grows larger
by the week. In early 2015, Montgomery County, Maryland's most populous, banned tire crumb
by a unanimous vote of the council.
Please honor the precautionary principal and recommend a complete ban on the use of tire
crumb on turf fields and playgrounds. See attached for full comments.
Regards,
Jonathan Damm

Attachments
Comments on ASTDR 2016-0002 by Jonathan Damm

https://www.fdms.gov/fdms/getcontent?objectId=0900006481fa2055&format=xml&showor... 5/3/2016

Comments on ASTDR 2016-0002-0003
Federal Research Action Plan on
Recycled Tire Crumbs Used on Playing Fields and Playgrounds
Submitted to Federal Register May 2, 2016
By Jonathan R. Damm
Dear Federal Agencies:
I am a concerned parent with a background in environmental law and a lacrosse player
and coach. Because of my education, I understand and appreciate the dangers inherent
with repeated exposure to toxins. Since I am a coach and player, I have also spent
many hours on tire crumb fields. I have witnessed how children are exposed to the fine
particulate. After reading all the available literature, my wife and I concluded the risks far
outweigh any benefits of using fields with tire crumb. Regardless of your final
conclusions, it is clear that tire crumb is beyond our capacity to thoroughly investigate –
as I will discuss below. So we will never let our three young children play on tire crumb.
A generation of young Americans relies on you for similar protection.
Later this year, when the federal government issue its preliminary statement regarding
the safety of tire crumb on synthetic turf fields, the most important messages to
communicate to concerned parents are: 1) Tire Crumb is a “Moving Target” – tire
manufacturers frequently change tire ingredients. So any formal study conclusion only
speaks to existing fields. Any field installed after a study, or any field not studies, may
contain chemicals that were not examined in past studies – including any federal study.
So for all the millions of dollars of resources the federal government is about to spend
on this study, any conclusions can only speak to actual fields that were studied. A study
can only be backwards looking by its very nature since there can be zero confidence
that manufacturers will not change tire ingredients. This must be clearly communicated.
2) Compound based risk assessment can only be done on chemicals and
compounds that have regulatory risk frameworks. Tire crumb contains numerous
chemicals and compounds with no regulatory risk frameworks. Therefore, any
formal study will necessarily contain significant data gaps. 3) Given that tire crumb
contains multiple chemicals and compounds with no risk frameworks, epidemiological
studies and animal studies are the only available methods of study to overcome this
intrinsic problem. If there are no significant epidemiological studies undertaken or
planned, this must be communicated. If there are no animal studies planned, this
must be communicated.
If the three points of focus above were communicated clearly and prominently, it would
help educated field users to truly understand that sometimes, a problem is beyond our
ability and present capacity to accurately make predictions or draw conclusions
regarding safely. If the federal government was realistic in this endeavor, it would
recognize this from the very start. And given what we know about the multiple
carcinogens, mutagens and reprotoxins in this material, the government should
1

conclude from the start that tire crumb is simply too risky to use in such close proximity
to children. The following links provide examples of chemicals of concern in tire crumb.
http://www.albany.edu/ihe/Synthetic_Turf_Chemicals.php
http://www.ncbi.nlm.nih.gov/m/pubmed/22352997/
http://www.ehhi.org/turf/new_study_jun2015.shtml http://southlakesturf.org/wpcontent/uploads/2015/02/Pg-31.jpg
http://southlakesturf.org/wp-content/uploads/2015/02/Attachment-1-Crumb-RubberChemicals.pdf
Sweden Concluded that Tires should Not be Used
Such a position would not be novel or unprecedented. The Swedish agency tasked with
reviewing tire crumb on synthetic fields recommended that tires should not be used as
material on synthetic turf fields for exactly these reasons. Sweden wisely concluded that
given the complexity and the inherent unknowns regarding tire crumb use on turf fields,
they simply should not be used.
Tyres contain substances of very high concern
Tyres contain several substances that are substances of very high concern.
These substances maypersist in the environment, they may be
bioaccumulative, carcinogenic, reprotoxic, or mutagenic. This is true of, for
example, polycyclic aromatic hydrocarbons (PAHs), phthalates and certain
metals. These substances should not be released into the environment and thus
waste tyres should not be used for synthetic turf surfaces.
KemI’s Recommendations:
Do not select synthetic turf that contains substances of very high concern
when laying new surfaces
Material that contains substances of very high concern should not be used, as
specified by the environmental objectives of the Swedish parliament. This means
that granulate formed from recycled rubber should not be used when laying new
surfaces of synthetic turf. The Norwegian authorities have issued a similar
recommendation.
http://www.wellesleyma.gov/pages/WellesleyMA_SpragueResources/Swedi
sh%20Study.doc
In addition to Sweden and Norway, whole countries that have recommended that tires
not be used on turf fields, municipalities like as New York City have has banned tire
crumb since 2009 for their schools and parks. http://www.nydailynews.com/newyork/city-yields-ground-crumb-rubber-turf-wars-article-1.389543
Similarly in 2009, the L.A. Unified School district has banned tire crumb.
http://usatoday30.usatoday.com/sports/2009-06-10-artificial-turf_N.htm
The list grows larger by the week. In early 2015, Montgomery County, Maryland’s most
populous, banned tire crumb by a unanimous vote of the council.
http://www.mymcmedia.org/councilmember-berliner-applauds-council-turning-the-page2

on-artificial-turf/ Recently, the city of Hartford, CT banned Tire Crumb as well.
http://ctmirror.org/2016/02/12/a-shifting-ground-for-artificial-turf-in-connecticut/
There are many other communities taking similar action. A Google search will provide
you with plenty of evidence. Industry lobbyists and representatives will likely tell you that
these are just reactionary measures because of sensational headlines of anecdotal
news about goalies with cancer. I will discuss the goalies with cancer below. First,
Sweden and Norway took their precautionary measures in 2006, well before the news
about goalies with cancer in 2014. It was enough for them to understand what is in tire
crumb. They didn’t need to conduct a generation long experiment to decide if it is safe.
They erred on the side of caution, which is a reasonable measure given the multiple
chemicals of concern, carcinogens, PAHs, VOCs, phthalates, heavy metals and
endocrine disruptors. All these things are in tire crumb. There is no debate about that.
Over the last ten to twenty years, parents have been increasingly aware that they
should take reasonable steps to protect their kids from having toxins bioaccumlate in
their kids’ bodies. So countries and municipalities that are avoiding tire crumb are not
simply acting because they are scared, they are taking prudent and reasonable
measures to minimize exposure to dangerous toxins. BPA and phthalates are good
examples. These chemicals are not banned by EPA and really not heavily regulated as
far as I understand.
Exposure
But the science is pretty clear at this point that we should protect children from
unnecessary exposure to endocrine disruptors. When developing kids are on a tire
crumb field, they often ingest tire crumb. They either ingest actual particles or they
ingest micro particles that get mixed into their sweat as it runs over their skin and into
their mouth. The attached document from the safe healthy playing fields coalition
illustrates how small particles actually are. The picture below is from the attachment.
But look at how small the dust is. The larger black spot is a highly magnified piece of tire
crumb. The specs are microscopic dust. The picture of the woman illustrates how easily
the dust can be transferred from a field to a sweaty person and into their mouth.

3

They inhale fine tire crumb dust. They inhale VOCs. They absorb chemicals and oils
from tire plasticizers either directly through their skin or in open wounds. It gets in their
noses. It gets in their eyes. There are multiple exposure routes.
Bioavailability
Based on limited study, industry representatives like to assert that the chemicals in tire
crumb are somehow not bioavailable. But there are studies that contradict that. For
example, there is a study from South Korea that concludes that lead in EPDM rubber
particulate is indeed bioavailable. It should not be any different for metals in particulate
and dust like tire crumb. “Conclusions - Results of this study confirm that the
exposure of lead ingestion and risk level increases as the particle size of crumb
rubber gets smaller.” http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3278598/
So it is reasonable for parents to take precautions in their daily lives to protect their
children from toxins. People wash fruit, they off-gas products, they avoid flame
retardants, and they avoid endocrine disruptors and PAHs in their children’s products.
The list goes on. So when municipalities ban tire crumb, they are simply acting in the
same reasonable and cautious way that their populations act every day. Why would
parents want to take reasonable steps to protect their children from harmful
toxins in their daily lives, then turn around and expose their kids to all the same
chemicals of concern and even worse? It does not make sense to take one step
forward and two steps back.
Avoiding tire crumb is not a reactionary measure to sensational news; it is wisdom and
common sense. Using tire crumb where kids play is reckless and out of step with a
growing population of educated American’s approach to toxins around children. It is
truly mind boggling that there are individuals in the federal government that consider
this even remotely as a good idea.
Every day, we learn how toxins bioacumulate in the body. Folks take careful steps to
protect their families. By even pretending that somehow a field full of all the same
chemicals of concern could be tolerable under any circumstance is just plainly behind
the times. The only reason there has not already been a mass revolt is that there has
not been an opportunity to educate the millions of people that need the education. But if
the same people who avoid BPA and phthalates in their childrens’ products actually
learned in detail just how full of toxins their kids’ fields are, they would put it all together.
So please don’t pretend that somehow different rules apply just because kids are
running around an exercising. It is illogical to think that exercising somehow mitigates
the harms and risks. If anything, it makes it worse.

4

Goalies with Cancer – Only 5000 blood Cancers a Year
What about those soccer goalies with cancer? Anything short of a serious statistical
analysis would be too bad. It appears that there are only around 5000 blood cancers a
year under the age of 24. There are now over 100 goalies on Amy Griffin’s list. Most
have blood cancers. Given so few kids with blood cancers in a given year, it seems very
unlikely that one person would be able to put together a list of so many people with two
things in common 1) plays one particular position (goalie), and 2) plays mostly on one
particular kind of field (tire crumb). And there are still not that many tire crumb fields
nationally – around 12,000. So Amy Griffins list should be taken very seriously.

http://www.cancer.gov/research/progress/snapshots/adolescent-young-adult
Carbon Black
Any investigation must also look closely at carbon black. Carbon black makes up about
1/3 of a tire. That means about 1/3 of a tire crumb field is also carbon black. Carbon
black is a known animal carcinogen and a possible human carcinogen. Nanoparticles in
carbon black have been theorized to present asbestos like concerns.
http://www.turfandrec.com/index.php?option=com_content&task=view&id=2986 If this is
not looked at very closely, it would be a monumental oversight. Will the study look
closely at carbon black exposure?
Carbon Nanotubes
“Inhaling carbon nanotubes could be as harmful as breathing in asbestos, and its
use should be regulated lest it lead to the same cancer and breathing problems that
prompted a ban on the use of asbestos as insulation in buildings, according a new study

5

posted online . . . by Nature Nanotechnology.”
http://www.scientificamerican.com/article/carbon-nanotube-danger/
"[Ti]res enhanced with CNT (carbon nanotubes) appear to have improved mechanical
properties, such as tensile strength, tear strength and hardness of the composites, by
almost 600%, 250% and 70% respectively, comparing with those of the pure SBR
composites (styrene‐butadiene rubber)." http://www.iosrjournals.org/iosrjmce/papers/vol11-issue4/Version-1/B011410711.pdf
This concern with carbon nanotubes goes back to the “Moving Target” concern I
discussed in the first page of this document. Tires are waste products that are not
designed for use, ingestion, inhalation and absorption by children. Any slew of
potentially carcinogenic material could make their way into the next generation of tires,
and probably will. This should be unacceptable from the start.
Past studies have been negligent in how they collect data. They underestimate
exposure. The 2008 EPA study set up a particle collector and had kids run by
periodically. The particle collector was surrounded by a small 3 foot fence. That is not
realistic exposure replication. In order to replicate a goalies exposure, you would literally
have to kick the tire crumb fly-out into the collector again and again for hours and hours.
Past studies also use simulated body fluids that do not accurately extract all the
chemicals in tire crumb. The Yale study found 12 carcinogens.
http://www.ehhi.org/turf/findings0815.shtml Industry critics claim that Yale used to harsh
an extraction method. But there is no debate that the carcinogens were present. One
can make an argument that prior extraction methods based on simulated body fluids
were not stringent enough.
I am attaching the written testimony of Dr. Wright from the Mount Sinai Children’s
Environmental Health Center.
https://dl.dropboxusercontent.com/u/101177270/CEHC%20RB%205139%20Testimony
%20Feb%2016%202016.pdf
It says it all. In short:
1. "Given the hazards associated with recycled tire rubber, it is our recommendation that
these products never be used as surfaces where children play."
2. "[W]e found significant gaps in the evidence supporting the safety of recycled rubber
turf products."
3. "Children are uniquely vulnerable to harmful exposures from recycled rubber
surfaces."
4. "In the absence of convincing evidence of safety, we recommend that children not
play on recycled rubber surfaces that contain known carcinogens and neurotoxins and
support a ban on the use of these products."

6

I hope the federal government takes the same reasonable position. Even if you do not,
a large portion of the population will continue to act prudently and will avoid using fields
with tire crumb. You might as well act responsibly and protect those that do not have the
fortune to be as educated on the dangers of bioaccumulated toxic exposure.
Heat - 120 degrees
A few comments on heat - I read that the fields would be tested at two temperatures.
One would be at room temperature or average outdoor temp. The other would be at a
higher temperature to mimic a hot day. I hope you paid attention to the temperatures at
the women’s soccer world cup. The temperatures of the turf were not just hot, they were
astonishingly hot. It was measured at 120 degrees! So please measure it at that
temperature. Anything else would be a sham.
https://www.washingtonpost.com/news/early-lead/wp/2015/06/06/the-artificial-turf-atthe-womens-world-cup-was-reportedly-120-degrees-at-kick-off/
Industry MSDS
The Synthetic Turf Council has a MSDS that makes clear there are certain precautions
that their installer should take. They include washing frequently, wearing a respirator,
and wearing eye protection to name a few (see next page). But importantly, this is the
industries own material. How can they be asserting on the one hand that children are
safe to play on tire crumb and then at the same time, warning their installers to take
very deliberate and thorough measures to protect themselves from tire crumb as they
install it?
It is very puzzling to try to understand how this material is safe for players who get the
same if not more exposure than installers. Kids who roll in tire crumb, eat tire crumb,
drink tire crumb in sweat, inhale tire crumb, absorb tire crumb, and grow up on tire
crumb are getting absolutely no warnings like the installers. It is a terrible injustice and
wildly hypocritical.

7

https://www.dropbox.com/s/yvszy6bgtsis39a/STC%20MSDS.pdf?dl=0

8

Why should kids not receive the same warnings when they get even more exposure
than installers? When parents are educated on this seeming hypocrisy, they see right
through industry assertions that the material is safe. If you conclude that tire crumb is
safe as well, you will have to explain why installers receive special warnings about
wearing respirators and washing.

9

There should be signs on every field that provide the same warnings to parents and
players.

These are just some thoughts that hopefully provide some insight as to why you should
categorically conclude that tire crumb is too risky to use where children play. Please do
the right thing and recommend that there be a moratorium on the use of tire crumb on
synthetic turf fields and playgrounds.
Please consider attachments 1 and 2 as a fully incorporated part of this document and
part of my formal comments as well.
Regards,
Jonathan R. Damm
Reston, VA 20191
[email protected]
Vermont Law School, JD, MSEL ‘99

10

Attachment 1

11

12

13

14

15

Attachment 2
Comments on ASTDR 2016-0002-0003
Federal Research Action Plan on
Recycled Tire Crumbs Used on Playing Fields and Playgrounds
Submitted to Federal Register May 2, 2016

SAFE AND HEALTHY PLAYING FIELDS COALITION www.safehealthyplayingfields.org
A grass roots coalition working for healthier alternatives for children and communities

INTRODUCTION
On behalf of the millions of children, parents and athletes who play field sports in the US at schools,
parks, athletic facilities and playgrounds, thank you for agreeing to study the potential harm caused by
playing on or being near athletic fields with surfaces made waste tires. There are more than 12,000 of
these playfields in place (15,000 according to the website of a large company that installs them), and
they are being installed at a rate we estimate to be about 3000 a year. By our calculations, 12,000 fields
currently present 2,380,000 tons or 4,760,000,000 pounds of loose, unencapsulated tire crumb on their
field surface. (See our Table of Runoff and Material Volumes attached.) Tens of thousands of students
and young athletes play on those fields, many more thousands have direct or indirect contact with the
material. It is a public health issue of substantial importance.

The following lists our comments on the proposed study. We argue that the fields present known
carcinogenic, pathogenic, and mutagenic material in a high surface area, pulverized form that is more
toxic than whole tires, and should never have been allowed near children, or adults, because of risk of
ingestion and inhalation exposure to all the ingredients in tires. On warm, sunny days the surface
temperature routinely reaches over 150F, which presents direct, well-known heat injury risks to
children. The heat increases off-gassing of the tire components, increasing the likelihood of pulmonary

16

exposures, and creates a complex dynamic in the children’s exposure zone immediately above a field
that has not been correctly modeled or studied yet. The material lacks uniformity, or any regulatory or
exposure controls. We assert that it is impossible to assure even a single tire crumb field is free of
inhalation and ingestion risk of dangerous particulate and gases inherent in tires, tire crumb, and add-in
composites; and that dangerous and unwanted exposures from lead, benzothiazoles, 12 carcinogens,
phthalates, carbon black and other materials, can happen with every use. The data gaps are enormous,
and we hope CDC/CPSC/EPA will recognize there is no way the tire crumb industry can protect any
player, on any field, from the potential for dangerous exposures with normal use. We argue that not
enough scrutiny was placed on this material.

NOTE: The Safe and Healthy Playing Fields Coalition is a grass roots group of scientists, public health
professionals, toxicologists, neurobiologist, educators, plastics engineers, medical doctors, waste
management and remediation professionals, coaches, researchers, and parents who donate their own
time and skills towards helping communities and individuals assess risks to their communities from tire
crumb field use. We do not have a lobbying firm, law firm, hired laboratory, consultant, or revenuegenerating source (such as tire crumb), and rely solely on the skill of researchers who donate time to
compile our comments. That said, we have found compelling data that refutes almost all claims of
safety, and when we asked for additional time to compile the information, we were given two weeks,
but denied additional time. Hence, we are working at a disadvantage, and hope that during this study
year, we will have time and opportunity to substantiate our concerns, and share our research with the
study officials. One of our comments below explains our requests for a conference or virtual meeting
that allows more disclosure and discussion.

Our comments are listed in numerically and organized into: 1. General Comments, 2. Characterization
and methodology comments; 3.Summary List of requests, and a number of supporting documents are
also submitted as part of our comments.

PART I: GENERAL COMMENTS:

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1. CPSC/CDC/EPA should use their existing authority to immediately reclassify tire crumb
athletic fields as a children’s product, since thousands of fields have been installed in schools
that serve hundreds of thousands of children.

2. We have grave concerns about their safety to human health and the environment, since known
carcinogenic and pathogenic components in the field material yield into both air and water pathways,
and provide ample opportunity for both chronic low dose exposures with every use of the field to
lead, chromium, mercury, zinc, PAH, VOC, carbon black, styrenes, benzothiazoles, and plastics; and
more intermittent, but dangerous high dose exposures from “HOTSPOTS” of component material.
(See comments on Characterization). Each of the fields has material that is known to cause cancer,
illnesses, and injury in humans; and leachate from runoff causes several negative impacts on the aquatic
ecosystems. We believe that the potential for human illness (including several cancers) from both low
dose and high dose exposures to the ingredients in tires is staggering. Basic logic favors our position.
Based on the known potential for exposures to children, and the finding of a group of 200 soccer players
with cancer (the group represents the reach of a single charismatic soccer coach), an immediate
moratorium on new construction of the fields should be put in place with the existing authority of
CDC/CPSC/EPA, until the tire crumb fields can be shown to be safe to inhale and ingest.

3. The tire crumb recycling industry, which appears “green” in its efforts to sell millions of used tires
in “repurposed” shredded form, in fact enables a direct transfer of the contamination burden of waste
tires from landfills/collection sites (in the US and abroad) to the play surfaces of 12,000 schools and
sports centers, where tens of thousands of children and adults have direct contact with the toxins in
tire crumb materials on the field surface, and these exposures could happen with every single contact.

4. For the most part, the schools and sports centers do not have resources to conduct toxicity due
diligence; meaning, they do not have access to a toxicologist who reads the industry studies with their
health as the only priority. Purchasers rely on the tire crumb recycling industry statements, industry
studies, and industry funded websites that claim toxicology assessment and public health guidance. The
sales material can be striking, and the studies appear convincing on the surface, but our study groups
have found significantly misleading information about the safety and actual risk of harm from the tire

18

crumb fields to all users, particularly children. They are likely unaware that claims that the fields are
“SAFE TO INSTALL; SAFE TO PLAY” have been repealed.

5. PEER Filings. Public Employees for Environmental Responsibility have filed a number of complaints
and documents that argue for a repeal of endorsements of tire crumb safety from EPA/CPSC, and those
statements were in fact repealed; but most schools and potential purchasers are unaware of the
removal of endorsements and claims of safety. The PEER filings are an excellent source for telling the
toxicity story and regulatory story of this product. We respectfully request that the entire file of
complaints and responses to the complaints, and other supporting material be entered into the record
for ASTDR 2016-0002-0003.

The full list of documents for the ASTDR 2016-002-0003 collection and record can be found here:
http://www.peer.org/campaigns/public-health/artificial-turf/news-releases.html. Please include all
in that list, and all supporting materials.

6. Formal legal requests have been made to classify the tire crumb fields as a children’s product since
children use them, and sales and marketing material are very clear about tire crumb fields are for
children. CDC/CPSC/EPA should use their existing authority to explicitly label the fields as children’s
products. (Please refer to PEER filings for details and supporting arguments:
http://www.peer.org/campaigns/public-health/artificial-turf/news-releases.html)

7. CLASSIC CANCER CLUSTER APPEARANCE: SOCCER PLAYERS
Parents and schools may have trusted the “Safe to Play” statements, but the parents of the 200 young
women and men, who played intense soccer and were stricken with cancer do not trust those claims
anymore.

The case of over 200 young soccer players who used tire crumb fields and contracted cancer, strongly
indicates a classic cancer cluster, though the cases have not undergone the formal validation process,
not yet. That is because a process for the collection of this information, does not exist yet for either
cancer victims, or for other illnesses, head injuries, and heat injuries/illness from the fields.

19

8. We respectfully request that an official study of the soccer player cancer cluster be initiated by CDC
immediately.

Through our activist network, we learned about these cases, which were reported to the NBC news link,
or directly to a single, trusted concerned soccer coach. EHHI reported as follows:
______________________________________
“New Cancer Numbers Among Soccer Players on Synthetic Turf,
April 2016

It is important to remember that the only people counted in the numbers below are those who have
known to call Amy Griffin. There is still no government agency tracking the cancers among the athletes
who have played on synthetic turf. We know the actual numbers of athletes who have played on
synthetic turf and contracted cancer have to be much greater than those who have known to report
their illness to Amy Griffin.

In January of 2016, there were 159 cancers reported among soccer players; now (April 2016) there are
166. Ninety-seven of those in January were goalkeepers; now there are 102. Sixty-one percent of the
soccer players with cancer are goalkeepers. As of this writing, 220 athletes of various sports who have
played on synthetic turf have cancer; 166 soccer players who have played on synthetic turf also have
cancer.

166 Soccer Players who have played on synthetic turf and have cancer



102 are goalkeepers (61% are goalkeepers)



64 soccer players with lymphomas, 39 are goalkeepers (61%––over half are
goalkeepers)



10 soccer players with Non-Hodgkin lymphoma, 7 are goalkeepers (70%––over half)
20



54 soccer players with Hodgkin lymphoma, 32 are goalkeepers (60%––over half)



41 total leukemias, 24 are goalkeepers (59%––over half)



16 total sarcomas, 7 are goalkeepers (44%)



12 thyroid, 9 are goalkeepers (75%––over half)



11 brain––5 are goalkeepers (45%)



9 testicular––6 are goalkeepers (67%––over half)



4 lung––3 are goalkeepers (almost all are goalkeepers)

Remaining are OTHER rare cancers.”
Source: Various; Victim parent volunteers, EHHI primary collection; 4/2016 (ongoing)
_____________________________________________________________

All the victims were frequent users of turf fields, spending multiple hours a week in close contact with
the material in the fields. All were in their mid-twenties or younger.

9. The self-reporting to a trusted coach, is also an indication that the actual illness rates are not yet
being properly assessed or managed by any hospital, medical system, or group; there is no “home” for
this information, yet. The 200+ cancer victim count is likely the reach of a single coach with the help of
a link in broadcast media, and a fraction of the actual count of victims of cancer or other serious
illnesses. Better investigation and creating a “safe” place to report serious and intermittent illness will
uncover many more victims, and provide needed perspective on the accuracy of risk assessment for this
product.

10. The CDC and appropriate agencies should issue a directive asking for adequate screening for
injury and disease. That US hospital and medical systems are not yet set up to collect this data is a
contributing factor; and concurrently, screening for synthetic field use should be part of a responsible
screening protocol. To our utter dismay, we learned from pediatric oncologists in our group that at least
some oncologist are prohibited from screening victims/patients for tire crumb field use; the screening
must be part of the approved protocol, and tire crumb product is not yet included..

21

11. In fact, the number of all injuries from tire crumb fields should be collected and analyzed to
include, but not be limited to: head injury and concussion; joint injuries (multiple); heat injury; blood
cancer; lymphomas; testicular cancer; pulmonary illness; neurological impairment; kidney disease;
diabetes; brain disease and cancers. These findings need to be documented, and the children who
suffer from them should be screened for tire crumb field use and proximity. No doctor or oncologist
should be prevented from asking questions, screening for, or questioning the safety of this product or
contact with this product. We believe there are many more heat related illnesses, head injuries, and
endocrine system disruptions directly resulting from exposure to the fields than what is being reported.

12. REQUEST MORE INVESTIGATION INTO EXISTING AND POTENTIAL CANCER CLUSTER: We ask that
the multiagency group takes steps to expedite the process of collecting epidemiological data and
verification of the current soccer player cluster, and other potential clusters, to include field
maintenance workers who rake the fields, field installers who pour the millions of pounds of material
onto field surfaces, school custodians, high contact users of any kind, and school children in buildings
adjacent to the fields. Residences near the fields should be considered in the scope of the study or
subsequent studies. In our own informal assessment, and using SEER database and known levels of
cancer victims, we found the potential for 7-11 cancer clusters. We respectfully ask the CDC experts to
look into this possibility and take the necessary steps to prevent additional injury and cancers.

13. NEED FOR EXPLICIT PROTECTION FROM RETRIBUTION: Sadly, the families, coaches, and school
leaders who have reported illnesses do so with concern for retribution from the tire crumb industry,
school boards, university administrations, and even sports league administrators, and may need
explicit protection and remedy against retribution. Researchers who study the potential for harm tell
us that they do not have protection from retribution from tire crumb field industry proponents. Even in
our own group, public health and medical professionals must make statements of concern anonymously
to protect themselves from retribution––professionally and personally from industry proponents.
Adequate protections need to be established to protect the professionals and parents who speak out.

14. PROTECTION FOR CHILDREN IS NOT A COST-BENEFIT ANALYSIS. Children have a unique
vulnerability to toxic exposures––both intermittent high exposures––and to low dose exposures, and if
we are aware of a carcinogenic presence, then we are responsible for using a precautionary principle,
and removing that exposure risk. With due respect, this is not a cost-benefit analysis that will show a

22

percentage of children will get sick (cost) vs. tournaments played or jobs created (benefit). It is a
decision made by a civil society that upholds protection for children’s health above all other industry
priorities, and a recognition that tens of thousands of children, if not hundreds of thousands, are already
being exposed to material with known carcinogenic, and harmful materials on school turf fields.

15. The CDC/CPSC/EPA should recognize that the fields serve children, acknowledge that there are zero
safety controls on the material and the potential exposures, and immediately acknowledge tire crumb
fields as children’s products, and use your existing authority to regulate them as children’s products.
Therefore, we emphatically REQUEST THAT THE CPSC/EPA/CDC USE EXISTING AUTHORITY TO
IMMEDIATELY CLASSIFY ARTIFICIAL TURF AS A CHILDREN’S PRODUCT, SINCE THOUSANDS OF
CHILDREN ALREADY USE THE FIELDS, IN THOUSANDS OF SCHOOLS.

Since children and adults are already being exposed on tire crumb fields to the materials in tires, we ask
for an immediate moratorium on further construction of tire crumb based or recycled rubber based
artificial turf fields until adequate assurances that tire crumb particulate, off-gassing, and combinations
are safe for children to inhale and safe for children to ingest.

Your three agencies do not need to conduct a study to know with absolute certainty that tires were
not designed to be inhaled by children, and we should protect children, at any length, from chronic or
lose dose carcinogenic exposures.

Even if we cannot model or know (or will we ever know) the exposures to each child, each day (and we
will never know), we do know with certainty that:

1. Carcinogens are in tires.
2. Shredded, pulverized tire crumb contains everything in tires, and more ingredients,
including: carbon black, phthalates, VOCs, PAHs, benzothiazoles, lead, chromium, zinc,
nanoparticle additives, proprietary additives, 12 known carcinogens, 90 materials
known to be harmful to human and environmental health, (EHHI)
3. The material can be inhaled when playing and ingested with contact, or intermittent
adjacent contact.

23

4. Every single direct or indirect use has the potential for exposure to hotspots and low
dose chronic exposures to multiple scenarios of these materials.
5. The exposures could impact children, school buildings, and surrounding areas;
contamination travels to cars, homes, and even children’s bedrooms.
6. It is both within the authority and the responsibility of your three agencies to take
immediate action to protect the public, especially children, from known carcinogenic,
pathogenic exposures.
.
Only a complete moratorium on their use will protect the millions of children, athletes and bystanders
from inhalation and ingestion of the materials that yield from tire crumb synthetic turf fields.

16. It is also evident that tire crumb will never be safe unless ALL tire ingredients, all “recipes”, the
manufacturing of tires, and then preparation of materials for fields are controlled from a toxicity
perspective. This level of voluntary cooperation from the tire manufacturing industry will, of course,
never happen.

17. ONLY UNIFORM MATERIAL SAFE TO INHALE AND INGEST IS APPROPRIATE FOR SCHOOL FIELDS ;
UNTIL THEN, A MORATORIUM. When the play surface material is uniform, consistent, and controlled,
when it is tested by an adequate study with pediatric toxicology assessments to be safe for ingestion
and inhalation, and results are peer reviewed following IRB standards, then we may consider a synthetic
turf field might be safe. Until then, tire crumb should be rejected from any casual or unnecessary
contact with children or adults.

18. RECONSIDERATION: A reconsideration of the moratorium could occur when the industry can
demonstrate a uniform, non-carcinogenic, non-inhalable, non-ingestible alternative that does not
present PAH, VOCs, phthalates, lead, chromium, mercury, 1,3-benzothiazoles, butadiene, styrenes,
carbon black (in particulate, gaseous form, or any form to children); and the product undergoes strict,
peer-reviewed study by independent qualified toxicologists who have a mandate to protect children’s
health and the health of the environment above the interests of industry. The hypothetical product
should be subject to regular reviews and quality control determinations to ensure safety over the life of
the synthetic field. Safety Data Sheets should be provided and accessible for every user. If waste tires

24

are used, the controls requested above will never be possible, since the tire material, by definition, is a
composite of many toxins in unknown quantities and with unknown impacts.

PART TWO: CHARACTERIZATION OF TIRE CRUMB COMMENTS

1. SCALE AND SCOPE: Tire crumb potential to individuals, buildings, surrounding areas and stormwater
for contamination is enormous.

2. PUBLIC HEALTH ISSUE: SCALE AND SCOPE CONCEPTS
The potential for contamination from tire crumb is a growing public health issue, in terms of the relative
size of the product and its mass; the total number of potential fields; and their basic contact with
students, athletes, school personnel, buildings, communities, and streams/storm water.

To give an idea of the existing volumes of material, the field runoff and children affected or who may be
affected, we have developed reference tables, and the summary is attached to this filing These tables
indicate the scope and scale, and demonstrate that these are not isolated fields, nor tiny exposure
potentials. The quantities of material are enormous. The source and reasoning is explained, but the
tables are designed for your model development and quick reference.

3. ENORMOUS QUANTITIES ON EACH FIELD SURFACE .
To give an idea of the scale, a modest soccer field uses 30,000 waste tires. According to a randomly
selected company selling packaged tire crumb infill for original or replacement treatments, 30,000 tires
makes about 396,667 pounds of lbs of material. According to our calculations, the volume for 2” thick
field is about 525 cubic yards, However, a large football field, three times the size of a small soccer
field, could use 1,000,000 pounds of tire crumb material.

4. The tires are shredded, pulverized into crumb of various sizes, and the shredded material is poured on
top of a plastic “grass” carpet. Importantly, the material is loose, unencapsulated and can loft into the
air when struck by a ball or foot, or body. We estimate that, depending on the school, each field has

25

regular, daily contact with at least 1000 athletes and students. At sports events, busy tournaments, or
with active use, a field can have contact with many, many more.

5. No fields we found have mandated capture of the leachate or particulate at the field.

6. TOTAL FIELD VOLUMES POTENTIAL:. The universe of potential tire crumb playfields is
approximately 200,000 - 220,000 schools and athletic facilities in the US, based on number of schools.
The potential reach of exposure from use of these fields is in the millions of children, millions of adults,
hundreds of thousands of exposed buildings and adjacent soils, and hundreds of thousands of public
easements and storm water access points (we estimate 1:1 ratio for field to point source drainage).

7. TABLE RUNOFF AND VOLUMES: SUMMARY OF KEY METRICS

For reference, we analysed fields by sport type, by Metropolitan Service Area, and calculated the
volumes for rainfall (by city), and for amount of tire crumb material on a field surface.

Key metrics are the following:



Estimated tire crumb per 85,000 sq feet field and 2” deep tire crumb infill is 525
cubic yards, 396,667 pounds, or 198 tons per field.



The total amount of tire crumb material on surface of 12,000 fields is
estimated to be 6,296,296 cubic yards, or 4,760,000,000 pounds or 2,380,000
tons that are currently in sports centers and schools in April 2016..



Runoff is calculated by city and field size, but the total runoff for fields in the
top 50 MSAs is 15,006,99,787 gallons.

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

Total Runoff for 12,000 fields based on number of fields per MSA, accounting for
rainfall in that MSA, and added together for 2016 is: 23,370,639,827 gallons… for
a single year.

The calculations were made to illustrate the scale and scope of this product, and to characterize the
reach of exposures from the field surface into the airway, and into the water pathway.

8. INGREDIENTS IN TIRE CRUMB: Lack Of Uniformity, High Variation, Multiple Toxins
Tire crumb appears to be a composite material, heterogenous with multiple known carcinogens,
pathogens, and mutagens. The material is not uniform, comes from multiple sources and lots, and can
be mixed with plastics and materials of unknown origin. The material can have anticlumping agents,
flame retardant additives, paint, and strengthening or characteristic enhancing additives. Shredding of
tires can cause small pieces of steel or metals to be included in the material from steel belted tires.
Some tire crumb is from newer depositories from recalled tires, some from landfills, and some have
been subjected to a variety of weather and conditions. Leachate and off gassing could be variable, with
the expectation that newly installed/poured material off-gassing is higher than from an older field, but
we expect those rates would vary with the age of the tires from which the tire crumb was made.

9. HETEROGENEOUS, MULTIPLE TOXINS, UNKNOWN ORIGIN: To say that tire crumb infill comes from
multiple sources, is an understatement: dispensaries, landfills in the US, landfills abroad, collection
centers, factory waste from China, factory waste from the US and abroad. Some of the newer marketed
blends included multi colored sport shoe waste, shoe factory waste, and many unidentified synthetic
materials. Just as tire companies may add anything to their “recipe” for a tire, an infill provider may
offer materials that could have anything added into the blend. Tire plugs, tire polishes, tire coatings, and
materials picked up on the roads should be considered. And even if it is known that there are only tires
in the blend, there is a broad variation in the ingredients based on the use of the tire, and the
manufacturer. Those tires may look the same, but from a toxicity standpoint their variation and the
unknowns in the “recipe” create a margin of uncertainty that makes any claim of known safety for
inhalation or ingestion impossible. If a vendor says he or she knows what is in a lot of tire crumb, and
that is known to be safe, then they ignored the materials in the product. Since we never know what is

27

in any field for sure, and if we know that they have tire crumb, they cannot be demonstrated safe for
children to inhale, ingest, nor play upon.

10. What Is In Tires? SOME GROUPS WENT LOOKING

Since it was difficult from MSDS or any other source to identify the components in tires or tire crumb,
some groups studied them directly.

11. Environment and Human Health Inc, and Yale University Study
EHHI, Inc. in cooperation with Yale University studied samples of rubber mulch, and new tire crumb with
the intent of characterizing their ingredients.
The summary text of their characterization study is found here:
http://www.ehhi.org/turf/metal_analysis2016.shtml
http://www.ehhi.org/turf/findings0815.shtml

The EHHI/Yale Study list of components found is explained this way:

The shredded rubber tire playground mulch samples tested were provided by the manufacturer and
were purchased in new bags of rubber mulch for use in gardens and playgrounds. The rubber tire infill
for synthetic turf fields was obtained as new infill material from installers of synthetic turf fields. There
were 5 samples of infill from 5 different installers of fields and 9 different samples of rubber mulch
taken from 9 different unopened bags of playground mulch.

RESULTS
There were 96 chemicals found in 14 samples analyzed. Half of those chemicals had no
government testing on them - so we have no idea whether they are safe or harmful to health. Of

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those chemicals found that have had some government testing done on them these are the findings
with their health effects.

TWELVE (12) KNOWN CARCINOGENS
2-Mercaptobenzothiazole/ Carcinogen, toxic to aquatic life
9,10-Dimethylanthracene/ Carcinogen, respiratory irritant and can cause asthma
Bis(2-ethylhexyl) phthalate/ Carcinogen, may cause damage to fetuses
Fluoranthene / Carcinogen, Fluoranthene is one of the US EPA's 16 priority pollutant, A PAH.
Heptadecane/ Carcinogen
2-mercaptobenzothiazole / Carcinogen
Phenol, 4-(1,1,3,3-tetramethylbutyl)/Carcinogen
Phenanthrene/ Carcinogen - A PAH
Phthalimide/ Carcinogen, skin, eye and lung irritan. A Fungicide
Pyrene, 1-methyl- /Carcinogen
Tetratriacontane /Carcinogen, eye and skin irritant. Can cause systemic damage to central nervous
system.
Pyrene/ Carcinogen, toxic to liver and Kidneys, a PAH
Carbon Black/ Carcinogen
Carbon Black makes up to 20% to 30 % of every tire. It is used as a
reinforcing filler. Carbon Black is listed as a carcinogen by the International Agency for Research on
Cancer (IARC).

Carbon Black, as such, was not analyzed by the Yale Study because Carbon Black is made up of a

29

number of chemicals – some of which were found in the Yale study.
Carbon Black is not one chemical -- it is made up of many chemicals - often of petroleum products.
Furthermore, carbon black has no fixed composition, even of the many compounds it contains. Carbon
black from different sources will have
differing compositions. In our method, carbon black will register as
a series of substances extracted from it. There is no carbon black
molecule, it is a mixture.

TWENTY (20) KNOWN IRRITANTS

1,4-Benzenediamine, N-(1,3-dimethylbutyl)-N'-phenylIrritant - causes skin and eye irritation, toxic to aquatic life
1,4-Benzenediamine, N-(1-methylethyl)-N'-phenylIrritant - causes skin and eye irritation, toxic to aquatic life
2(3H)-Benzothiazolone
Irritant - causes skin and lung irritantation
2-Dodecen-1-yl(-)succinic anhydride
Irritant - causes eyes, skin and lungs irritation
3,5-di-tert-Butyl-4-hydroxybenzaldehyde
Irritant - causes irritation to eyes, skin and lungs.
Anthracene
Irritant - causes skin, eye and respiratory irritation. Breathing it can irritate the nose, throat and lungs
causing coughing and wheezing.

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Benzenamine, 4-octyl-N-(4-octylphenyl)Irritant - causes eye and skin irritation
Benzenesulfonanilide
Considered hazardous, very little testing has been done on it.
Benzothiazole, 2-(methylthio)Irritant - causes Skin and eye irritation.
Dehydroabietic acid
Toxic to aquatic organisms
Docosane
Irritant - causes Skin irritation
Hexadecanoic acid, butyl ester
Irritant - causes eye, skin and lung irritant. Can cause reproductive effects.
Methyl stearate
Irritant - causes eye, skin and lung irritation.
Octadecane
Irritant - causes kin, eye and respiratory irritation
Octadecanoic acid also known as Stearic acid
Irritant - causes skin, eye and respiratory irritation
Oleic Acid
Irritant - causes skin and eye irritation
Phenol, 2,2'-methylenebis[6-(1,1-dimethylethyl)-4-ethylIrritant - causes skin, eye and respiratory irritation

31

Tetradecanoic acid
Toxic to aquatic organisms. Skin and eye irritant.

Anthracene, 2-methyl-

Acute aquatic toxicity, Not much data available - what there is shows it to be an eye, skin and lung
irritant

Anthracene, 9-methylAcute aquatic toxicity, serious eye irritant

13. Carbon Black

Carbon black plays an extraordinary role in tires, and in their toxicity and potential for harm from
exposures. Well known from decades of air pollution studies, urban epidemiological studies, carbon
black causes lung cancer, brain cancer, kidney cancer, heart disease, neurological disorders, and
cognitive degenerative disease.

A known carcinogen (WHO), we have found variations in percentages of the amount of carbon black in
a tire, from 30%-68%. (EHHI/Yale Study; NY STUDY, .pdf, pp19-20.) Carbon black breaks down into many
sized particles, including PM10/PM2.5. That size particle was shown to cause several types of cancer,
including brain cancer, kidney cancer, kidney disease, bladder cancer, and neurological disease and
cognitive impairment disorders. (CITE; Harvard Mexico Studies and Urban Cohort Studies) We know for
sure that carbon black is in tires, in part from simple observation of color.

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14. THE NY STUDY CHARACTERIZES TIRE CRUMB THIS WAY:
“The components of Firestone’s and Dow Chemical Company’s rubber are summarized in technical
specification documents. Although they are only two of many different rubber manufacturers, a
similarity between the two vendors is readily apparent, even between three different types of rubber,
solution-SBR, cold polymerized emulsion SBR, and high cis2-4 polybutadiene rubber. In general, the
following similarities were observed between the two manufacturers for the compounds used to
produce the rubber:

• The polymer used to produce solution-SBR contained approximately 18-40% bound styrene.

• The oil content in the polymer ranged from 27.3-32.5% in solution-SBR and cold polymerized emulsion
SBR. Oils used include aromatic oil, high viscosity naphthenic oil, and treated distillate aromatic extract
oil.

• Besides the polymer used, the other components of the rubber were similar between manufacturers
and the relative proportions (parts by weight) of these other components ranged as follows:

o Carbon black: 50.00 – 68.75
o Zinc oxide: 3.00
o Stearic acid: 1.00 – 2.00
o Sulfur: 1.5 – 1.75
o N-tert-butyl benzothiazole sulfonamide (TBBS): 0.9 – 1.50
o Naphthenic or aromatic oil: 5.00 – 15.0

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The components summarized above are the principal components of the major type of rubber (SBR)
used for the manufacturing of crumb rubber and therefore have the potential to have a significant
presence in crumb rubber. As discussed in subsequent sections of this report, some of these
components have been found to be prevalent in crumb rubber, including zinc (from the zinc oxide),
benzothiazole compounds (from TBBS), and PAHs (possibly from the oils used). These compounds may
be attributed to the SBR used in the manufacturing of crumb rubber.”

15. Phthalates are a regulated toxin, and PEER filings covered some of the toxicity and regulatory
discussion. Please refer to http://www.peer.org/campaigns/public-health/artificial-turf/newsreleases.html

16. ZINC

Coastal Marine Resource Center Study, found fatal levels of zinc in leachate from tire crumb fields. This
amount would cause fatal impacts to aquatic ecosystem within 48 hours. This is a notable amount, and
though was assessed in terms of environmental health, indicates presence.

Menichini and Abate Study: “Zn concentrations (1 to 19 g/kg) and BaP concentrations (0.02 to 11 mg/kg)
in granulates largely exceeded the pertinent standards, up to two orders of magnitude”. “Zinc and BaP
concentrations are high in rubber largely exceeding the Italian soil standards”.

17. METALS: MERCURY, CHROMIUM, ARSENIC

The highest median values were found for Zn (10,229 mg/kg), Al (755 mg/kg), Mg (456 mg/kg), Fe
(305 mg/kg), followed by Pb, Ba, Co, Cu and Sr. The other elements were present at few units of mg/kg.
The highest leaching was observed for Zn (2300 μg/l) and Mg (2500 μg/l), followed by Fe, Sr, Al, Mn and

34

Ba. Little As, Cd, Co, Cr, Cu, Li, Mo, Ni, Pb, Rb, Sb and V leached, and Be, Hg, Se, Sn, Tl and W were below
quantification limits. Data obtained were compared with the maximum tolerable amounts reported for
similar materials, and only the concentration of Zn (total and leached) exceeded the expected values.

18. LEAD, POLITICS and CHILDREN

The problem is synthetic turf is NOT REGULATED as a children's product by the CPSC thwarting the
ability to apply lead regulations that CPSC could enforce.

Lead was identified in synthetic turf fields as early as 2008 but was not addressed in any systemic way
due to lack of standards or required testing (although the CPSC could have required the testing
mandated for children's products since 2008). The CPSC has chosen not to mandate this children's
product testing for synturf and in fact advised the industry about not having it designated as a children's
product < http://parentscoalitionmc.blogspot.com/2009/03/artificial-turf-tale-of-lead-levels.html> .

This has led to a "buyer beware" situation especially after the CPSC tested synthetic turf carpets, found
lead at varying levels depending on sample age, and astoundingly concluded the whole synthetic turf
system was, always and everywhere, safe not just for adults but for children. The assumptions were
based on inappropriate modelling for blood lead levels from a meager sampling and the troubling
finding presupposes that there is, a safe level of blood lead, which most pediatricians and lead experts
agree there is not safe level.

To this day the synthetic turf industry cites the still CPSC-posted "OK to Install, OK to Play on" press
release which should never have been posted to begin with, has been disavowed, in front of US
Congress, by CPSC commissioner Kaye and is an embarrassment to government science, policy and
public health 

35

19. By contrast, The Centers for Disease Control (CDC) in contrast warned and continues to warn the "
there is no safe level of lead" to expose children.

http://www.cdc.gov/nceh/lead/>

http://www.cdc.gov/nceh/information/healthy_homes_lead.htm.
“No safe blood lead level in children has been identified. Lead exposure can affect nearly every system
in the body. Because lead exposure often occurs with no obvious symptoms, it frequently goes
unrecognized"

In 2010 Van Ulirsch et al ( Environ Health Perspect. 2010 Oct;118(10):13459 

22. And for the past 2 years the company FieldTurf has, with impunity, noted its synturf fields contain
lead during testimony on various bills in the Maryland State House.

The latest admission documented on video: 

"....asked point-blank by one delegate, “Is there lead in your products? The executive
answered, “There’s lead in a lot of things in this world.”.... “Yes, there’s lead in our
products." In spite of this admission and the fact that the legislation in question was
meant to post the CDC prescribed warnings about minimizing lead and other toxin
exposures from the synturf and tire waste products, and in spite of the fact that the
legislation had strong and broad input and support, the legislation was not even allowed
to come up for a vote in committee by the committee chair.

23. Public Employees for Environmental Responsibility compiled the literature as of early 2012 on
lead
see:  and
specifically: 2012-07-12_lead-limits-needed-on-tire-crumb-playgrounds (NOTE if you go to PEER.ORG
news releases: click on public health and "artificial turf" to find the actual filings with many links}

37

Unfortunately for the children, fields with high lead remain. But those responsible for protecting
children are kept in the dark. NO ONE IS MONITORING OR REGULATING ARTIFICIAL TURF FOR LEAD OR
OTHER TOXINS in either old or new fields, including the Consumer Product Safety Commission (CPSC)
(see 
For example as reported in that article:

Dr. Shalat's New Jersey State Study (2012) on artificial turf found lead in the field dust in the respirable

38

air space of a robot and real player- highly variable but sometimes very high (note most facilities would
NOT LET THEM TEST).

 2014
" Bio-accessibility and Risk of Exposure to Metals and SVOCs in Artificial Turf Field Fill Materials and
Fibers" , Brian T. Pavilonis1,Clifford P. Weisel1, Brian Buckley1, and Paul J. Lioy1

QUOTE from Pavilonis et al:."Since it is possible that children may be exposed to potentially high
concentrations of lead while using artificial turf fields we recommend, at a minimum, all infill and

39

fibers should be certified for low or no lead content prior to purchase and installation."

*The main out-comes of concern from Pavilonis et al:

a) the finding of lead, and chromium in both the tire crumb and the plastic rug and
simulated body fluids at sometimes extremely high levels *EVEN IN NEW FIELD
CARPETS.*

b) Benzothiazole derivatives and 4-(tert-octyl) phenol were also found in in the
simulated body fluids. Both are probable carcinogens (the subject of another fact sheet).

QUOTE: "Lead was detected in almost all field samples for digestive, sweat, and total
extraction fluids with digestive fluid extract of one field sample as high as 260 mg/kg.
Metal concentrations were not markedly different across the three different sample
types (new infill, new turf fiber, tire crumb field sample). However, one of the *new*
turf fiber samples contained relatively large concentrations of chromium (820 mg/kg)
and lead (4400 mg/kg) compared to the other samples tested…the variability of lead
contained in the infill material is large and can span more than two orders of
magnitude* . One field [tire crumb] sample did contain a high lead level (260 mg/kg)
which was on the same order of magnitude as the NJ DEP cleanup value (400 mg/kg).”

In summary: Lead-free is the only acceptable level for child products (and indeed for
people in general). There is NO safe level of lead for children. And yet many of our
children are playing often, if not daily, on fields that may contain lead and certainly do
contain many other toxic substances. Finding ANY lead in any play area for children of
any age is unacceptable. As the CDC notes: Every effort should be made to eliminate ALL
unnecessary sources of lead in the environment, especially a child's environment. *Lead
in artificial turf is not only totally unnecessary but dangerous to health AT ANY
LEVEL*.
40

28. Other sources of information on Lead in tire crumb fields:

www.ehhi.org/turf/
www.safehealthyplayingfields.org
www.synturf.org

[FOOTNOTE SYN TURF]Where on the Synturf page on lead you can find:
No. 36] Mayo Clinics tips to protect children from lead in artificial turf. April 2015.
No. 35] Durham, New Hampshire: Lead scare at UNH, s Memorial Field. November 2012.
No. 34] Beware of lead content in exotic color artificial turf fields! September 2012.
No. 33] Odessa, Texas: Eager fans will not be given pieces of the artificial turf field. September 2012.
No. 32] U.S. Federal panel increases child protection against lead. February 2012.
No. 31] UNLV researcher spreads word about the need to test artificial turf fields. December 2010.
No. 30] Environmental Health Sciences study (2010): Deteriorating synthetic turf dust containing lead
may pose a risk to children. October 2010.
No. 29] Concord, Mass.: Town replaces fake grass fields, officials insist nothing is wrong with the lead
levels! July 2012

28. TWELVE (12) CARCINOGENS found and HOW DO THEY INTERACT:
The Yale Study identified the presence of so many carcinogenic materials in a single material that it
raises many more questions about interaction of PAHs with metals, and combination impacts. The

41

interaction of the PAHs and benzothiazoles with other materials in the fields needs to be characterized
and addressed

29. Strengthening Additives: Nanoparticles
We would also ask for information and clarity about tire strengthening additives of any kind that were
built into the material anytime in the past 30 years, these would have been added to tires.
[http://nice.asu.edu/nano/carbon-black-and-amorphous-silica-tires]

Similarly, we request that the tire manufacturing industry explain their use of nanoparticle products, of
any kind, including the type and size, source company and source country, and ask for an explanation
about how:

a. they can be quantified in the product, and
b. how can they be cleaned up if they are released when the tire crumb and or
plastic “grass” carpet degrades?
c. We would also like to understand what material characterization of their
behavior in tires performance,
d. And or their behavior once they are released into the environment.
e. We ask for any epidemiological due diligence that was conducted by any tire
company on nanoparticle use prior to using them in a commercial product.
f. Plans for continued use and safety precautions tire companies will impose upon
themselves
g. Epidemiological studies conducted on these particles in tires

30. Plastics, Microplastic Fibers, Microbeads, and Small Particulate Plastics

Assessment of microfiber particulate and small particulate plastics needs to be assessed in
characterization studies.

42

31. Flame Retardants

Flame retardants can be added to a tire in production, or applied post production in a shipping setting or
possibly as tire crumb. Since flame retardants are known carcinogens with health issues of concern, and
will be on the surface of the waste tire crumb, tire infill providers need to know if they are present, and
purchasers need to know that the material contains flame retardants prior to purchase.

32. Tires and Tire Crumb Additives
Myriad products exist to clean, protect, condition, and color tires. We wonder if they are components
of tire crumb?

33. Road Waste Picked Up By Tires
Tires spend their lives on roadways, of course, and can pick up many materials in their travels. Debris,
hydrocarbons, ….

34 CARINOGENIC, PATHOGENIC, and MUTAGENIC ingredients in tires cannot be removed by
shredding tires into tire crumb and must be assumed to be accessible.

35. Tire crumb and repurposed rubber appear to be the same thing, with interchangeable use… but
are they the same? We would like clarification.

We would like clarification about the distinction between the tire crumb, repurposed crumb rubber,
and crumb rubber. Specifically if using the term “repurposed rubber crumb” implies uniformity of
ingredients? Does that term imply tires are not used? If so, what are the ingredients in repurposed
rubber crumb and how do they differ from tire crumb?

43

36. We would also like access to all MSDS/SDS of tire crumb manufacturers and tire companies, and
the ability to ask questions about how and where they were made, variations on lots, source and
composite addendums. It is difficult to locate them.

37. EXEMPTION ON LISTING HAZARDOUS MATERIALS: We would like to understand why tire
companies have an exemption on their need to list ingredients under Section 2: Hazardous Materials of
an MSDS/SDS. We were unable to find the source of that exemption, if it has a deadline, and whether
your study group thinks it is an obstacle to understanding and characterizing risk of exposure from tires
and tire crumb.

38. Of those MSDS that we located, several, like this Michelin North America Material Safety Data Sheet
for Michelin, Uniroyal, BF Goodrich, says in “Section 2 HAZARDOUS INGREDIENTS: Note: Tires meet
the definition of article as defined by the OSHA Hazard Communication Standard (29 CFR 1910.1200)
and are exempt from MSDS requirements.”

There was clearly no mention of 1,3 butadiene, carbon black, POHs, VOCs, benzothiazoles, or any
plasticizers, nor metals, styrene, sulphur, known irritants, or well… anything. Since that section also
outlines corrosive, combustible and waste treatment, it is important for more than this issue. We
explicitly ask CDC/CPSC/EPA if they can use their existing authority to require tire crumb companies and
tire companies to provide ingredient information.

39. SOURCE MATERIAL UNKNOWN: MSDS/SDS CANNOT REPRESENT WHOLE FIELD. Tire crumb comes
from many tires, and many sources. Since not a single tire crumb field can accurately list or track which
tires were source materials, or what other mixed in components, and there is no accountability from
tire crumb recycling industry for the shredded product, then MSDS/SDS cannot be accurate for a whole
field due to variability. Therefore, the burden of “proof” of risk lays squarely on the ability of the
purchaser (schools, sports directors, booster clubs) to assess risk… of a very very complex product. So,

44

if the exemption stays in place, we will know for sure that we cannot know what is in a tire crumb based
field.

40. TREATMENT TO SHOW NO PARTICULATE OR BREAKDOWN: SHOW US.
As for studies that claim that their product has been treated (such as cryogenic treatment) to not break
down into dangerous particulate, we are deeply skeptical, and would ask for proof. We also ask for
assay testing over a period of at least several summer weeks. We ask for the researchers to simulate the
pounding over 10 years and assess the particulate characteristics and particle size. That testing in fact is
being done right now… in thousands of children across the country. Simple observation on a player
body, on the sideline benches, or under a microscope shows consistent breakdown into particulate.

41. SHREDDED, PULVERIZED, HIGH SURFACE AREA FORM OF TIRES and ADD INS is LIKELY MORE TOXIC
THAN WHOLE TIRES.
Unfortunately, because it is shredded, pulverized, and in loose and unencapsulated form, tire crumb has
exponentially more surface area than whole tires (Thomas, Gupta study; ) and we are concerned the
material is very likely more toxic––possibly many times more toxic––in the school field form than whole
tire form, since the increased surface area provides more opportunity for molecules to escape. We
know for sure that the increased amount of surface area in tire crumb makes the material in tire crumb
more available to the breathing and exposure zones, and to runoff.

42. CRUMB IS SURROUNDED BY DUST PARTICULATE:
Accurate characterization technique must include a study of the particulate that surrounds tire
crumbs, and steps must be taken to make sure that the sampling process does not inadvertently
remove that dust and particles. We found several examples of the samples being washed, some in
unbuffered water, prior to their analyses being done. Of course, that removes the particulate that
concerns us the most. Distribution of the particulate size and type is important. Those particulate
can become aerosolized by numerous gases and we ask that attempts are made to properly model
this dynamic under high heat conditions, primarily.

45

46

47

43. VERY COMPLEX PICTURE From TOXICOLOGY PERSPECTIVE: Tire crumb material is complex from a
toxicology perspective, largely due to the chemical complexity presented by multiple known toxic
components and variation. It has been described as a “toxic soup” of ingredients for which we have no
consistent data on proportions or levels. Characterization of ingredients’ margin of error is unknown..

Testing must be done at the field levels using accepted sampling plans that have been statistically
shown to be valid. Not fields have been tested in sufficient detail to determine or rule out any
exposures or risks. A look at testing protocols for lead in urban soil sites illustrate the level of
attention required and show the degree that current testing has fallen short of that needed for
decision making for children’s health.
44. CONTACT PATTERNS, FIELD USE and ADJACENT BUILDING CONTAMINATION
Exposure is likely determined by ingredients in surface, activity, and number of children or users on
field. Each school or community field has high use and high contact patterns, such as hosting contact
sports, like football, lacrosse, soccer, and baseball, athletic camps, workshops and practices. In those
sports, children dive into the field materials. As a child runs or skids or slide tackles, a column of
material rises up, as does the dust and particulate that surround the tire crumbs themselves.

Testing for exposure need to list weather conditions including humidity, wind speed, and
precipitation, temperature on field surface and ambient air temperature. Number of children on
field, and activity level of that play needs to be recorded, video would be most interesting.

Children of all ages use the fields for multiple sports, recreation and school events. Artificial turf tire
crumb fields abound in elementary schools and at indoor and outdoor sports centers where children of
all ages and all stages of development play soccer, lacrosse, football, track, cheerleading, band, and use
the field for general recreational school activities. In the fields with which we are familiar, families with
members of all ages use the fields; and the community holds events, picnics, special fairs, and activities.
Some fields are immediately adjacent to a school building.). That there are many uses, and probably
many levels of contact and exposure is an important part of characterizing exposures, but both low dose
exposures AND high contact exposure scenarios and use need to be examined, with appropriate
epidemiological process.

48

45.. SCHOOL BUILDINGS AND SURROUNDING AREAS ARE CONTAMINATED with a great deal of tire
crumbs. The fields appear to lose from 1-30 tons of material over their 8-10 year life, and some of it
goes directly into buildings, cars, and then homes. This impact needs to be studied as an inadvertent
consequence.

46. CANNOT ARGUE NO INHALATION OR INGESTION RISK or SAFETY FOR EVEN A SINGLE FIELD. We
argue that given the unique characteristic of nonuniformity, known carcinogenic materials, breakdown
into particulate/dust, no known source of origin, and no accurate studies on complex interactivity of
those components in the children’s exposure zone, in the tire crumb as it is installed today in 12, 000
fields, not a single field installer, nor material provider can demonstrate that the material is safe from
inhalation and ingestion during normal use, active use, and on hot days.

47. EVERY USE COULD POSE A TOXIC EXPOSURE and it would be irrational to argue otherwise. We
argue that due to the high variability of toxins in the tire crumb substrate (from tires, unknown
additives, and factory waste add-ins), and lack of any control of the material, well-known sampling
techniques will NOT accurately predict risks to human health.

48. CHILDREN CANNOT AVOID THE EXPOSURES: Since school children cannot self-advocate and take
responsibility for staying off a field if directed to be there by coaches or school officials or parents, we
must assume that children cannot avoid the exposures when they play on those fields.

49. CANNOT CLAIM THAT EXPOSURES WILL NOT OCCUR. Absolutely no way to responsibly claim that
ingestion and inhalation of particulate from the material will NOT occur to those children.

50. HOTSPOTS of intermittent dangerous exposures are possible, and should be expected and
searched for in every field.

We must assume that tires have different “recipes” based on their type of use. Therefore, knowing the
type of tire used in tire crumb, and each tire “recipe” would be helpful in assessing characterization of

49

ingredients. However, there is no way to ever know what tires, or what material is in any field, and
therefore, an MSDS/SDS cannot be representative of any field, or even any meaningful part of a field.
Alarmingly, the high variability in the ingredients presents worrisome “hotspots” potential, where the
hotspots might be missed in sampling but even a single exposure could have very serious impacts for a
child who has the unfortunate luck to dive into that hotspot. PAH’s may be more prevalent, and
present dangerous levels for installation period of the field, and for some unknown period of time
afterwards, and considered a “hotspot”, then the consistent release of PAHs in the subsequent years
could mean low dose, chronic exposures. Both need to be examined.

51. Lead, chromium, mercury and arsenic could be hotspot sources, based on which tires were used,
and how they were treated prior to being placed in the field.

52. For example, when we asked about the source of lead in tire crumb fields, an infill vendor explained
to us that a) lead could be in any field as an ingredient of the tires, of the treatment of tires, and b) once,
they were aware of a shipment of tires that was treated with an anticlumping material that contained
lead and the whole lot had lead, and c) that some lots had flame retardants added as well. They would
never really know, but “most purchasers never ask”, according to the infill material vendor. If an MSDS
was required, an additional charge was to be imposed, since MSDS were not available from the
materials they acquired from China or other countries. We have collected many more examples of the
worrisome unknown ingredients in our fields and can share with the study teams, if requested. While
this information is anecdotal, that is the point: we have no idea what is in any field, for sure.

53. Another example, but this is not anecdotal: in a primary study field exposures in CT, a researcher
found that the children’s monitors showed benzene. Since there is no safe level of exposure for
benzene, and in fact, tires are not expected to have benzene, the field was sampled more closely, until
that “hotspot” was located. The original source of that benzene was not determined, but it was next to
a busy parking lot where cars’ exhaust may have been a source as they turned the corner, or possibly
the tire crumb material had been previously stored in an area with benzene in surrounding
environment, or perhaps it was picked up from contact on roads. We will never know. That finding
suggests that the carbon black in the tires can adsorb additional toxins present near tires or tire crumb,
and could release that material as the fields are pounded with running feet, or possibly on a hot day.

50

The proper characterization of this material needs to account for adsorption characteristics of carbon
black, and other interactions

54. The point is, that it is impossible to locate hotspots for all toxins in every field, and incorrect to
extrapolate the risk for a whole field from a single sample or even multiple samples, since every
sample is unique. So, while hotspots can easily be missed in a field, the unfortunate child that dives
into that particular part of a field has an exposure that can actually be life threatening, but missed in
its entirety in the sampling based risk assessment.

55. In fact, since the tire crumb creates multi sized “dust” particles, and off gases, it is impossible to
prove that even a single field is safe from inhalation or ingestion exposures from tire dust particulate,
off-gassing components, multiple toxins and combinations of toxins, and heat.

56. Importance of the Heat Factor: Source of direct injury and chemical catalyst

HOT HOT HOT HOT EXTREMELY HOT FIELDS
Grass playfields remain close to the temperature of ambient air, and are often much cooler. Asphalt
playgrounds used to have a use limit of 141F and many schools remove children from playgrounds
when temperatures get hot. With tire crumb based turf fields, surface temperatures can soar on even
mild sunny days.

Tire crumb fields “superheat” to levels that are routinely over 150F on a sunny spring day, and in a
recent study conducted on a sunny day Utah, found to be close to boiling point, 190F, according to the
Penn State Field Turf Heat Study. The study found that tire crumb field surfaces are hotter than ambient
air, and increase in heat in a non-linear function with each additional degree Kelvin of heat, hence the
designation “superheating”. To draw an example, on a Labor Day Weekend in DC area, with ambient
temps of 82F, the field surface temperature hit 164F by noon on several fields used in a busy,
tournament for about 1000 children, both boys and girls, ages 8-15. Those levels are known to melt
plastic cleats, require tubs of water on the sidelines to cool down shoes, and create heat-related injury

51

including heat stroke, nausea, heat exhaustion, and dehydration in children and all users. It is not
unusual for children players to vomit, faint, and suffer dehydration from hot conditions on the fields.

57. Marketing and sales for these fields tout their usability in all conditions as a benefit (more practice
and play hours), but in fact, the heat build up on fields makes them very uncomfortable during many
days and conditions. In DC, there are over 100 days of sunshine each year, and most are during the
spring, summer and fall, making the fields uncomfortably hot and possibly dangerously hot for a third of
a year. A calculus should be made on the percentage of safe days to play based on field yield risk, and
heat.

58. Tire crumb fields do not have any protection from heat, and so they are irrigated to be cooled
down, but the effect is temporary.

59. To our knowledge, there has been no well known place for doctors nor parents to report heat
injury, though they are commonplace. (This author specifically remembers a hot, poor air quality day in
August in 2014 in Washington DC when during a single practice, 4 soccer players vomited, another child
was taken to the hospital after passing out, and another sidelined himself against the coach’s wishes,
due to extreme dizziness and nausea.)

60. Reluctance to Report? Yet, it is curiously uncommon for school teachers, coaches and parents to
remove the children from the fields, due to temperature. We cannot explain that in rational terms.

We have also noted another curious effect: as football, soccer and lacrosse increase in popularity and
competition in the US, competition for spots on high performance teams is fierce. There is a perception
from strong sales and marketing of the fields, that the turf fields present a competitive edge for a
school, a club or even a teenager trying to get into college, and are worth the high price paid. As
psychologist Dr. Wendy Miller, explains, “ it is a culture where high performance parents, players and
schools might be willing to overlook these injuries, thinking that to complain would jeopardize their
child’s access to a competitive team. This thinking could easily lead to the silencing of reporting of
injuries.”

52

Heat injury reporting needs to be included in the survey questionnaires, and victims of heat injury and
illnesses need to have a place to report, with impunity.

61. HEAT MAKES THE CHEMICAL DYNAMICS ABOVE A FIELD VERY COMPLEX
In addition to the serious issue of direct injury from hot playfields to young children, or anyone, the
super hot fields present a very challenging chemical situation.
Dr. David Brown, ShD, toxicologist, professor and former Deputy Director of Public Health Practice
Group at ATSDR/ CDC explains that, “the unintended, and largely unstudied chemical consequences of
what comes off such an enormous quantity of high surface area material, in amounts and sequence that
is scientifically accurate is very difficult to predict and model. Since the chemicals in the area above the
field could change instantaneously, the conditions are critically important (number of players,
temperature, time from last rainfall, etc.), as is the sampling methodology. But no one has been able to
come close to modeling the actual yield, we only know the materials by characterization with samples,
and that variation in samples is so broad as to almost be meaningless, since it could be easy to miss
harmful exposures.”

62. Analyzing the field yield on a hot day is very complex, and challenging to even trained toxicologists.
The superheating of the fields makes gases yield at faster rates as temperatures on the tire crumb
surface increases. So, as a day heats up, it is very likely that the yield increases directly with temperature
increase; a hot day creates more gases. Based on well understood scientific laws, we presume that the
gas yield from the field at surface temperature of 50F (a cloudy day in January in DC) would be
considerably less than a field surface temperature of 158F measured last week. If more gases are
escaping the surface, then there are more “opportunities” for particulate to adsorb onto the surface of
the gases, creating very dynamic series of compounds, none of which would be recommended to
inhale.. The changes in the chemical composition over the fields as their temperatures rise is very
difficult to test and model. These changes happen in an instant… as a threshold is reached… and the
exposures can increase sharply. It is a very sophisticated and difficult challenge to model. But what is the
most important is not only that the 24 gases that escape tire crumb (Norway Study) create dangerous
mixtures but those gas/particulate mixtures, (and air) create a vector for deep lung exposures of all the

53

materials in the tire crumb field. So, on poor air quality days, when there are many children on the field
and a lot of stirring up of the material, the fields could present enormous risk.

63. We are concerned about the range of yield levels, but, we are most concerned about the
intermittent risk to children during those hot periods (a hot, poor air quality summer day during
children’s soccer camp week in Washington DC, for example) when the fields are likely yielding more
gas, and therefore particulate has more “carriage” into lungs, respiration rates are higher, skin is
exposed, and perspiration is highest. All these are likely factors in exposure. It is during those days when
exposures are probably highest, and high enough overwhelm a developing immune system.

64. Exposure Study Needs To Focus On Worst Case Conditions
We acknowledge that the level of yield from the fields might vary widely with material variation, and will
also vary with outdoor weather (temperature, wind, humidity and sun) conditions. Taking averages from
fields across the country will be meaningless, and will only help the industry to expand its message of
“found no harm”. An analogy might be to determine the health of a forest taking 4 samples from 40
locations, evenly spaced, but the sampling might easily miss a blazing forest fire. That one day might
destroy living material exponentially, but it could easily be missed. Dangerous exposures can be
unpredictable in this material due to the scope and scale, the toxic character, and the superheating
characteristic.

65. A better approach is to carefully detect high yield days, and look THAT DAY for exposures in a
child’s body during those periods. Since the exposures might attenuate, the work would have to be
done expeditiously. The harmful exposures may or may not be detectable a day or a month later in a
child. Monitor both genders, for patterns that might lead to that awful air quality soccer camp in the
city on a tire crumb field, on days when vomiting and melting shoes are commonplace. A focus on the
impacts from the high end of those yields we believe will present exposures that are clearly, and
unequivocally harmful from both heat injury perspective and toxicity exposure potential. We do not
know for sure if the carcinogenic exposures from low dose regular exposures or from high dose “events”
are more dangerous, but both need to be studied as separate situations, not as an average.

54

66. We urge your team to focus the study resources on primary measurements made in high use
scenarios on hot days, and refrain from the approach used in earlier studies that look at chemical
compositions during winter or rain conditions on limited number of fields.

67. The only reliable way to assess the risk to children from a particular field, or groups of fields, is to
look at their direct exposures, and importantly look at bloodlevels of the known substances.
Cooperation from both high use athletes and those exposed to chronic levels of materials will be
important.

68. The Study Needs To Focus Also On Low Dose Exposure Risks
Trained immunotoxicologists look at the impacts of chronic low dose exposures to metals, PAHs, VOCs
and many other materials in tire crumb. Their input is crucial to understanding risk of exposure in a
developing child.

69. Characterization Mistakes
Studies look convincing, but miss the forest for the trees.
Tire recycling and tire crumb industry reports are quick to point out that when they find harmful
materials in their samples, they are under the known safety limits. There are two interesting fallacies in
that reasoning.

First, since the samples in several studies are few and not uniform, they fail to acknowledge the
statistical significance of finding known regulated toxic material in 2 million pounds of powdered tires…
if one finds the needle, is it luck, or is it because needles are more prevalent than expected?

Proof of presence is meaningful! For example, in the NY Study, PAHs were found, as were metals,
benzothiazoles, and many substances. Their presence indicates a risk.

In a child’s product, since many materials are not known how they affect children, just knowing they are
there is enough to use a precautionary principle and prevent the exposure. Arguing that the materials

55

appear under a limit (especially if that quantity is an average of multiple samples), or there is no
established limit (because it has not been studied), are not as meaningful as the proof of their presence.

Second, though the conclusions of the industry reports may be of no harm found/safety, a close look at
the data itself on PAHs, lead, cobalt, chromium, etc. is useful, since a) it proves presence, and b) at
levels that suggest risk for chronic exposure. Chronic exposure risk is the subject of a great deal of new
cancer research, and we care about all the materials, including those which are potentially toxic.

70. ARGUMENT FOR MORATORIUM BASED ON KNOWN CHARACTERIZATION FOR TIRE CRUMB
Because of the:

a. known loss of 1-30 tons of material from the fields during the 8-10 year “life of the field”
into air and water
b. ingredients list: over 50% of its components are known carcinogens and pathogens, [cite
Yale Study]
c. massive scope and scale of this product, (the amount of material and surface area of
these fields is enormous; scale/millions of pounds in each installation),
d. inability to control the levels of toxic exposure to children, or even properly characterize
them due to immense variation and chemical complexity of what happens on a hot day
over a field, and around children. We cannot suggest mitigation strategies for the
danger, because the material is inconsistent,
e. Even if we did know for sure what was in each field, and suggest mitigation techniques
and protections…. All the tire company has to do is change their recipe, or many recipes,
as they do continually, and the study is worthless. Children are still being exposed to
whatever is in the tire, the lot or that particular field..

71. Moving Target Analogy

56

Even if the study were completely successful, and the tire crumb material categorized properly, the
trouble is, tire manufacturers could change the “recipe” for tires… and in fact they do this regularly…
and the study results will be useless, or at best, diminish in usefulness.

Any attempt to study tire crumb safety on turf fields is analogous to trying to hit a moving target. Tire
crumb is a waste product. Tires are not designed or intended to be used as infill for turf fields.

Ingestion, inhalation and absorption of fine particulate by children is not a consideration of tire
manufacturers as they choose chemicals and compounds for their tires. Nor are they bound to maintain
any safety considerations for such use by children.

So any study of present day tire crumb is a futile endeavor, because such study tells us nothing about a
field that gets installed immediately after the study. Tire manufacturers often change the chemical
composition of tires and will likely do so again.

Even if a field passed safely concerns in a present day study, a new field could easily fail a hypothetical
study conducted the day after the present study. So unless every field was tested using the exact same
methodology after every installation, there is absolutely no way to assure the user that their new field is
safe. Those new fields could easily have an entirely different chemical composition simply because tire
manufacturers changed their tire ingredients.

So the present Federal Study is only a backwards looking study, not forward looking. Any conclusion
must be transparent and clear on that issue - upfront and center. Otherwise the public is being misled
into a false sense of security.

57

72. Sampling: Not Appropriate For Tire Crumb
The core pediatric toxicology problem in industry based safety studies, is that there appears to be an
assumption that tire crumb is a uniform material, and behaves uniformly. It does not. There also
appears to be an assumption that sampling will be an accurate method for studying tire crumb risk to
children, and it is not. Sampling will not be accurate to assess a nonuniform, heterogeneous material
with multiple known toxic ingredients, high direct contact (dermal, hand to mouth, breathing zone)
for pediatric use. Sampling cannot produce a single sample that is representative of the whole field, or
even a part of the field, other than the sample itself.

73. Methodology needs to study PERFECT STORM exposure conditions, and be able to calculate
exposures during those relatively dangerous days.

Nor can sampling in the way it is proposed (samples from 40 fields across the US), illustrate impacts
from a perfect storm of exposure conditions on a particular field, say, during an intense soccer camp in
in summer in Washington, DC with high ambient and field surface temperatures (ie 160F), bad air
quality, no wind, when working athletes are breathing in particulate with high VOC, PAH,
benzothiazoles, and carbon black… and many more compounds, on a particularly high yield day.
Averages cannot be relied upon in sampling for this type of product, since they will further obscure the
risk from exposures to hot spots of high risk material that are on fields. Averaging the results from a
national distribution in various weather conditions simply obscures the acute risks further; it is useless
for risk analysis. In layman’s terms, it is like studying a forest using “x” number samples, but missing the
forest fire that is blazing away at a nearby area of the park. For a child, it means that she plays on a field
that was called “SAFE TO PLAY”, after sampling, but in fact she might easily have been covered with
multiple materials known to cause cancer, and in fact, that might be a regular event. The uncertainty of
exposure frequency makes the risk higher, not less.

74. The core of the methodology used in the 50 studies asserted by the tire recycling industry were
based on simple characterization of a single sample, but not on realistic, combined, nor worst case
(the most important) use scenarios.

58

75. Multiple carcinogen and multiple pathogen combined effects need to be measured. Single
material measurements could be only a fraction of the exposures, since the material exposures are likely
to be from combinations of materials.

76. BIOMONITORING FRONT AND CENTER

Because sampling presents inconclusive results, a methodology that relies on biomontioring will be
more meaningful. We suggest that more sophisticated approach be considered. Personal sampling
monitors attached to children, dermal, urine, breathing analyses, and particularly, blood and tissue
samples from frequent users, players on “Perfect Storm Days” and those expected to have chronic low
dose exposures. We understand that biomonitoring raises more issues, but absent a good model,
empirical data is the most reliable way to accumulate actual evidence of exposures and to be able to
establish a reliable causal link to the cancers and diseases we predict from exposures.

77. IMMUNOTOXICOLOGY SUPPORT: RECRUIT THE BEST PEDIATRIC IMMUNOTOXICOLOGISTS AND
RESEARCHERS. Some researchers and epidemiological professionals are already on the trail of better
ways to identify actual exposures, and can create biomarker groups as indicators of presence of illness
or exposures. These researchers have background in immunological toxicology, and can track subtle
changes in an immune system that might be precursors to serious disease, like cancer, kidney disease,
brain changes, and lung disease. It is possible to create biomarker group to prove tire crumb exposures
in users and we believe that the preliminary proof of concept step could be accomplished in less than 6
months with cooperative athletes, and study volunteers, and modest budget. While we will not list them
here, for protection of their privacy and frankly, for fear of industry retribution, we will nonetheless let
you know that we have found multiple professionals who are capable and willing to work on this task,
provided a protective forum and IRB standards are in place.

78. Immunotoxicology support: look carefully at the ages those immune system markers in all
children who are using these fields, understanding that some metabolic types, and ages may be more

59

vulnerable than others. In fact, there are early indications that certain age groups, such as
prepubescent females (age 8-11), may be more vulnerable to exposures to benzothiazoles, plastics,
phthalates, and endocrine disruptors in general, and therefore might be at higher risk to contract cancer
or disease from low dose particulate exposures from tirecrumb, and the plastic “grass” carpet
particulate. We need to establish the datum from players to study this. We still do not know, but some
indications exist. For that reason, we respectfully request that the study team include toxicologists and
epidemiologists that are trained to keep these concepts front and center.

79. LOW DOSE EXPOSURE CONCEPTS and CONCERNS
Based on what we know now about low dose exposures to VOCs, PAHs, benzothaizoles, styrenes,
carbon black, plastics, plasticizers, and metals, even at low, sub acute exposures, the fields could be very
dangerous. That possibility was not considered in the CPSC study, EPA study, nor in mulitiple industry
studies. These need to be assessed:



Chronic exposure to metals, plastics and plasticizers



Chronic exposure to carbon black mimics air pollution exposures



Immune system reactions



Endocrine disruption exposures from plasticizers and phthalates,



Exposures from multiple low doses and chronic exposures

80. The study should calculate yield of material that leaves the fields, and how it leaves the fields.
How much in the air , water pathways, and with users (in shoes, cars, etc.) Interviews with schools
and vendors need to establish the replacement quantities of these fields, and how often new material
is put into place, since it would affect exposures, and give an indication of gross yields. We estimate
that the fields lose from 1-30 tons (estimated) of material, so exposures and impacts need to be
measured in adjacent buildings, soils, and stormwater systems. With 12,000 existing facilities, this
may need to be the subject of additional studies conducted to also assess if the fields shall be
regulated as point source contamination under Clean Water Act and Clean Air Act. It is a very
important metric, and a perfect opportunity to include it, with little incremental cost, in your study.

60

81. INTEGRITY STANDARDS. To track the history of the emergence of this product is to track effective
lobbying for regulation changes that favored the tire industry, and the tire recycling industry. This
industry took advantage of an enormous quantity of recalled and used tire stockpiles, and heavily sold
and marketed the materials to schools, and sports centers where millions of children play. Central to the
steps that catapulted this industry forward was the removal of the designation of artificial turf fields as
children’s products, based on the rationale that adults played on them, too. Yet the fields continue to be
sold to elementary schools and to sports centers brimming with elementary, middle and high school
players. The sales oriented industry was willing to submit children, schools and communities to the
materials in tires in enormous amounts, and call them safe. As this claim is deeply questioned now, we
also urge you to NOT allow the sampling or data collection to be conducted by an interested party,
including schools, sports centers, athletic group personnel or administrators, field installers or
laboratories or consultants hired by those groups, and establish peer reviewed standards for testing.

82. Any group or individual who does participate in the study, including regulatory staff, needs to sign
an affidavit certifying that she or he, and her/his group has not received compensation or benefits in
any form, including but not limited to sales commissions, direct payment, compensation, bonuses,
grass to artificial turf grant, field financing, water savings rebates (State of California and possibly
others), or physical benefits including but not limited to uniforms, facility enhancements (restrooms,
concession stands, parking lots, storage facilities, etc.), stadium components, or field equipment of
any sort, from the field installers or tire crumb field industry and its assigns, and has no financial
conflict of interest. The document should be filed with an appropriate agency and made public.

83. We ask for full transparency on all parts of the study process for parents, interested parties, and
schools.
OUR REQUESTS TO ASTDR/CDC/CPSC/EPA
Request
1. Regulate tire crumb and rubber mulch as children’s product

61

Background
PEER filed formal request;
12,000 fields x 30,000 tires is the
amount of existing material in
children’s use; see table A for
details on volumes and surface area
sizes, children/schools. Known
carcinogenic material and known

contact.
2. Remove “safe to play, safe to install” or any other references that imply safety from all
EPA, CPSC and CDC websites and public information sources
3. Place all PEER artificial turf filings in Federal Record

PEER Formal Request; agencies
must remove all endorsements of
safety.
http://www.peer.org/campaigns/p
ublic-health/artificial-turf/newsreleases.html

4. Issue a directive to public health agencies to disseminate warnings regarding unknown
risks from lead exposure from AT fields, as well as exposures to carbon black, known
carcinogens, PAH, VOCs into air and water pathways; direct hospital systems and medical
systems to screen for tire crumb field use, and report results
5. Use only independent lab or consultants unassociated with tirecrumb industry, adhering
to high ethics guidelines; transparent process for review; affidavit of no conflict of interest
6. Commission a primary study, conducted by independent, peer reviewed group such as
CDC to examine existing cancers AND illness in tire crumb field users and maintenance
workers of tire crumb fields
7. Mandate Cal Recycle Study corrections to methodology; mandate methodology peer
review; and mandate to impose Prop 65 rule based on OEHHA’s own findings on
carcinogenic exposure
8. Convene a conference for presentation of risks and concerns from parent groups, cancer
survivors to Federal Research Team
9. Convene series of webinars and open comment opportunities
10. Allow public health and environmental advocacy groups in Federal Research Team
with complete transparency
11. Establish a collection point for recording experience of victims and those who may
have suffered injury from use of the fields, including heat injury, concussion or head
trauma, cognitive disorder, illness, and cancer for study and documentation; victim
hotline; for both child and adult contact with fields
12. Funding to identify potential biomarkers of exposure; conclusive marker study in users
13. Conduct blood monitoring and studies on existing cancer survivors.
14. Conduct cancer cluster study on soccer player cluster, and identify additional clusters
such as maintenance workers and installers
15. Provide full transparency with all interested parties
16. Conduct full epidemiological study of tire crumb on playfields existing and predictive
17. Study forms and questionnaires should include data collection on what is released
from fields into air, adjacent areas, water pathways, and quantified. Replacement
quantities for tire crumb fields should be quantified and examined as a metric that
indicates yield.
18. Based on release/yield figures, and other inputs, tire crumb fields should be evaluated
for compliance with Clean Water Act and Clean Air Act, and regulated accordingly.
19. We request that OEHHA study methodology be peer reviewed by your agencies
before it begins, taking into account the comments received in this proceeding.
20. OEHHA Study Process and Methodology Concerns: How will those be considered?
21. Consider explicit protection from retribution steps be put in place to protect
researchers, players, and concerned parents from retribution

62

For parents, schools, athletic groups,
and communities; conduct parent
outreach webinars

Needs participation from
CDC/CPSC/EPA staff so parents
and public can have direct contact

Page 1 of 1

PUBLIC SUBMISSION

As of: 5/3/16 6:44 PM
Received: May 02, 2016
Status: Posted
Posted: May 03, 2016
Tracking No. 1k0-8per-4adj
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0080
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Amy Stephan
Organization: Safe and Healthy Playing Fields Coalition

General Comment
Thank you for the opportunity to comment on this important proceeding on behalf of the Safe
and Healthy Playing Fields Coalition we respectfully submit our comment and supporting
material in the attached document. We hope to have the opportunity to provide additional
comments and participate directly in this important study.

Attachments
SHPFC FINAL ASTDR 2016-0002-0003Comments

https://www.fdms.gov/fdms/getcontent?objectId=0900006481fa356c&format=xml&showor... 5/3/2016

Comments on ASTDR 2016-0002-0003
Federal Research Action Plan on
Recycled Tire Crumbs Used on Playing Fields and Playgrounds
Submitted to Federal Register May 2, 2016

SAFE AND HEALTHY PLAYING FIELDS COALITION
www.safehealthyplayingfields.org
A grass roots coalition working for healthier alternatives for children and
communities

INTRODUCTION
On behalf of the millions of children, parents and athletes who play field
sports in the US at schools, parks, athletic facilities and playgrounds, thank
you for agreeing to study the potential harm caused by playing on or being
near athletic fields with surfaces made waste tires. There are more than
12,000 of these playfields in place (15,000 according to the website of a
large company that installs them), and they are being installed at a rate we
estimate to be about 3000 a year. By our calculations, 12,000 fields
currently present 2,380,000 tons or 4,760,000,000 pounds of loose,
unencapsulated tire crumb on their field surface. (See our Table of Runoff
and Material Volumes attached.) Tens of thousands of students and young
athletes play on those fields, many more thousands have direct or indirect
contact with the material. It is a public health issue of substantial
importance.

The following lists our comments on the proposed study. We argue that the
fields present known carcinogenic, neurotoxic, and endocrine disrupting
material in a high surface area, pulverized form that is more toxic than
whole tires, and should never have been allowed near children, or adults,
SHPFC Comments ASTDR-2016-0002-0003 1

because of risk of ingestion and inhalation exposure to all the ingredients in
tires. On warm, sunny days the surface temperature routinely reaches over
150 F, which presents direct, well-known heat injury risks to children. The
heat increases off-gassing of the tire components, increasing the likelihood
of pulmonary exposures, and creates a complex dynamic in the children’s
exposure zone immediately above a field that has not been correctly
modeled or studied yet. The material lacks uniformity, or any regulatory or
exposure controls. We assert that it is impossible to assure even a single
tire crumb field is free of inhalation and ingestion risk of dangerous
particulate and gases inherent in tires, tire crumb, and add-in composites;
and that dangerous and unwanted exposures from lead, benzothiazoles,
carcinogens, phthalates, carbon black and other harmful substances, can
happen with every use. The data gaps are enormous, and we hope
CDC/CPSC/EPA will recognize there is no way the tire crumb industry can
protect any player, on any field, from the potential for dangerous exposures
with normal use. We argue that not enough scrutiny was placed on this
material.

NOTE: The Safe and Healthy Playing Fields Coalition is a grass roots group
of parents, coaches, scientists, public health professionals, toxicologists,
neurobiologists, educators, researchers, plastics engineers, medical
doctors, waste management and remediation professionals who donate
their own time and skills towards helping communities and individuals
assess risks to their communities from tire crumb field use. We do not
have a lobbying firm, law firm, hired laboratory, consultant, or revenuegenerating source (such as tire crumb), and rely solely on the skill of
researchers who donate time to compile our comments. That said, we have
found compelling data that refutes almost all claims of safety, and when we
asked for additional time to compile the information, we were given two
weeks, but denied additional time. Hence, we are working at a
2 SHPFC COMMENTS ASTDR-2016-0002-0003

disadvantage, and hope that during this study year, we will have time and
opportunity to substantiate our concerns, and share our research with the
study officials. One of our comments below explains our requests for a
conference or virtual meeting that allows more disclosure and discussion.

Our comments are listed numerically and organized into: 1. General
Comments, 2. Characterization and methodology comments; 3.Summary
List of requests. A number of supporting documents are also submitted as
part of our comments.

PART I: GENERAL COMMENTS:
1. CPSC/CDC/EPA should use their existing authority to immediately
enforce regulations on tire crumb playgrounds and athletic fields as a
children’s product, since thousands of fields have been installed in
child-care facilities and schools that serve hundreds of thousands of
children.

2. We have grave concerns about their safety to human health and the
environment, since known harmful components in the field material
are released into both air and water pathways, and provide ample
opportunity for both acute and chronic low to high dose exposures
with every use of the field to known toxics such as lead, chromium,
mercury, zinc, PAH, VOC, carbon black, styrene, benzothiazoles, and
plasticizers. Intermittent ‘Hotspots’ of high levels of toxins such as
lead are of particular concern for exposure. (See comments on
Characterization). Every tire crumb playground and synthetic turf field has
material that is known to cause cancer, illnesses, and injury in humans; and
leachate from runoff causes several negative impacts on the aquatic
ecosystems. We believe that the potential for human illness (including
SHPFC Comments ASTDR-2016-0002-0003 3

several cancers) from both low dose and high dose exposures to the
ingredients in tires is staggering. Based on the known potential for
exposures to children, and the finding of a group of now over 200 soccer
players with cancer (the group represents the reach of a single soccer
coach, implying that this group may be the ‘tip of an iceberg’ of affected
individuals), an immediate moratorium on new construction of the fields
should be put in place with the existing authority of CDC/CPSC/EPA, until
the tire crumb fields can be shown to be safe to inhale and ingest.

3. The tire crumb recycling industry, which appears “green” in its
efforts to sell millions of used tires in “repurposed” shredded form, in
fact enables a direct transfer of the contamination burden of waste
tires from landfills/collection sites (in the US and abroad) to the play
surfaces of 12,000 schools and sports centers, where tens of
thousands of children and adults have direct contact with the toxins in
tire crumb materials on the field surface, and these exposures could
happen with every single contact.

4. For the most part, the schools and sports centers do not have
resources to conduct toxicity due diligence; meaning, they do not have
access to a toxicologist who reads the industry studies with their health as
the only priority. Purchasers rely on the tire crumb recycling industry
statements, industry studies, and industry funded websites that claim
toxicology assessment and public health guidance. The sales material can
be striking, and the studies appear convincing on the surface, but our study
groups have found significantly misleading information about the safety
and actual risk of harm from the tire crumb fields to all users, particularly
children. They are likely unaware that the previous CPSC claims that the
fields are “SAFE TO INSTALL; SAFE TO PLAY ON” have been repealed.

4 SHPFC COMMENTS ASTDR-2016-0002-0003

5. PEER Filings. Public Employees for Environmental Responsibility have
filed a number of complaints and documents that argue for a repeal of
endorsements of tire crumb safety from EPA/CPSC, and those statements
were in fact repealed; but most schools and potential purchasers are
unaware of the removal of endorsements and claims of safety. The PEER
filings are an excellent source for telling the toxicity story and regulatory
story of this product. We respectfully request that the entire file of
complaints and responses to the complaints, and other supporting material
be entered into the record for ASTDR 2016-0002-0003.

The full list of documents for the ASTDR 2016-002-0003 collection
and record can be found here:
http://www.peer.org/campaigns/public-health/artificial-turf/newsreleases.html. Please include all in that list, and all supporting
materials.

6. Formal legal requests have been made to classify the tire crumb fields as
a children’s product since children use them, and sales and marketing
material are very clear about tire crumb fields are for children.
CDC/CPSC/EPA should use their existing authority to explicitly label
the fields as children’s products. (Please refer to PEER filings for details
and supporting arguments: http://www.peer.org/campaigns/publichealth/artificial-turf/news-releases.html)

7. CLASSIC CANCER CLUSTER APPEARANCE: SOCCER PLAYERS
Parents and schools may have trusted the “Safe to Play” statements, but
the parents of the 200 young women and men, who played intense
soccer and were stricken with cancer do not trust those claims
anymore.
SHPFC Comments ASTDR-2016-0002-0003 5

The case of over 200 young soccer players who used tire crumb fields and
contracted cancer, strongly indicates a classic cancer cluster, though the
cases have not undergone the formal validation process yet. That is
because a process for the collection of this information, does not exist yet
for either cancer victims, or for other illnesses, head injuries, and heat
injuries/illness from the fields.

8. We respectfully request that an official study of the soccer player
cancer cluster be initiated by CDC immediately.

Through our activist network, we learned about these cases, which were
reported to the NBC news link, or directly to a single, trusted concerned
soccer coach. EHHI reported as follows:
______________________________________
“New Cancer Numbers Among Soccer Players on Synthetic Turf,
April 2016
It is important to remember that the only people counted in the numbers
below are those who have known to call Amy Griffin. There is still no
government agency tracking the cancers among the athletes who have
played on synthetic turf. We know the actual numbers of athletes who have
played on synthetic turf and contracted cancer have to be much greater
than those who have known to report their illness to Amy Griffin.
In January of 2016, there were 159 cancers reported among soccer players;
now (April 2016) there are 166. Ninety-seven of those in January
were goalkeepers; now there are 102. Sixty-one percent of the soccer
players with cancer are goalkeepers. As of this writing, 220 athletes of
various sports who have played on synthetic turf have cancer; 166 soccer
6 SHPFC COMMENTS ASTDR-2016-0002-0003

players who have played on synthetic turf also have cancer.
166 Soccer Players who have played on synthetic turf and have cancer


102 are goalkeepers (61% are goalkeepers)



64 soccer players with lymphomas, 39 are goalkeepers (61%––over
half are goalkeepers)



10 soccer players with Non-Hodgkin lymphoma, 7 are
goalkeepers (70%––over half)



54 soccer players with Hodgkin lymphoma, 32 are
goalkeepers (60%––over half)



41 total leukemias, 24 are goalkeepers (59%––over half)



16 total sarcomas, 7 are goalkeepers (44%)



12 thyroid, 9 are goalkeepers (75%––over half)



11 brain––5 are goalkeepers (45%)



9 testicular––6 are goalkeepers (67%––over half)



4 lung––3 are goalkeepers (almost all are goalkeepers)

Remaining are OTHER rare cancers.”
Source: Various; Victim parent volunteers, EHHI primary collection;
4/2016 (ongoing) _____________________________________________________________

All the victims were frequent users of turf fields, spending multiple hours a
week in close contact with the material in the fields. All were in their midtwenties or younger.

9. The self-reporting to a trusted coach, is also an indication that the
actual illness rates are not yet being properly assessed or managed by
any hospital, medical system, or group; there is no “home” for this
information, yet. The 200+ cancer victim count is likely the reach of a
single coach with the help of a link in broadcast media, and a fraction of the
SHPFC Comments ASTDR-2016-0002-0003 7

actual count of victims of cancer or other serious illnesses. Better
investigation and creating a “safe” place to report serious and intermittent
illness will uncover many more victims, and provide needed perspective on
the accuracy of risk assessment for this product.

10. The CDC and appropriate agencies should issue a directive asking
for adequate screening for injury and disease. That US hospital and
medical systems are not yet set up to collect this data is a contributing
factor; and concurrently, screening for synthetic field use should be part of
a responsible screening protocol. To our utter dismay, we learned from
pediatric oncologists in our group that at least some oncologist are
prohibited from screening victims/patients for tire crumb field use; the
screening must be part of the approved protocol, and tire crumb product is
not yet included..

11. In fact, the number of all injuries from tire crumb fields should be
collected and analyzed to include, but not be limited to: head injury
and concussion; joint injuries (multiple); heat injury; blood cancer;
lymphomas; testicular cancer; pulmonary illness; neurological
impairment; kidney disease; diabetes; brain disease and cancers.
These findings need to be documented, and the children who suffer
from them should be screened for tire crumb field use and proximity.
No doctor or oncologist should be prevented from asking questions,
screening for, or questioning the safety of this product or contact with this
product. We believe there are many more heat related illnesses, head
injuries, and endocrine system disruptions directly resulting from exposure
to the fields than what is being reported.

12. REQUEST MORE INVESTIGATION INTO EXISTING AND POTENTIAL
CANCER CLUSTER: We ask that the multiagency group takes steps to
8 SHPFC COMMENTS ASTDR-2016-0002-0003

expedite the process of collecting epidemiological data and verification of
the current soccer player cluster, and other potential clusters, to include
field maintenance workers who rake the fields, field installers who pour the
millions of pounds of material onto field surfaces, school custodians, high
contact users of any kind, and school children in buildings adjacent to the
fields. Residences near the fields should be considered in the scope of the
study or subsequent studies. In our own informal assessment, and
using the SEER database and known levels of cancer victims, we found
the potential for 7-11 cancer clusters. We respectfully ask the CDC
experts to look into this possibility and take the necessary steps to prevent
additional injury and cancers.

13. NEED FOR EXPLICIT PROTECTION FROM RETRIBUTION: Sadly, the
families, coaches, and school leaders who have reported illnesses do so
with concern for retribution from the tire crumb industry, school
boards, university administrations, and even sports league
administrators, and may need explicit protection and remedy against
retribution. Researchers who study the potential for harm tell us that they
do not have protection from retribution from tire crumb field industry
proponents. Public health and medical professionals sometimes make
statements of concern anonymously to protect themselves from
retribution––professionally and personally from industry proponents.
Adequate protections need to be established to protect the professionals
and parents who speak out.

14. PROTECTION FOR CHILDREN IS NOT A COST-BENEFIT ANALYSIS.
Children have a unique vulnerability to toxic exposures––both intermittent
high exposures––and to low dose exposures, and if we are aware of a
carcinogenic presence, then we are responsible for using a precautionary
principle, and removing that exposure risk. With due respect, this is not a
SHPFC Comments ASTDR-2016-0002-0003 9

cost-benefit analysis that will show a percentage of children will get sick
(cost) vs. tournaments played or jobs created (benefit). It is a decision
made by a civil society that upholds protection for children’s health above
all other industry priorities, and a recognition that tens of thousands of
children, if not hundreds of thousands, are already being exposed to
material with known carcinogenic, and harmful materials on school turf
fields.

15. The CDC/CPSC/EPA should recognize that the fields serve children,
acknowledge that there are zero safety controls on the material and the
potential exposures, and immediately acknowledge tire crumb fields as
children’s products, and use your existing authority to regulate them as
children’s products. Therefore, we emphatically REQUEST THAT THE
CPSC/EPA/CDC USE EXISTING AUTHORITY TO IMMEDIATELY
CLASSIFY ARTIFICIAL TURF AS A CHILDREN’S PRODUCT, SINCE
THOUSANDS OF CHILDREN ALREADY USE THE FIELDS, IN THOUSANDS
OF SCHOOLS.

Since children and adults are already being exposed on tire crumb fields to
the materials in tires, we ask for an immediate moratorium on further
construction of tire crumb based or recycled rubber based artificial
turf fields until adequate assurances that tire crumb particulate, offgassing, and combinations are safe for children to inhale and safe for
children to ingest.

Your three agencies do not need to conduct a study to know with
absolute certainty that tires were not designed to be inhaled by
children, and we should protect children, at any length, from chronic
or lose dose carcinogenic exposures.
1 SHPFC COMMENTS ASTDR-2016-0002-0003
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Even if we cannot model or know (or will we ever know) the exposures to
each child, each day (and we will never know), we do know with certainty
that:
1. Carcinogens are in tires.
2. Shredded, pulverized tire crumb contains everything in tires, and
more ingredients, including: carbon black, phthalates, VOCs, PAHs,
benzothiazoles, lead, chromium, zinc, nanoparticle additives,
proprietary additives, 12 known carcinogens, 90 materials known to
be harmful to human and environmental health, (EHHI)
3. The material can be inhaled when playing and ingested with contact,
or intermittent adjacent contact.
4. Every single direct or indirect use has the potential for exposure to
hotspots and low dose chronic exposures to multiple scenarios of
these materials.
5. The exposures could impact children, school buildings, and
surrounding areas; contamination travels to cars, homes, and even
children’s bedrooms.
6. It is both within the authority and the responsibility of your three
agencies to take immediate action to protect the public, especially
children, from known carcinogenic, pathogenic exposures.
.
Only a complete moratorium on their use will protect the millions of
children, athletes and bystanders from inhalation and ingestion of the
materials that yield from tire crumb synthetic turf fields.

16. It is also evident that tire crumb will never be safe unless ALL tire
ingredients, all “recipes”, the manufacturing of tires, and then preparation
of materials for fields are controlled from a toxicity perspective. This level
of voluntary cooperation from the tire manufacturing industry will, of
course, never happen.
SHPFC Comments ASTDR-2016-0002-0003 1
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17. ONLY UNIFORM MATERIAL SAFE TO INHALE AND INGEST IS
APPROPRIATE FOR SCHOOL FIELDS ; UNTIL THEN, A MORATORIUM.
When the play surface material is uniform, consistent, and controlled, when
it is tested by an adequate study with pediatric toxicology assessments to
be safe for ingestion and inhalation, and results are peer reviewed
following IRB standards, then we may consider a synthetic turf field might
be safe. Until then, tire crumb should be rejected from any casual or
unnecessary contact with children or adults.

18. RECONSIDERATION: A reconsideration of the moratorium could occur
when the industry can demonstrate a uniform, non-carcinogenic, noninhalable, non-ingestible alternative that does not present PAH, VOCs,
phthalates, lead, chromium, mercury, 1,3-benzothiazoles, butadiene,
styrenes, carbon black (in particulate, gaseous form, or any form to
children); and the product undergoes strict, peer-reviewed study by
independent qualified toxicologists who have a mandate to protect
children’s health and the health of the environment above the interests of
industry. The hypothetical product should be subject to regular reviews
and quality control determinations to ensure safety over the life of the
synthetic field. Safety Data Sheets should be provided and accessible for
every user. If waste tires are used, the controls requested above will never
be possible, since the tire material, by definition, is a composite of many
toxins in unknown quantities and with unknown impacts.

PART TWO: CHARACTERIZATION OF TIRE CRUMB COMMENTS
1. SCALE AND SCOPE: Tire crumb potential to individuals, buildings,
surrounding areas and stormwater for contamination is enormous.
1 SHPFC COMMENTS ASTDR-2016-0002-0003
2

2. PUBLIC HEALTH ISSUE: SCALE AND SCOPE CONCEPTS
The potential for contamination from tire crumb is a growing public health
issue, in terms of the relative size of the product and its mass; the total
number of potential fields; and their basic contact with students, athletes,
school personnel, buildings, communities, and streams/storm water.

To give an idea of the existing volumes of material, the field runoff and
children affected or who may be affected, we have developed reference
tables, and the summary is attached to this filing These tables indicate the
scope and scale, and demonstrate that these are not isolated fields, nor tiny
exposure potentials. The quantities of material are enormous. The source
and reasoning is explained, but the tables are designed for your model
development and quick reference.

3. ENORMOUS QUANTITIES ON EACH FIELD SURFACE .
To give an idea of the scale, a modest soccer field uses 30,000 waste tires.
According to a randomly selected company selling packaged tire crumb
infill for original or replacement treatments, 30,000 tires makes about
396,667 pounds of lbs of material. According to our calculations, the
volume for 2” thick field is about 525 cubic yards, However, a large
football field, three times the size of a small soccer field, could use
1,000,000 pounds of tire crumb material.

4. The tires are shredded, pulverized into crumb of various sizes, and the
shredded material is poured on top of a plastic “grass” carpet. Importantly,
the material is loose, unencapsulated and can loft into the air when struck
by a ball or foot, or body. We estimate that, depending on the school, each
field has regular, daily contact with at least 1000 athletes and students. At

SHPFC Comments ASTDR-2016-0002-0003 1
3

sports events, busy tournaments, or with active use, a field can have
contact with many, many more.

5. No fields we found have mandated capture of the leachate or
particulate at the field.

6. TOTAL FIELD VOLUMES POTENTIAL:. The universe of potential tire
crumb playfields is approximately 200,000 - 220,000 schools and athletic
facilities in the US, based on number of schools. The potential reach of
exposure from use of these fields is in the millions of children, millions of
adults, hundreds of thousands of exposed buildings and adjacent soils, and
hundreds of thousands of public easements and storm water access points
(we estimate 1:1 ratio for field to point source drainage).

7. TABLE RUNOFF AND VOLUMES: SUMMARY OF KEY METRICS

For reference, we analysed fields by sport type, by Metropolitan Service
Area, and calculated the volumes for rainfall (by city), and for amount of
tire crumb material on a field surface.

Key metrics are the following:



Estimated tire crumb per 85,000 sq feet field and 2” deep tire crumb
infill is 525 cubic yards, 396,667 pounds, or 198 tons per field.



The total amount of tire crumb material on surface of 12,000
fields is estimated to be 6,296,296 cubic yards, or
4,760,000,000 pounds or 2,380,000 tons that are currently in
sports centers and schools in April 2016..

1 SHPFC COMMENTS ASTDR-2016-0002-0003
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

Runoff is calculated by city and field size, but the total runoff
for fields in the top 50 MSAs is 15,006,99,787 gallons.



Total Runoff for 12,000 fields based on number of fields per MSA,
accounting for rainfall in that MSA, and added together for 2016 is:
23,370,639,827 gallons… for a single year.

The calculations were made to illustrate the scale and scope of this product,
and to characterize the reach of exposures from the field surface into the
airway, and into the water pathway.

8. INGREDIENTS IN TIRE CRUMB: Lack Of Uniformity, High Variation,
Multiple Toxins
Tire crumb appears to be a composite material, heterogenous with multiple
known carcinogens, pathogens, and mutagens. The material is not uniform,
comes from multiple sources and lots, and can be mixed with plastics and
materials of unknown origin. The material can have anticlumping agents,
flame retardant additives, paint, and strengthening or characteristic
enhancing additives. Shredding of tires can cause small pieces of steel or
metals to be included in the material from steel belted tires. Some tire
crumb is from newer depositories from recalled tires, some from landfills,
and some have been subjected to a variety of weather and conditions.
Leachate and off gassing could be variable, with the expectation that newly
installed/poured material off-gassing is higher than from an older field, but
we expect those rates would vary with the age of the tires from which the
tire crumb was made.

SHPFC Comments ASTDR-2016-0002-0003 1
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9. HETEROGENEOUS, MULTIPLE TOXINS, UNKNOWN ORIGIN: To say that
tire crumb infill comes from multiple sources, is an understatement:
dispensaries, landfills in the US, landfills abroad, collection centers, factory
waste from China, factory waste from the US and abroad. Some of the
newer marketed blends included multi colored sport shoe waste, shoe
factory waste, and many unidentified synthetic materials. Just as tire
companies may add anything to their “recipe” for a tire, an infill provider
may offer materials that could have anything added into the blend. Tire
plugs, tire polishes, tire coatings, and materials picked up on the roads
should be considered. And even if it is known that there are only tires in
the blend, there is a broad variation in the ingredients based on the use of
the tire, and the manufacturer. Those tires may look the same, but from a
toxicity standpoint their variation and the unknowns in the “recipe” create
a margin of uncertainty that makes any claim of known safety for inhalation
or ingestion impossible. If a vendor says he or she knows what is in a lot of
tire crumb, and that is known to be safe, then they ignored the materials in
the product. Since we never know what is in any field for sure, and if we
know that they have tire crumb, they cannot be demonstrated safe for
children to inhale, ingest, nor play upon.

10. What Is In Tires? SOME GROUPS WENT LOOKING
Since it was difficult from MSDS or any other source to identify the
components in tires or tire crumb, some groups studied them directly.
11. Environment and Human Health Inc, and Yale University Study
EHHI, Inc. in cooperation with Yale University studied samples of rubber
mulch, and new tire crumb with the intent of characterizing their
ingredients.
The summary text of their characterization study is found here:
1 SHPFC COMMENTS ASTDR-2016-0002-0003
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http://www.ehhi.org/turf/metal_analysis2016.shtml
http://www.ehhi.org/turf/findings0815.shtml
The EHHI/Yale Study list of components found is explained this way:
The shredded rubber tire playground mulch samples tested were provided
by the manufacturer and were purchased in new bags of rubber mulch for
use in gardens and playgrounds. The rubber tire infill for synthetic turf
fields was obtained as new infill material from installers of synthetic turf
fields. There were 5 samples of infill from 5 different installers of fields and
9 different samples of rubber mulch taken from 9 different unopened bags
of playground mulch.
RESULTS
 There were 96 chemicals found in 14 samples analyzed. Half of
those chemicals had no government testing on them - so we have no idea
whether they are safe or harmful to health. Of those chemicals found that
have had some government testing done on them these are the findings
with their health effects.

TWELVE (12) KNOWN CARCINOGENS
2-Mercaptobenzothiazole/ Carcinogen, toxic to aquatic life
9,10-Dimethylanthracene/ Carcinogen, respiratory irritant and can cause
asthma
Bis(2-ethylhexyl) phthalate/ Carcinogen, may cause damage to fetuses
Fluoranthene / Carcinogen, Fluoranthene is one of the US EPA's 16
priority pollutant, A PAH.
Heptadecane/ Carcinogen
SHPFC Comments ASTDR-2016-0002-0003 1
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2-mercaptobenzothiazole / Carcinogen
Phenol, 4-(1,1,3,3-tetramethylbutyl)/Carcinogen
Phenanthrene/ Carcinogen - A PAH
Phthalimide/ Carcinogen, skin, eye and lung irritan. A Fungicide
Pyrene, 1-methyl- /Carcinogen
Tetratriacontane /Carcinogen, eye and skin irritant. Can cause systemic
damage to central nervous system.
Pyrene/ Carcinogen, toxic to liver and Kidneys, a PAH
Carbon Black/ Carcinogen
Carbon Black makes up to 20% to 30 % of every tire. It is used as a
reinforcing filler. Carbon Black is listed as a carcinogen by the International
Agency for Research on Cancer (IARC).
Carbon Black, as such, was not analyzed by the Yale Study because Carbon
Black is made up of a number of chemicals – some of which were found in
the Yale study.
Carbon Black is not one chemical -- it is made up of many chemicals - often
of petroleum products. Furthermore, carbon black has no fixed
composition, even of the many compounds it contains. Carbon black from
different sources will have
differing compositions. In our method, carbon black will register as
a series of substances extracted from it. There is no carbon black
molecule, it is a mixture.
TWENTY (20) KNOWN IRRITANTS

1 SHPFC COMMENTS ASTDR-2016-0002-0003
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1,4-Benzenediamine, N-(1,3-dimethylbutyl)-N'-phenylIrritant - causes skin and eye irritation, toxic to aquatic life
1,4-Benzenediamine, N-(1-methylethyl)-N'-phenylIrritant - causes skin and eye irritation, toxic to aquatic life
2(3H)-Benzothiazolone
Irritant - causes skin and lung irritantation
2-Dodecen-1-yl(-)succinic anhydride
Irritant - causes eyes, skin and lungs irritation
3,5-di-tert-Butyl-4-hydroxybenzaldehyde
Irritant - causes irritation to eyes, skin and lungs.
Anthracene
Irritant - causes skin, eye and respiratory irritation. Breathing it can
irritate the nose, throat and lungs causing coughing and wheezing.
Benzenamine, 4-octyl-N-(4-octylphenyl)Irritant - causes eye and skin irritation
Benzenesulfonanilide
Considered hazardous, very little testing has been done on it.
Benzothiazole, 2-(methylthio)Irritant - causes Skin and eye irritation.
Dehydroabietic acid
Toxic to aquatic organisms
Docosane
SHPFC Comments ASTDR-2016-0002-0003 1
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Irritant - causes Skin irritation
Hexadecanoic acid, butyl ester
Irritant - causes eye, skin and lung irritant. Can cause reproductive effects.
Methyl stearate
Irritant - causes eye, skin and lung irritation.
Octadecane
Irritant - causes kin, eye and respiratory irritation
Octadecanoic acid also known as Stearic acid
Irritant - causes skin, eye and respiratory irritation
Oleic Acid
Irritant - causes skin and eye irritation
Phenol, 2,2'-methylenebis[6-(1,1-dimethylethyl)-4-ethylIrritant - causes skin, eye and respiratory irritation
Tetradecanoic acid
Toxic to aquatic organisms. Skin and eye irritant.
Anthracene, 2-methylAcute aquatic toxicity, Not much data available - what there is shows it to
be an eye, skin and lung irritant
Anthracene, 9-methylAcute aquatic toxicity, serious eye irritant
2 SHPFC COMMENTS ASTDR-2016-0002-0003
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13. Carbon Black
Carbon black plays an extraordinary role in tires, and in their toxicity and
potential for harm from exposures. Well known from decades of air
pollution studies, urban epidemiological studies, airborne carbon black
causes lung cancer, brain cancer, kidney cancer, heart disease, neurological
disorders, and cognitive degenerative disease.
A known carcinogen (WHO), we have found variations in percentages of
the amount of carbon black in a tire, from 30%-68%. (EHHI/Yale Study; NY
STUDY, .pdf, pp19-20.) Carbon black breaks down into many sized
particles, including PM10/PM2.5 and potentially smaller. That size particle
was shown to cause several types of cancer, including brain cancer, kidney
cancer, kidney disease, bladder cancer, and neurological disease and
cognitive impairment disorders. (CITE; Harvard Mexico Studies and Urban
Cohort Studies).
14. THE NY STUDY CHARACTERIZES TIRE CRUMB THIS WAY:
“The components of Firestone’s and Dow Chemical Company’s rubber are
summarized in technical specification documents. Although they are only
two of many different rubber manufacturers, a similarity between the two
vendors is readily apparent, even between three different types of rubber,
solution-SBR, cold polymerized emulsion SBR, and high cis2-4
polybutadiene rubber. In general, the following similarities were observed
between the two manufacturers for the compounds used to produce the
rubber:
• The polymer used to produce solution-SBR contained approximately 1840% bound styrene.

SHPFC Comments ASTDR-2016-0002-0003 2
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• The oil content in the polymer ranged from 27.3-32.5% in solution-SBR
and cold polymerized emulsion SBR. Oils used include aromatic oil, high
viscosity naphthenic oil, and treated distillate aromatic extract oil.
• Besides the polymer used, the other components of the rubber were
similar between manufacturers and the relative proportions (parts by
weight) of these other components ranged as follows:
o Carbon black: 50.00 – 68.75
o Zinc oxide: 3.00
o Stearic acid: 1.00 – 2.00
o Sulfur: 1.5 – 1.75
o N-tert-butyl benzothiazole sulfonamide (TBBS): 0.9 – 1.50
o Naphthenic or aromatic oil: 5.00 – 15.0
The components summarized above are the principal components of the
major type of rubber (SBR) used for the manufacturing of crumb rubber
and therefore have the potential to have a significant presence in crumb
rubber. As discussed in subsequent sections of this report, some of these
components have been found to be prevalent in crumb rubber, including
zinc (from the zinc oxide), benzothiazole compounds (from TBBS), and
PAHs (possibly from the oils used). These compounds may be attributed to
the SBR used in the manufacturing of crumb rubber.”
15. Phthalates are a regulated toxin, and PEER filings covered some of
the toxicity and regulatory discussion. Please refer to
http://www.peer.org/campaigns/public-health/artificial-turf/newsreleases.html
16. ZINC
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Coastal Marine Resource Center Study, found levels of zinc in leachate from
tire crumb fields with fatal impacts to an aquatic ecosystem within 48
hours.
Menichini and Abate Study: “Zn concentrations (1 to 19 g/kg) and BaP
concentrations (0.02 to 11 mg/kg) in granulates largely exceeded the
pertinent standards, up to two orders of magnitude”. “Zinc and BaP
concentrations are high in rubber largely exceeding the Italian soil
standards”.
17. METALS: MERCURY, CHROMIUM, ARSENIC
The highest median values were found for Zn (10,229 mg/kg), Al
(755 mg/kg), Mg (456 mg/kg), Fe (305 mg/kg), followed by Pb, Ba, Co, Cu
and Sr. The other elements were present at few units of mg/kg. The highest
leaching was observed for Zn (2300 μg/l) and Mg (2500 μg/l), followed by
Fe, Sr, Al, Mn and Ba. Little As, Cd, Co, Cr, Cu, Li, Mo, Ni, Pb, Rb, Sb and V
leached, and Be, Hg, Se, Sn, Tl and W were below quantification limits. Data
obtained were compared with the maximum tolerable amounts reported
for similar materials, and only the concentration of Zn (total and leached)
exceeded the expected values.
18. LEAD, POLITICS and CHILDREN
The problem is synthetic turf is NOT REGULATED as a children's
product by the CPSC thwarting the ability to apply lead regulations
that CPSC could enforce.
Lead was identified in synthetic turf fields as early as 2008 but was not
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addressed in any systemic way due to lack of standards or
required testing (although the CPSC could have required the testing
mandated for children's products since 2008). The CPSC has chosen not to
mandate this children's product testing for synturf and in fact advised the
industry about not having it designated as a children's product
< http://parentscoalitionmc.blogspot.com/2009/03/artificial-turf-tale-oflead-levels.html> .
This has led to a "buyer beware" situation especially after the CPSC tested
synthetic turf carpets, found lead at varying levels depending on sample
age, and astoundingly concluded the whole synthetic turf system was,
always and everywhere, safe not just for adults but for children. The
assumptions were based on inappropriate modelling for blood lead levels
from a meager sampling and the troubling finding presupposes that there
is, a safe level of blood lead, which most pediatricians and lead experts
agree there is not safe level.
To this day the synthetic turf industry cites the still CPSC-posted "OK to
Install, OK to Play on" press release which should never have been posted
to begin with, has been disavowed, in front of US Congress, by CPSC
commissioner Kaye and is an embarrassment to government science, policy
and public health 
19. The Centers for Disease Control (CDC) in contrast
warned and continues to warn that" there is no safe level of lead" to
expose children to.
http://www.cdc.gov/nceh/lead/>
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http://www.cdc.gov/nceh/information/healthy_homes_lead.htm.
“No safe blood lead level in children has been identified. Lead exposure
can affect nearly every system in the body. Because lead exposure often
occurs with no obvious symptoms, it frequently goes unrecognized"
In 2010 Van Ulirsch et al ( Environ Health Perspect. 2010
Oct;118(10):1345-9 
22. And for the past 2 years the company FieldTurf has, with impunity,
noted its synturf fields contain lead during testimony on various bills in the
Maryland State House.
The latest admission documented on video:

"....asked point-blank by one delegate, “Is there lead in your
products? The executive answered, “There’s lead in a lot of things in
this world.”.... “Yes, there’s lead in our products." In spite of this
admission and the fact that the legislation in question was meant to
post the CDC prescribed warnings about minimizing lead and other
toxin exposures from the synturf and tire waste products, and in
spite of the fact that the legislation had strong and broad input and
support, the legislation was not even allowed to come up for a vote
in committee by the committee chair.
23. Public Employees for Environmental Responsibility compiled the
literature as of early 2012 on lead
see:  and specifically: 2012-07-12_lead-limits-needed-on-tirecrumb-playgrounds (NOTE if you go to PEER.ORG news releases: click on
public health and "artificial turf" to find the actual filings with many links}
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Unfortunately for the children, fields with high lead remain. But those
responsible for protecting children are kept in the dark. NO ONE IS
MONITORING OR REGULATING ARTIFICIAL TURF FOR LEAD OR OTHER
TOXINS in either old or new fields, including the Consumer Product Safety
Commission (CPSC) (see 
For example as reported in that article:
Dr. Shalat's New Jersey State Study (2012) on artificial turf found lead in
the field dust in the respirable air space of a robot and real player- highly
variable but sometimes very high (note most facilities would NOT LET
THEM TEST).
 2014
" Bio-accessibility and Risk of Exposure to Metals and SVOCs in
Artificial Turf Field Fill Materials and Fibers" , Brian T.
Pavilonis1,Clifford P. Weisel1, Brian Buckley1, and Paul J. Lioy1
QUOTE from Pavilonis et al:."Since it is possible that children may be
exposed to potentially high concentrations of lead while using
artificial turf fields we recommend, at a minimum, all infill and fibers
should be certified for low or no lead content prior to purchase and
installation."
*The main out-comes of concern from Pavilonis et al:
a) the finding of lead, and chromium in both the tire crumb and
the plastic rug and simulated body fluids at sometimes extremely
high levels *EVEN IN NEW FIELD CARPETS.*
b) Benzothiazole derivatives and 4-(tert-octyl) phenol were also
found in in the simulated body fluids. Both are probable carcinogens
(the subject of another fact sheet).
QUOTE: "Lead was detected in almost all field samples for
digestive, sweat, and total extraction fluids with digestive fluid
extract of one field sample as high as 260 mg/kg. Metal
concentrations were not markedly different across the three
different sample types (new infill, new turf fiber, tire crumb field
sample). However, one of the *new* turf fiber samples contained
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relatively large concentrations of chromium (820 mg/kg) and
lead (4400 mg/kg) compared to the other samples tested…the
variability of lead contained in the infill material is large and can
span more than two orders of magnitude* . One field [tire crumb]
sample did contain a high lead level (260 mg/kg) which was on the
same order of magnitude as the NJ DEP cleanup value (400
mg/kg).”
In summary: Lead-free is the only acceptable level for child
products (and indeed for people in general). There is NO safe level
of lead for children. And yet many of our children are playing
often, if not daily, on fields that may contain lead and certainly do
contain many other toxic substances. Finding ANY lead in any play
area for children of any age is unacceptable. As the CDC notes: Every
effort should be made to eliminate ALL unnecessary sources of lead
in the environment, especially a child's environment. *Lead in
artificial turf is not only totally unnecessary but dangerous to
health AT ANY LEVEL*.
28. Other sources of information on Lead in tire crumb fields:
www.ehhi.org/turf/
www.safehealthyplayingfields.org
www.synturf.org
At www.synturf.org , a sampling of findings of lead on fields is available on
the page on lead:
No. 36] Mayo Clinics tips to protect children from lead in artificial turf.
April 2015.
No. 35] Durham, New Hampshire: Lead scare at UNH, s Memorial Field.
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November 2012.
No. 34] Beware of lead content in exotic color artificial turf fields!
September 2012.
No. 33] Odessa, Texas: Eager fans will not be given pieces of the artificial
turf field. September 2012.
No. 32] U.S. Federal panel increases child protection against lead. February
2012.
No. 31] UNLV researcher spreads word about the need to test artificial turf
fields. December 2010.
No. 30] Environmental Health Sciences study (2010): Deteriorating
synthetic turf dust containing lead may pose a risk to children. October
2010.
No. 29] Concord, Mass.: Town replaces fake grass fields, officials insist
nothing is wrong with the lead levels! July 2012

28. TWELVE (12) CARCINOGENS found and HOW DO THEY
INTERACT:
The Yale Study identified the presence of so many carcinogenic materials in
a single material that it raises many more questions about interaction of
PAHs with metals, and combination impacts. The interaction of the PAHs
and benzothiazoles with other materials in the fields needs to be
characterized and addressed
29. Strengthening Additives: Nanoparticles
We would also ask for information and clarity about tire strengthening
additives of any kind that were built into the material anytime in the past
30 years, these would have been added to tires.
[http://nice.asu.edu/nano/carbon-black-and-amorphous-silica-tires]

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Similarly, we request that the tire manufacturing industry explain their use
of nanoparticle products, of any kind, including the type and size, source
company and source country, and ask for an explanation about how:
a. they can be quantified in the product, and
b. how can they be cleaned up if they are released when the tire
crumb and or plastic “grass” carpet degrades?
c. We would also like to understand what material
characterization of their behavior in tires performance,
d. And or their behavior once they are released into the
environment.
e. We ask for any epidemiological due diligence that was
conducted by any tire company on nanoparticle use prior to
using them in a commercial product.
f. Plans for continued use and safety precautions tire
companies will impose upon themselves
g. Epidemiological studies conducted on these particles in tires
30. Plastics, Microplastic Fibers, Microbeads, and Small Particulate
Plastics
Assessment of microfiber particulate and small particulate plastics needs to
be assessed in characterization studies.
31. Flame Retardants
Flame retardants can be added to a tire in production, or applied post
production in a shipping setting or possibly as tire crumb. Since flame
retardants are known carcinogens with health issues of concern, and will
be on the surface of the waste tire crumb, tire infill providers need to know

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if they are present, and purchasers need to know that the material contains
flame retardants prior to purchase.
32. Tires and Tire Crumb Additives
Myriad products exist to clean, protect, condition, and color tires. We
wonder if they are components of tire crumb?
33. Road Waste Picked Up By Tires
Tires spend their lives on roadways, of course, and can pick up many
materials in their travels. Debris, hydrocarbons, ….

34 CARCINOGENIC, PATHOGENIC, Endocrine disrupting and other
harmful ingredients in tires cannot be removed by shredding tires
into tire crumb and must be assumed to be accessible.

35. Tire crumb and repurposed rubber appear to be the same thing,
with interchangeable use… but are they the same? We would like
clarification.
We would like clarification about the distinction between the tire crumb,
repurposed crumb rubber, and crumb rubber. Specifically if using the term
“repurposed rubber crumb” implies uniformity of ingredients? Does that
term imply tires are not used? If so, what are the ingredients in repurposed
rubber crumb and how do they differ from tire crumb?
36. We would also like access to all MSDS/SDS of tire crumb
manufacturers and tire companies, and the ability to ask questions about
how and where they were made, variations on lots, source and composite
addendums. It is difficult to locate them.
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37. EXEMPTION ON LISTING HAZARDOUS MATERIALS: We would like
to understand why tire companies have an exemption on their need to list
ingredients under Section 2: Hazardous Materials of an MSDS/SDS. We
were unable to find the source of that exemption, if it has a deadline, and
whether your study group thinks it is an obstacle to understanding and
characterizing risk of exposure from tires and tire crumb.
38. Of those MSDS that we located, several, like this Michelin North
America Material Safety Data Sheet for Michelin, Uniroyal, BF Goodrich,
says in “Section 2 HAZARDOUS INGREDIENTS: Note: Tires meet the
definition of article as defined by the OSHA Hazard Communication
Standard (29 CFR 1910.1200) and are exempt from MSDS
requirements.”
There was clearly no mention of 1,3 butadiene, carbon black, POHs, VOCs,
benzothiazoles, or any plasticizers, nor metals, styrene, sulphur, known
irritants, or well… anything. Since that section also outlines corrosive,
combustible and waste treatment, it is important for more than this issue.
We explicitly ask CDC/CPSC/EPA if they can use their existing authority to
require tire crumb companies and tire companies to provide ingredient
information.
39. SOURCE MATERIAL UNKNOWN: MSDS/SDS CANNOT REPRESENT
WHOLE FIELD. Tire crumb comes from many tires, and many sources.
Since not a single tire crumb field can accurately list or track which tires
were source materials, or what other mixed in components, and there is no
accountability from tire crumb recycling industry for the shredded product,
then MSDS/SDS cannot be accurate for a whole field due to variability.
Therefore, the burden of “proof” of risk lays squarely on the ability of the
purchaser (schools, sports directors, booster clubs) to assess risk… of a
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very very complex product. So, if the exemption stays in place, we will
know for sure that we cannot know what is in a tire crumb based field.

40. TREATMENT TO SHOW NO PARTICULATE OR BREAKDOWN:
SHOW US.
As for studies that claim that their product has been treated (such as
cryogenic treatment) to not break down into dangerous particulate, we are
deeply skeptical, and would ask for proof. We also ask for assay testing
over a period of at least several summer weeks. We ask for the researchers
to simulate the pounding over 10 years and assess the particulate
characteristics and particle size. That testing in fact is being done right
now… in thousands of children across the country. Simple observation on a
player body, on the sideline benches, or under a microscope shows
consistent breakdown into particulate.

41. SHREDDED, PULVERIZED, HIGH SURFACE AREA FORM OF TIRES
and ADD INS is LIKELY MORE TOXIC THAN WHOLE TIRES.
Unfortunately, because it is shredded, pulverized, and in loose and
unencapsulated form, tire crumb has exponentially more surface area than
whole tires (Thomas, Gupta study; ) and we are concerned the material is
very likely more toxic––possibly many times more toxic––in the school
field form than whole tire form, since the increased surface area provides
more opportunity for molecules to escape. We know for sure that the
increased amount of surface area in tire crumb makes the material in tire
crumb more available to the breathing and exposure zones, and to runoff.

42. CRUMB IS SURROUNDED BY DUST PARTICULATE:
Accurate characterization technique must include a study of the particulate
that surrounds tire crumbs, and steps must be taken to make sure that the
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sampling process does not inadvertently remove that dust and particles.
We found several examples of the samples being washed, some in
unbuffered water, prior to their analyses being done. Of course, that
removes the particulate that concerns us the most. Distribution of the
particulate size and type is important. Those particulate can become
aerosolized by numerous gases and we ask that attempts are made to
properly model this dynamic under high heat conditions, primarily.

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43. VERY COMPLEX PICTURE From TOXICOLOGY PERSPECTIVE: Tire
crumb material is complex from a toxicology perspective, largely due to the
chemical complexity presented by multiple known toxic components and
variation. It has been described as a “toxic soup” of ingredients for which
we have no consistent data on proportions or levels. Characterization of
ingredients’ margin of error is unknown..
Testing must be done at the field levels using accepted sampling plans that have
been statistically shown to be valid. Not fields have been tested in sufficient
detail to determine or rule out any exposures or risks. A look at testing protocols
for lead in urban soil sites illustrate the level of attention required and show the
degree that current testing has fallen short of that needed for decision making
for children’s health.

44. CONTACT PATTERNS, FIELD USE and ADJACENT BUILDING
CONTAMINATION
Exposure is likely determined by ingredients in surface, activity, and
number of children or users on field. Each school or community field has
high use and high contact patterns, such as hosting contact sports, like
football, lacrosse, soccer, and baseball, athletic camps, workshops and
practices. In those sports, children dive into the field materials. As a child
runs or skids or slide tackles, a column of material rises up, as does the dust
and particulate that surround the tire crumbs themselves.
Testing for exposure need to list weather conditions including humidity,
wind speed, and precipitation, temperature on field surface and ambient air
temperature. Number of children on field, and activity level of that play
needs to be recorded, video would be most interesting.
Children of all ages use the fields for multiple sports, recreation and school
events. Artificial turf tire crumb fields abound in elementary schools and at
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indoor and outdoor sports centers where children of all ages and all stages
of development play soccer, lacrosse, football, track, cheerleading, band,
and use the field for general recreational school activities. In the fields
with which we are familiar, families with members of all ages use the fields;
and the community holds events, picnics, special fairs, and activities. Some
fields are immediately adjacent to a school building.). That there are many
uses, and probably many levels of contact and exposure is an important
part of characterizing exposures, but both low dose exposures AND high
contact exposure scenarios and use need to be examined, with appropriate
epidemiological process.
45.. SCHOOL BUILDINGS AND SURROUNDING AREAS ARE
CONTAMINATED with a great deal of tire crumbs. The fields appear to
lose from 1-30 tons of material over their 8-10 year life, and some of it goes
directly into buildings, cars, and then homes. This impact needs to be
studied as an inadvertent consequence.

46. CANNOT ARGUE NO INHALATION OR INGESTION RISK or SAFETY
FOR EVEN A SINGLE FIELD. We argue that given the unique characteristic
of nonuniformity, known carcinogenic materials, breakdown into
particulate/dust, no known source of origin, and no accurate studies on
complex interactivity of those components in the children’s exposure zone,
in the tire crumb as it is installed today in 12, 000 fields, not a single field
installer, nor material provider can demonstrate that the material is safe
from inhalation and ingestion during normal use, active use, and on hot
days.

47. EVERY USE COULD POSE A TOXIC EXPOSURE and it would be
irrational to argue otherwise. We argue that due to the high variability of
toxins in the tire crumb substrate (from tires, unknown additives, and
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factory waste add-ins), and lack of any control of the material, well-known
sampling techniques will NOT accurately predict risks to human health.

48. CHILDREN CANNOT AVOID THE EXPOSURES: Since school children
cannot self-advocate and take responsibility for staying off a field if
directed to be there by coaches or school officials or parents, we must
assume that children cannot avoid the exposures when they play on those
fields.

49. CANNOT CLAIM THAT EXPOSURES WILL NOT OCCUR. Absolutely
no way to responsibly claim that ingestion and inhalation of particulate
from the material will NOT occur to those children.

50. HOTSPOTS of intermittent dangerous exposures are possible, and
should be expected and searched for in every field.

We must assume that tires have different “recipes” based on their type of
use. Therefore, knowing the type of tire used in tire crumb, and each tire
“recipe” would be helpful in assessing characterization of ingredients.
However, there is no way to ever know what tires, or what material is in
any field, and therefore, an MSDS/SDS cannot be representative of any
field, or even any meaningful part of a field. Alarmingly, the high variability
in the ingredients presents worrisome “hotspots” potential, where the
hotspots might be missed in sampling but even a single exposure could
have very serious impacts for a child who has the unfortunate luck to dive
into that hotspot. PAH’s may be more prevalent, and present dangerous
levels for installation period of the field, and for some unknown period of
time afterwards, and considered a “hotspot”, then the consistent release of
PAHs in the subsequent years could mean low dose, chronic exposures.
Both need to be examined.
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51. Lead, chromium, mercury and arsenic could be present in
hotspots, based on which tires were used, and how they were treated
prior to being placed in the field.

52. For example, when we asked about the source of lead in tire crumb
fields, an infill vendor explained to us that a) lead could be in any field as an
ingredient of the tires, of the treatment of tires, and b) once, they were
aware of a shipment of tires that was treated with an anticlumping material
that contained lead and the whole lot had lead, and c) that some lots had
flame retardants added as well. They would never really know, but “most
purchasers never ask”, according to the infill material vendor. If an MSDS
was required, an additional charge was to be imposed, since MSDS were
not available from the materials they acquired from China or other
countries. We have collected many more examples of the worrisome
unknown ingredients in our fields and can share with the study teams, if
requested. While this information is anecdotal, that is the point: we have
no idea what is in any field, for sure.

53. Another example, but this is not anecdotal: in a primary study field
exposures in CT, a researcher found that the children’s monitors showed
benzene. Since there is no safe level of exposure for benzene, and in fact,
tires are not expected to have benzene, the field was sampled more closely,
until that “hotspot” was located. The original source of that benzene was
not determined, but it was next to a busy parking lot where cars’ exhaust
may have been a source as they turned the corner, or possibly the tire
crumb material had been previously stored in an area with benzene in
surrounding environment, or perhaps it was picked up from contact on
roads. We will never know. That finding suggests that the carbon black in
the tires can adsorb additional toxins present near tires or tire crumb, and
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could release that material as the fields are pounded with running feet, or
possibly on a hot day. The proper characterization of this material needs to
account for adsorption characteristics of carbon black, and other
interactions

54. The point is, that it is impossible to locate hotspots for all toxins in
every field, and incorrect to extrapolate the risk for a whole field from
a single sample or even multiple samples, since every sample is
unique. So, while hotspots can easily be missed in a field, the
unfortunate child that dives into that particular part of a field has an
exposure that can actually be life threatening, but missed in its
entirety in the sampling based risk assessment.

55. In fact, since the tire crumb creates multi sized “dust” particles,
and off gases, it is impossible to prove that even a single field is safe
from inhalation or ingestion exposures from tire dust particulate, offgassing components, multiple toxins and combinations of toxins, and
heat.

56. Importance of the Heat Factor: Source of direct injury and
chemical catalyst

HOT HOT HOT HOT EXTREMELY HOT FIELDS
Grass playfields remain close to the temperature of ambient air, and are
often much cooler. Asphalt playgrounds used to have a use limit of 141F
and many schools remove children from playgrounds when temperatures
get hot. With tire crumb based turf fields, surface temperatures can soar on
even mild sunny days.
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Tire crumb fields “superheat” to levels that are routinely over 150F on a
sunny spring day, and in a recent study conducted on a sunny day Utah,
found to be close to boiling point, 190F, according to the Penn State Field
Turf Heat Study. The study found that tire crumb field surfaces are hotter
than ambient air, and increase in heat in a non-linear function with each
additional degree Kelvin of heat, hence the designation “superheating”. To
draw an example, on a Labor Day Weekend in DC area, with ambient temps
of 82F, the field surface temperature hit 164F by noon on several fields
used in a busy, tournament for about 1000 children, both boys and girls,
ages 8-15. Those levels are known to melt plastic cleats, require tubs of
water on the sidelines to cool down shoes, and create heat-related injury
including heat stroke, nausea, heat exhaustion, and dehydration in children
and all users. It is not unusual for children players to vomit, faint, and suffer
dehydration from hot conditions on the fields.

57. Marketing and sales for these fields tout their usability in all conditions
as a benefit (more practice and play hours), but in fact, the heat build up on
fields makes them very uncomfortable during many days and conditions. In
DC, there are over 100 days of sunshine each year, and most are during the
spring, summer and fall, making the fields uncomfortably hot and possibly
dangerously hot for a third of a year. A calculus should be made on the
percentage of safe days to play based on field yield risk, and heat.

58. Tire crumb fields do not have any protection from heat, and so they are
irrigated to be cooled down, but the effect is temporary.

59. To our knowledge, there has been no well known place for doctors nor
parents to report heat injury, though they are commonplace. (This author
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specifically remembers a hot, poor air quality day in August in 2014 in
Washington DC when during a single practice, 4 soccer players vomited,
another child was taken to the hospital after passing out, and another
sidelined himself against the coach’s wishes, due to extreme dizziness and
nausea.)

60. Reluctance to Report? Yet, it is curiously uncommon for school
teachers, coaches and parents to remove the children from the fields, due to
temperature. We cannot explain that in rational terms.

We have also noted another curious effect: as football, soccer and lacrosse
increase in popularity and competition in the US, competition for spots on
high performance teams is fierce. There is a perception from strong sales
and marketing of the fields, that the turf fields present a competitive edge
for a school, a club or even a teenager trying to get into college, and are
worth the high price paid. As psychologist Dr. Wendy Miller, explains, “ it is
a culture where high performance parents, players and schools might be
willing to overlook these injuries, thinking that to complain would
jeopardize their child’s access to a competitive team. This thinking could
easily lead to the silencing of reporting of injuries.”

Heat injury reporting needs to be included in the survey questionnaires,
and victims of heat injury and illnesses need to have a place to report, with
impunity.

61. HEAT MAKES THE CHEMICAL DYNAMICS ABOVE A FIELD VERY
COMPLEX

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In addition to the serious issue of direct injury from hot playfields to young
children, or anyone, the super hot fields present a very challenging
chemical situation.
Dr. David Brown, ShD, toxicologist, professor and former Deputy Director
of Public Health Practice Group at ATSDR/ CDC explains that, “the
unintended, and largely unstudied chemical consequences of what comes
off such an enormous quantity of high surface area material, in amounts
and sequence that is scientifically accurate is very difficult to predict and
model. Since the chemicals in the area above the field could change
instantaneously, the conditions are critically important (number of players,
temperature, time from last rainfall, etc.), as is the sampling methodology.
But no one has been able to come close to modeling the actual yield, we
only know the materials by characterization with samples, and that
variation in samples is so broad as to almost be meaningless, since it could
be easy to miss harmful exposures.”

62. Analyzing the field yield on a hot day is very complex, and challenging
to even trained toxicologists. The superheating of the fields makes gases
yield at faster rates as temperatures on the tire crumb surface increases.
So, as a day heats up, it is very likely that the yield increases directly with
temperature increase; a hot day creates more gases. Based on well
understood scientific laws, we presume that the gas yield from the field at
surface temperature of 50F (a cloudy day in January in DC) would be
considerably less than a field surface temperature of 158F measured last
week. If more gases are escaping the surface, then there are more
“opportunities” for particulate to adsorb onto the surface of the gases,
creating very dynamic series of compounds, none of which would be
recommended to inhale.. The changes in the chemical composition over the
fields as their temperatures rise is very difficult to test and model. These
changes happen in an instant… as a threshold is reached… and the
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exposures can increase sharply. It is a very sophisticated and difficult
challenge to model. But what is the most important is not only that the 24
gases that escape tire crumb (Norway Study) create dangerous mixtures
but those gas/particulate mixtures, (and air) create a vector for deep lung
exposures of all the materials in the tire crumb field. So, on poor air quality
days, when there are many children on the field and a lot of stirring up of
the material, the fields could present enormous risk.

63. We are concerned about the range of yield levels, but, we are most
concerned about the intermittent risk to children during those hot periods
(a hot, poor air quality summer day during children’s soccer camp week in
Washington DC, for example) when the fields are likely yielding more gas,
and therefore particulate has more “carriage” into lungs, respiration rates
are higher, skin is exposed, and perspiration is highest. All these are likely
factors in exposure. It is during those days when exposures are probably
highest, and high enough overwhelm a developing immune system.

64. Exposure Study Needs To Focus On Worst Case Conditions
We acknowledge that the level of yield from the fields might vary widely
with material variation, and will also vary with outdoor weather
(temperature, wind, humidity and sun) conditions. Taking averages from
fields across the country will be meaningless, and will only help the
industry to expand its message of “found no harm”. An analogy might be to
determine the health of a forest taking 4 samples from 40 locations, evenly
spaced, but the sampling might easily miss a blazing forest fire. That one
day might destroy living material exponentially, but it could easily be
missed. Dangerous exposures can be unpredictable in this material due to
the scope and scale, the toxic character, and the superheating
characteristic.

4 SHPFC COMMENTS ASTDR-2016-0002-0003
6

65. A better approach is to carefully detect high yield days, and look
THAT DAY for exposures in a child’s body during those periods. Since
the exposures might attenuate, the work would have to be done
expeditiously. The harmful exposures may or may not be detectable a day
or a month later in a child. Monitor both genders, for patterns that might
lead to that awful air quality soccer camp in the city on a tire crumb field,
on days when vomiting and melting shoes are commonplace. A focus on
the impacts from the high end of those yields we believe will present
exposures that are clearly, and unequivocally harmful from both heat injury
perspective and toxicity exposure potential. We do not know for sure if the
carcinogenic exposures from low dose regular exposures or from high dose
“events” are more dangerous, but both need to be studied as separate
situations, not as an average.

66. We urge your team to focus the study resources on primary
measurements made in high use scenarios on hot days, and refrain
from the approach used in earlier studies that look at chemical
compositions during winter or rain conditions on limited number of fields.

67. The only reliable way to assess the risk to children from a particular
field, or groups of fields, is to look at their direct exposures, and
importantly look at bloodlevels of the known substances. Cooperation from
both high use athletes and those exposed to chronic levels of materials will
be important.

68. The Study Needs To Focus Also On Low Dose Exposure Risks
Trained immunotoxicologists look at the impacts of chronic low dose
exposures to metals, PAHs, VOCs and many other materials in tire
SHPFC Comments ASTDR-2016-0002-0003 4
7

crumb. Their input is crucial to understanding risk of exposure in a
developing child.

69. Characterization Mistakes
Studies look convincing, but miss the forest for the trees.
Tire recycling and tire crumb industry reports are quick to point out that
when they find harmful materials in their samples, they are under the
known safety limits. There are two interesting fallacies in that reasoning.

First, since the samples in several studies are few and not uniform, they fail
to acknowledge the statistical significance of finding known regulated toxic
material in 2 million pounds of powdered tires… if one finds the needle, is it
luck, or is it because needles are more prevalent than expected?

Proof of presence is meaningful! For example, in the NY Study, PAHs were
found, as were metals, benzothiazoles, and many substances. Their
presence indicates a risk.

In a child’s product, since many materials are not known how they affect
children, just knowing they are there is enough to use a precautionary
principle and prevent the exposure. Arguing that the materials appear
under a limit (especially if that quantity is an average of multiple samples),
or there is no established limit (because it has not been studied), are not as
meaningful as the proof of their presence.

Second, though the conclusions of the industry reports may be of no harm
found/safety, a close look at the data itself on PAHs, lead, cobalt,
chromium, etc. is useful, since a) it proves presence, and b) at levels that
suggest risk for chronic exposure. Chronic exposure risk is the subject of
4 SHPFC COMMENTS ASTDR-2016-0002-0003
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a great deal of new cancer research, and we care about all the materials,
including those which are potentially toxic.

70. ARGUMENT FOR MORATORIUM BASED ON KNOWN
CHARACTERIZATION FOR TIRE CRUMB
Because of the:
a. known loss of 1-30 tons of material from the fields during the 8-10
year “life of the field” into air and water
b. ingredients list: over 50% of its components are known carcinogens
and pathogens, [cite Yale Study]
c. massive scope and scale of this product, (the amount of material and
surface area of these fields is enormous; scale/millions of pounds in
each installation),
d. inability to control the levels of toxic exposure to children, or even
properly characterize them due to immense variation and chemical
complexity of what happens on a hot day over a field, and around
children. We cannot suggest mitigation strategies for the danger,
because the material is inconsistent,
e. Even if we did know for sure what was in each field, and suggest
mitigation techniques and protections…. All the tire company has to
do is change their recipe, or many recipes, as they do continually,
and the study is worthless. Children are still being exposed to
whatever is in the tire, the lot or that particular field..
71. Moving Target Analogy
Even if the study were completely successful, and the tire crumb material
categorized properly, the trouble is, tire manufacturers could change the
“recipe” for tires… and in fact they do this regularly… and the study results
will be useless, or at best, diminish in usefulness.
SHPFC Comments ASTDR-2016-0002-0003 4
9

Any attempt to study tire crumb safety on turf fields is analogous to trying
to hit a moving target. Tire crumb is a waste product. Tires are not
designed or intended to be used as infill for turf fields.
Ingestion, inhalation and absorption of fine particulate by children is not a
consideration of tire manufacturers as they choose chemicals and
compounds for their tires. Nor are they bound to maintain any safety
considerations for such use by children.
So any study of present day tire crumb is a futile endeavor, because such
study tells us nothing about a field that gets installed immediately after the
study. Tire manufacturers often change the chemical composition of tires
and will likely do so again.
Even if a field passed safely concerns in a present day study, a new field
could easily fail a hypothetical study conducted the day after the present
study. So unless every field was tested using the exact same methodology
after every installation, there is absolutely no way to assure the user that
their new field is safe. Those new fields could easily have an entirely
different chemical composition simply because tire manufacturers changed
their tire ingredients.
So the present Federal Study is only a backwards looking study, not
forward looking. Any conclusion must be transparent and clear on that
issue - upfront and center. Otherwise the public is being misled into a false
sense of security.
72. Sampling: Not Appropriate For Tire Crumb
5 SHPFC COMMENTS ASTDR-2016-0002-0003
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The core pediatric toxicology problem in industry based safety studies, is
that there appears to be an assumption that tire crumb is a uniform
material, and behaves uniformly. It does not. There also appears to be an
assumption that sampling will be an accurate method for studying tire
crumb risk to children, and it is not. Sampling will not be accurate to
assess a non-uniform, heterogeneous material with multiple known
toxic ingredients, high direct contact (dermal, hand to mouth,
breathing zone) for pediatric use. Sampling cannot produce a single
sample that is representative of the whole field, or even a part of the
field, other than the sample itself.

73. Methodology needs to study PERFECT STORM exposure
conditions, and be able to calculate exposures during those relatively
dangerous days.

Nor can sampling in the way it is proposed (samples from 40 fields across
the US), illustrate impacts from a perfect storm of exposure conditions on a
particular field, say, during an intense soccer camp in in summer in
Washington, DC with high ambient and field surface temperatures (ie
160F), bad air quality, no wind, when working athletes are breathing in
particulate with high VOC, PAH, benzothiazoles, and carbon black… and
many more compounds, on a particularly high yield day. Averages cannot
be relied upon in sampling for this type of product, since they will further
obscure the risk from exposures to hot spots of high risk material that are
on fields. Averaging the results from a national distribution in various
weather conditions simply obscures the acute risks further; it is useless for
risk analysis. In layman’s terms, it is like studying a forest using “x”
number samples, but missing the forest fire that is blazing away at a nearby
area of the park. For a child, it means that she plays on a field that was
called “SAFE TO PLAY”, after sampling, but in fact she might easily have
SHPFC Comments ASTDR-2016-0002-0003 5
1

been covered with multiple materials known to cause cancer, and in fact,
that might be a regular event. The uncertainty of exposure frequency
makes the risk higher, not less.
74. The core of the methodology used in the 50 studies asserted by
the tire recycling industry were based on simple characterization of a
single sample, but not on realistic, combined, nor worst case (the most
important) use scenarios.
75. Multiple carcinogen and multiple pathogen combined effects need
to be measured. Single material measurements could be only a fraction of
the exposures, since the material exposures are likely to be from
combinations of materials.
76. BIOMONITORING FRONT AND CENTER
Because sampling presents inconclusive results, a methodology that relies
on biomonitoring will be more meaningful. We suggest that more
sophisticated approach be considered. Personal sampling monitors
attached to children, dermal, urine, breathing analyses, and particularly,
blood and tissue samples from frequent users, players on “Perfect Storm
Days” and those expected to have chronic low dose exposures. We
understand that biomonitoring raises more issues, but absent a good
model, empirical data is the most reliable way to accumulate actual
evidence of exposures and to be able to establish a reliable causal link to
the cancers and diseases we predict from exposures.
77. IMMUNOTOXICOLOGY SUPPORT: RECRUIT THE BEST PEDIATRIC
IMMUNOTOXICOLOGISTS AND RESEARCHERS. Some researchers and
epidemiological professionals are already on the trail of better ways to
5 SHPFC COMMENTS ASTDR-2016-0002-0003
2

identify actual exposures, and can create biomarker groups as indicators of
presence of illness or exposures. These researchers have background in
immunological toxicology, and can track subtle changes in an immune
system that might be precursors to serious disease, like cancer, kidney
disease, brain changes, and lung disease. It is possible to create biomarker
group to prove tire crumb exposures in users and we believe that the
preliminary proof of concept step could be accomplished in less than 6
months with cooperative athletes, and study volunteers, and modest
budget. While we will not list them here, for protection of their privacy and
frankly, for fear of industry retribution, we will nonetheless let you know
that we have found multiple professionals who are capable and willing to
work on this task, provided a protective forum and IRB standards are in
place.
78. Immunotoxicology support: look carefully at the ages those
immune system markers in all children who are using these fields,
understanding that some metabolic types, and ages may be more
vulnerable than others. In fact, there are early indications that certain
age groups, such as prepubescent females (age 8-11), may be more
vulnerable to exposures to benzothiazoles, plastics, phthalates, and
endocrine disruptors in general, and therefore might be at higher risk to
contract cancer or disease from low dose particulate exposures from
tirecrumb, and the plastic “grass” carpet particulate. We need to establish
the datum from players to study this. We still do not know, but some
indications exist. For that reason, we respectfully request that the study
team include toxicologists and epidemiologists that are trained to keep
these concepts front and center.
79. LOW DOSE EXPOSURE CONCEPTS and CONCERNS

SHPFC Comments ASTDR-2016-0002-0003 5
3

Based on what we know now about low dose exposures to VOCs, PAHs,
benzothaizoles, styrenes, carbon black, plastics, plasticizers, and metals,
even at low, sub-acute exposures, the fields could be very dangerous. That
possibility was not considered in the CPSC study, EPA study, nor in
mulitiple industry studies. These need to be assessed:


Chronic exposure to metals, plastics and plasticizers



Chronic exposure to carbon black mimics air pollution exposures



Immune system reactions



Endocrine disruption exposures from plasticizers and phthalates,



Exposures from multiple low doses and chronic exposures

80. The study should calculate yield of material that leaves the fields,
and how it leaves the fields. How much in the air , water pathways,
and with users (in shoes, cars, etc.) Interviews with schools and
vendors need to establish the replacement quantities of these fields,
and how often new material is put into place, since it would affect
exposures, and give an indication of gross yields. We estimate that the
fields lose from 1-30 tons (estimated) of material, so exposures and
impacts need to be measured in adjacent buildings, soils, and
stormwater systems. With 12,000 existing facilities, this may need to
be the subject of additional studies conducted to also assess if the
fields shall be regulated as point source contamination under Clean
Water Act and Clean Air Act. It is a very important metric, and a
perfect opportunity to include it, with little incremental cost, in your
study.

81. INTEGRITY STANDARDS. To track the history of the emergence of this
product is to track effective lobbying for regulation changes that favored
the tire industry, and the tire recycling industry. This industry took
5 SHPFC COMMENTS ASTDR-2016-0002-0003
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advantage of an enormous quantity of recalled and used tire stockpiles, and
heavily sold and marketed the materials to schools, and sports centers
where millions of children play. Central to the steps that catapulted this
industry forward was the removal of the designation of artificial turf fields
as children’s products, based on the rationale that adults played on them,
too. Yet the fields continue to be sold to elementary schools and to sports
centers brimming with elementary, middle and high school players. The
sales oriented industry was willing to submit children, schools and
communities to the materials in tires in enormous amounts, and call them
safe. As this claim is deeply questioned now, we also urge you to NOT
allow the sampling or data collection to be conducted by an interested
party, including schools, sports centers, athletic group personnel or
administrators, field installers or laboratories or consultants hired by
those groups, and establish peer reviewed standards for testing.
82. Any group or individual who does participate in the study,
including regulatory staff, needs to sign an affidavit certifying that she
or he, and her/his group has not received compensation or benefits in
any form, including but not limited to sales commissions, direct
payment, compensation, bonuses, grass to artificial turf grant, field
financing, water savings rebates (State of California and possibly
others), or physical benefits including but not limited to uniforms,
facility enhancements (restrooms, concession stands, parking lots,
storage facilities, etc.), stadium components, or field equipment of
any sort, from the field installers or tire crumb field industry and its
assigns, and has no financial conflict of interest. The document
should be filed with an appropriate agency and made public.
83. We ask for full transparency on all parts of the study process for
parents, interested parties, and schools.
SHPFC Comments ASTDR-2016-0002-0003 5
5

OUR REQUESTS TO ASTDR/CDC/CPSC/EPA
Request
1. Regulate tire crumb and rubber mulch as children’s product

5 SHPFC COMMENTS ASTDR-2016-0002-0003
6

Background
PEER filed formal request;
12,000 fields x 30,000 tires is the
amount of existing material in
children’s use; see table A for
details on volumes and surface area
sizes, children/schools. Known

carcinogenic material and known
contact.
2. Remove “safe to play, safe to install” or any other references that imply safety from all
EPA, CPSC and CDC websites and public information sources
3. Place all PEER artificial turf filings in Federal Record

PEER Formal Request; agencies
must remove all endorsements of
safety.
http://www.peer.org/campaigns/p
ublic-health/artificial-turf/newsreleases.html

4. Issue a directive to public health agencies to disseminate warnings regarding unknown
risks from lead exposure from AT fields, as well as exposures to carbon black, known
carcinogens, PAH, VOCs into air and water pathways; direct hospital systems and medical
systems to screen for tire crumb field use, and report results
5. Use only independent lab or consultants unassociated with tirecrumb industry, adhering
to high ethics guidelines; transparent process for review; affidavit of no conflict of interest
6. Commission a primary study, conducted by independent, peer reviewed group such as
CDC to examine existing cancers AND illness in tire crumb field users and maintenance
workers of tire crumb fields
7. Mandate Cal Recycle Study corrections to methodology; mandate methodology peer
review; and mandate to impose Prop 65 rule based on OEHHA’s own findings on
carcinogenic exposure
8. Convene a conference for presentation of risks and concerns from parent groups, cancer
survivors to Federal Research Team

For parents, schools, athletic groups
and communities; conduct parent
outreach webinars

Needs participation from
CDC/CPSC/EPA staff so parents
and public can have direct contact

9. Convene series of webinars and open comment opportunities
10. Allow public health and environmental advocacy groups in Federal Research Team
with complete transparency
11. Establish a collection point for recording experience of victims and those who may
have suffered injury from use of the fields, including heat injury, concussion or head
trauma, cognitive disorder, illness, and cancer for study and documentation; victim
hotline; for both child and adult contact with fields
12. Funding to identify potential biomarkers of exposure; conclusive marker study in users
13. Conduct blood monitoring and studies on existing cancer survivors.
14. Conduct cancer cluster study on soccer player cluster, and identify additional clusters
such as maintenance workers and installers
15. Provide full transparency with all interested parties
16. Conduct full epidemiological study of tire crumb on playfields existing and predictive
17. Study forms and questionnaires should include data collection on what is released
from fields into air, adjacent areas, water pathways, and quantified. Replacement
quantities for tire crumb fields should be quantified and examined as a metric that
indicates yield.
18. Based on release/yield figures, and other inputs, tire crumb fields should be evaluated
for compliance with Clean Water Act and Clean Air Act, and regulated accordingly.
19. We request that OEHHA study methodology be peer reviewed by your agencies
before it begins, taking into account the comments received in this proceeding.
20. OEHHA Study Process and Methodology Concerns: How will those be considered?
21. Consider explicit protection from retribution steps be put in place to protect
researchers, players, and concerned parents from retribution

SHPFC Comments ASTDR-2016-0002-0003 5
7

5 SHPFC COMMENTS ASTDR-2016-0002-0003
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Page 1 of 2

PUBLIC SUBMISSION

As of: 5/3/16 6:45 PM
Received: May 02, 2016
Status: Posted
Posted: May 03, 2016
Tracking No. 1k0-8per-wqbb
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0081
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: Laura Johnson
Address: 98020
Email: [email protected]

General Comment
Health professionals, including experts on children's environmental exposures from Mt. Sinai
Hospital, are voicing extreme concern over exposure, particularly in children, to the known
carcinogens, endocrine distributors, neuro-toxins, and toxic heavy metals, contained within the
finely ground tire mixture. This concern is partly fueled by the growing number of cancer cases
in children and young adults who were frequently exposed to the recycled rubber surfaces.
Previously, the EPA endorsed the use of crumb rubber as a viable way to dispose of millions of
used tires, as well as a way to reduce injury, but some of its own scientists have pointed to
research suggesting potential hazards from exposure to crumb rubber. This research includes
the 2012 study: Hazardous Organic Chemicals in Rubber Recycled Tire Playgrounds and
Pavers- which concluded that the "presence of a high number of harmful compounds, frequently
at high or extremely high levels, in these recycled rubber materials. Therefore. They should be
carefully controlled and their final use should be restricted or even prohibited in some cases",
and a very recent 2015 study: Release of Polycyclic Aromatic Hydrocarbons (PAH's) and
Heavy Metals from Rubber Crumb in Synthetic Fields- which concluded that "the recent study
demonstrate that PAH's are continuously released from rubber through evaporation. Athletes
frequenting grounds with synthetic turf are therefore exposed to chronic toxicity from PAH's."
I am among a growing group of parents who have opted to take the precautionary measure of

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Page 2 of 2

keeping our children off of these fields all together, and advocate for safer alternatives, while
waiting for an answer to the question so many are asking "Are these fields safe?" Before I knew
about the toxicity and carcinogenic chemicals contained in crumb rubber, my children did play
on the fields. I remember that even on mildly warm days the smell of tires was significant, and
on days over 80 degrees the combination of heat and smell was enough to drive many parents
from the field, to sit on a nearby grass median. I remember watching babies crawling on the
sidelines squishing the grass blades with their hands some attempting to eat the crumbs, many
with bottles in hand. I saw preschoolers sitting and making piles of crumb rubber with one hand
and a snack in the other hand. These children were just inches above the turf surface. We have
created a situation where our youngest children are exposed to a toxic substance from birth and
continuing through crucial developmental years. This type of use and exposure has, admittedly,
not been adequately studied, and in essence we are carrying out a large scale experiment on our
nation's children! Parents like me, have assumed that the fields are safe. We would never
imagine that a substance, which can be inhaled and ingested, and is clearly marketed for
children to play on, was not thoroughly tested for safety.
We need real answers- from epidemiological studies- and in the meantime the public should be
provided with information on protective measures to take on current fields. Additionally, there
should be a moratorium in place on construction of new crumb rubber fields. The potential is
great and the risk is simply not acceptable.

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Page 1 of 2

PUBLIC SUBMISSION

As of: 5/3/16 6:46 PM
Received: May 02, 2016
Status: Posted
Posted: May 03, 2016
Tracking No. 1k0-8per-6zzd
Comments Due: May 02, 2016
Submission Type: Web

Docket: ATSDR-2016-0002
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ
Comment On: ATSDR-2016-0002-0003
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill ATSDR-2016-0002
Document: ATSDR-2016-0002-0083
Collections Related to Synthetic Turf Fields with Crumb Rubber Infill 0923-16PJ Comment on
FR Doc # 2016-03305

Submitter Information
Name: SHPFC Fairfax Chapter
Organization: Safe Healthy Playing Fields - Fairfax County Chapter

General Comment
These Comments were also submitted by the Safe and Healthy Playing Fields Coalition. The
Fairfax Chapter is submitting them as well in order to document our support for the comments.
INTRODUCTION
On behalf of the millions of children, parents and athletes who play field sports in the US at
schools, parks, athletic facilities and playgrounds, thank you for agreeing to study the potential
harm caused by playing on or being near athletic fields with surfaces made waste tires. There
are more than 12,000 of these playfields in place (15,000 according to the website of a large
company that installs them), and they are being installed at a rate we estimate to be about 3000
a year. By our calculations, 12,000 fields currently present 2,380,000 tons or 4,760,000,000
pounds of loose, unencapsulated tire crumb on their field surface. (See our Table of Runoff and
Material Volumes attached.) Tens of thousands of students and young athletes play on those
fields, many more thousands have direct or indirect contact with the material. It is a public
health issue of substantial importance.
The following lists our comments on the proposed study. We argue that the fields present
known carcinogenic, pathogenic, and mutagenic material in a high surface area, pulverized
form that is more toxic than whole tires, and should never have been allowed near children, or
adults, because of risk of ingestion and inhalation exposure to all the ingredients in tires. On

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Page 2 of 2

warm, sunny days the surface temperature routinely reaches over 150F, which presents direct,
well-known heat injury risks to children. The heat increases off-gassing of the tire components,
increasing the likelihood of pulmonary exposures, and creates a complex dynamic in the
children's exposure zone immediately above a field that has not been correctly modeled or
studied yet. The material lacks uniformity, or any regulatory or exposure controls. We assert
that it is impossible to assure even a single tire crumb field is free of inhalation and ingestion
risk of dangerous particulate and gases inherent in tires, tire crumb, and add-in composites; and
that dangerous and unwanted exposures from lead, benzothiazoles, 12 carcinogens, phthalates,
carbon black and other materials, can happen with every use. The data gaps are enormous, and
we hope CDC/CPSC/EPA will recognize there is no way the tire crumb industry can protect
any player, on any field, from the potential for dangerous exposures with normal use. We argue
that not enough scrutiny was placed on this material.
NOTE: The Safe and Healthy Playing Fields Coalition is a grass roots group of scientists,
public health professionals, toxicologists, neurobiologist, educators, plastics engineers, medical
doctors, waste management and remediation professionals, coaches, researchers, and parents
who donate their own time and skills towards helping communities and individuals assess risks
to their communities from tire crumb field use. We do not have a lobbying firm, law firm, hired
laboratory, consultant, or revenue-generating source (such as tire crumb), and rely solely on the
skill of researchers who donate time to compile our comments. That said, we have found
compelling data that refutes almost all claims of safety, and when we asked for additional time
to compile the information, we were given two weeks, but denied additional time. Hence, we
are working at a disadvantage, and hope that during this study year, we will have time and
opportunity to substantiate our concerns, and share our research with the study officials. One of
our comments below explains our requests for a conference or virtual meeting that allows more
disclosure and discussion.
Our comments are listed in numerically and organized into: 1. General Comments, 2.
Characterization and methodology comments; 3.Summary List of requests, and a number of
supporting documents are also submitted as part of our comments.

Attachments
SHPFC FINAL ASTDR 2016-0002

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Comments on ASTDR 2016-0002-0003
Federal Research Action Plan on
Recycled Tire Crumbs Used on Playing Fields and Playgrounds
Submitted to Federal Register May 2, 2016

SAFE AND HEALTHY PLAYING FIELDS COALITION
www.safehealthyplayingfields.org
A grass roots coalition working for healthier alternatives for children and
communities

INTRODUCTION
On behalf of the millions of children, parents and athletes who play field
sports in the US at schools, parks, athletic facilities and playgrounds, thank
you for agreeing to study the potential harm caused by playing on or being
near athletic fields with surfaces made waste tires. There are more than
12,000 of these playfields in place (15,000 according to the website of a
large company that installs them), and they are being installed at a rate we
estimate to be about 3000 a year. By our calculations, 12,000 fields
currently present 2,380,000 tons or 4,760,000,000 pounds of loose,
unencapsulated tire crumb on their field surface. (See our Table of Runoff
and Material Volumes attached.) Tens of thousands of students and young
athletes play on those fields, many more thousands have direct or indirect
contact with the material. It is a public health issue of substantial
importance.

The following lists our comments on the proposed study. We argue that the
fields present known carcinogenic, pathogenic, and mutagenic material in a
high surface area, pulverized form that is more toxic than whole tires, and
should never have been allowed near children, or adults, because of risk of
SHPFC Comments ASTDR-2016-0002-0003 1

ingestion and inhalation exposure to all the ingredients in tires. On warm,
sunny days the surface temperature routinely reaches over 150F, which
presents direct, well-known heat injury risks to children. The heat
increases off-gassing of the tire components, increasing the likelihood of
pulmonary exposures, and creates a complex dynamic in the children’s
exposure zone immediately above a field that has not been correctly
modeled or studied yet. The material lacks uniformity, or any regulatory or
exposure controls. We assert that it is impossible to assure even a single
tire crumb field is free of inhalation and ingestion risk of dangerous
particulate and gases inherent in tires, tire crumb, and add-in composites;
and that dangerous and unwanted exposures from lead, benzothiazoles, 12
carcinogens, phthalates, carbon black and other materials, can happen
with every use. The data gaps are enormous, and we hope CDC/CPSC/EPA
will recognize there is no way the tire crumb industry can protect any
player, on any field, from the potential for dangerous exposures with
normal use. We argue that not enough scrutiny was placed on this
material.

NOTE: The Safe and Healthy Playing Fields Coalition is a grass roots group
of scientists, public health professionals, toxicologists, neurobiologist,
educators, plastics engineers, medical doctors, waste management and
remediation professionals, coaches, researchers, and parents who donate
their own time and skills towards helping communities and individuals
assess risks to their communities from tire crumb field use. We do not
have a lobbying firm, law firm, hired laboratory, consultant, or revenuegenerating source (such as tire crumb), and rely solely on the skill of
researchers who donate time to compile our comments. That said, we have
found compelling data that refutes almost all claims of safety, and when we
asked for additional time to compile the information, we were given two
weeks, but denied additional time. Hence, we are working at a
2 SHPFC COMMENTS ASTDR-2016-0002-0003

disadvantage, and hope that during this study year, we will have time and
opportunity to substantiate our concerns, and share our research with the
study officials. One of our comments below explains our requests for a
conference or virtual meeting that allows more disclosure and discussion.

Our comments are listed in numerically and organized into: 1. General
Comments, 2. Characterization and methodology comments; 3.Summary
List of requests, and a number of supporting documents are also submitted
as part of our comments.

PART I: GENERAL COMMENTS:
1. CPSC/CDC/EPA should use their existing authority to immediately
reclassify tire crumb athletic fields as a children’s product, since
thousands of fields have been installed in schools that serve hundreds
of thousands of children.

2. We have grave concerns about their safety to human health and the
environment, since known carcinogenic and pathogenic components in
the field material yield into both air and water pathways, and provide
ample opportunity for both chronic low dose exposures with every
use of the field to lead, chromium, mercury, zinc, PAH, VOC, carbon
black, styrenes, benzothiazoles, and plastics; and more intermittent,
but dangerous high dose exposures from “HOTSPOTS” of component
material. (See comments on Characterization). Each of the fields has
material that is known to cause cancer, illnesses, and injury in humans; and
leachate from runoff causes several negative impacts on the aquatic
ecosystems. We believe that the potential for human illness (including
several cancers) from both low dose and high dose exposures to the
ingredients in tires is staggering. Basic logic favors our position. Based on
SHPFC Comments ASTDR-2016-0002-0003 3

the known potential for exposures to children, and the finding of a group of
200 soccer players with cancer (the group represents the reach of a single
charismatic soccer coach), an immediate moratorium on new construction
of the fields should be put in place with the existing authority of
CDC/CPSC/EPA, until the tire crumb fields can be shown to be safe to
inhale and ingest.

3. The tire crumb recycling industry, which appears “green” in its
efforts to sell millions of used tires in “repurposed” shredded form, in
fact enables a direct transfer of the contamination burden of waste
tires from landfills/collection sites (in the US and abroad) to the play
surfaces of 12,000 schools and sports centers, where tens of
thousands of children and adults have direct contact with the toxins in
tire crumb materials on the field surface, and these exposures could
happen with every single contact.

4. For the most part, the schools and sports centers do not have
resources to conduct toxicity due diligence; meaning, they do not have
access to a toxicologist who reads the industry studies with their health as
the only priority. Purchasers rely on the tire crumb recycling industry
statements, industry studies, and industry funded websites that claim
toxicology assessment and public health guidance. The sales material can
be striking, and the studies appear convincing on the surface, but our study
groups have found significantly misleading information about the safety
and actual risk of harm from the tire crumb fields to all users, particularly
children. They are likely unaware that claims that the fields are “SAFE TO
INSTALL; SAFE TO PLAY” have been repealed.

5. PEER Filings. Public Employees for Environmental Responsibility have
filed a number of complaints and documents that argue for a repeal of
4 SHPFC COMMENTS ASTDR-2016-0002-0003

endorsements of tire crumb safety from EPA/CPSC, and those statements
were in fact repealed; but most schools and potential purchasers are
unaware of the removal of endorsements and claims of safety. The PEER
filings are an excellent source for telling the toxicity story and regulatory
story of this product. We respectfully request that the entire file of
complaints and responses to the complaints, and other supporting material
be entered into the record for ASTDR 2016-0002-0003.

The full list of documents for the ASTDR 2016-002-0003 collection
and record can be found here:
http://www.peer.org/campaigns/public-health/artificial-turf/newsreleases.html. Please include all in that list, and all supporting
materials.

6. Formal legal requests have been made to classify the tire crumb fields as
a children’s product since children use them, and sales and marketing
material are very clear about tire crumb fields are for children.
CDC/CPSC/EPA should use their existing authority to explicitly label
the fields as children’s products. (Please refer to PEER filings for details
and supporting arguments: http://www.peer.org/campaigns/publichealth/artificial-turf/news-releases.html)

7. CLASSIC CANCER CLUSTER APPEARANCE: SOCCER PLAYERS
Parents and schools may have trusted the “Safe to Play” statements, but
the parents of the 200 young women and men, who played intense
soccer and were stricken with cancer do not trust those claims
anymore.

SHPFC Comments ASTDR-2016-0002-0003 5

The case of over 200 young soccer players who used tire crumb fields and
contracted cancer, strongly indicates a classic cancer cluster, though the
cases have not undergone the formal validation process, not yet. That is
because a process for the collection of this information, does not exist yet
for either cancer victims, or for other illnesses, head injuries, and heat
injuries/illness from the fields.

8. We respectfully request that an official study of the soccer player
cancer cluster be initiated by CDC immediately.

Through our activist network, we learned about these cases, which were
reported to the NBC news link, or directly to a single, trusted concerned
soccer coach. EHHI reported as follows:
______________________________________
“New Cancer Numbers Among Soccer Players on Synthetic Turf,
April 2016
It is important to remember that the only people counted in the numbers
below are those who have known to call Amy Griffin. There is still no
government agency tracking the cancers among the athletes who have
played on synthetic turf. We know the actual numbers of athletes who have
played on synthetic turf and contracted cancer have to be much greater
than those who have known to report their illness to Amy Griffin.
In January of 2016, there were 159 cancers reported among soccer players;
now (April 2016) there are 166. Ninety-seven of those in January
were goalkeepers; now there are 102. Sixty-one percent of the soccer
players with cancer are goalkeepers. As of this writing, 220 athletes of
various sports who have played on synthetic turf have cancer; 166 soccer
players who have played on synthetic turf also have cancer.
6 SHPFC COMMENTS ASTDR-2016-0002-0003

166 Soccer Players who have played on synthetic turf and have cancer


102 are goalkeepers (61% are goalkeepers)



64 soccer players with lymphomas, 39 are goalkeepers (61%––over
half are goalkeepers)



10 soccer players with Non-Hodgkin lymphoma, 7 are
goalkeepers (70%––over half)



54 soccer players with Hodgkin lymphoma, 32 are
goalkeepers (60%––over half)



41 total leukemias, 24 are goalkeepers (59%––over half)



16 total sarcomas, 7 are goalkeepers (44%)



12 thyroid, 9 are goalkeepers (75%––over half)



11 brain––5 are goalkeepers (45%)



9 testicular––6 are goalkeepers (67%––over half)



4 lung––3 are goalkeepers (almost all are goalkeepers)

Remaining are OTHER rare cancers.”
Source: Various; Victim parent volunteers, EHHI primary collection;
4/2016 (ongoing) _____________________________________________________________

All the victims were frequent users of turf fields, spending multiple hours a
week in close contact with the material in the fields. All were in their midtwenties or younger.

9. The self-reporting to a trusted coach, is also an indication that the
actual illness rates are not yet being properly assessed or managed by
any hospital, medical system, or group; there is no “home” for this
information, yet. The 200+ cancer victim count is likely the reach of a
single coach with the help of a link in broadcast media, and a fraction of the
actual count of victims of cancer or other serious illnesses. Better
SHPFC Comments ASTDR-2016-0002-0003 7

investigation and creating a “safe” place to report serious and intermittent
illness will uncover many more victims, and provide needed perspective on
the accuracy of risk assessment for this product.

10. The CDC and appropriate agencies should issue a directive asking
for adequate screening for injury and disease. That US hospital and
medical systems are not yet set up to collect this data is a contributing
factor; and concurrently, screening for synthetic field use should be part of
a responsible screening protocol. To our utter dismay, we learned from
pediatric oncologists in our group that at least some oncologist are
prohibited from screening victims/patients for tire crumb field use; the
screening must be part of the approved protocol, and tire crumb product is
not yet included..

11. In fact, the number of all injuries from tire crumb fields should be
collected and analyzed to include, but not be limited to: head injury
and concussion; joint injuries (multiple); heat injury; blood cancer;
lymphomas; testicular cancer; pulmonary illness; neurological
impairment; kidney disease; diabetes; brain disease and cancers.
These findings need to be documented, and the children who suffer
from them should be screened for tire crumb field use and proximity.
No doctor or oncologist should be prevented from asking questions,
screening for, or questioning the safety of this product or contact with this
product. We believe there are many more heat related illnesses, head
injuries, and endocrine system disruptions directly resulting from exposure
to the fields than what is being reported.

12. REQUEST MORE INVESTIGATION INTO EXISTING AND POTENTIAL
CANCER CLUSTER: We ask that the multiagency group takes steps to
expedite the process of collecting epidemiological data and verification of
8 SHPFC COMMENTS ASTDR-2016-0002-0003

the current soccer player cluster, and other potential clusters, to include
field maintenance workers who rake the fields, field installers who pour the
millions of pounds of material onto field surfaces, school custodians, high
contact users of any kind, and school children in buildings adjacent to the
fields. Residences near the fields should be considered in the scope of the
study or subsequent studies. In our own informal assessment, and
using SEER database and known levels of cancer victims, we found the
potential for 7-11 cancer clusters. We respectfully ask the CDC experts
to look into this possibility and take the necessary steps to prevent
additional injury and cancers.

13. NEED FOR EXPLICIT PROTECTION FROM RETRIBUTION: Sadly, the
families, coaches, and school leaders who have reported illnesses do so
with concern for retribution from the tire crumb industry, school
boards, university administrations, and even sports league
administrators, and may need explicit protection and remedy against
retribution. Researchers who study the potential for harm tell us that they
do not have protection from retribution from tire crumb field industry
proponents. Even in our own group, public health and medical
professionals must make statements of concern anonymously to protect
themselves from retribution––professionally and personally from industry
proponents. Adequate protections need to be established to protect the
professionals and parents who speak out.

14. PROTECTION FOR CHILDREN IS NOT A COST-BENEFIT ANALYSIS.
Children have a unique vulnerability to toxic exposures––both intermittent
high exposures––and to low dose exposures, and if we are aware of a
carcinogenic presence, then we are responsible for using a precautionary
principle, and removing that exposure risk. With due respect, this is not a
cost-benefit analysis that will show a percentage of children will get sick
SHPFC Comments ASTDR-2016-0002-0003 9

(cost) vs. tournaments played or jobs created (benefit). It is a decision
made by a civil society that upholds protection for children’s health above
all other industry priorities, and a recognition that tens of thousands of
children, if not hundreds of thousands, are already being exposed to
material with known carcinogenic, and harmful materials on school turf
fields.

15. The CDC/CPSC/EPA should recognize that the fields serve children,
acknowledge that there are zero safety controls on the material and the
potential exposures, and immediately acknowledge tire crumb fields as
children’s products, and use your existing authority to regulate them as
children’s products. Therefore, we emphatically REQUEST THAT THE
CPSC/EPA/CDC USE EXISTING AUTHORITY TO IMMEDIATELY
CLASSIFY ARTIFICIAL TURF AS A CHILDREN’S PRODUCT, SINCE
THOUSANDS OF CHILDREN ALREADY USE THE FIELDS, IN THOUSANDS
OF SCHOOLS.

Since children and adults are already being exposed on tire crumb fields to
the materials in tires, we ask for an immediate moratorium on further
construction of tire crumb based or recycled rubber based artificial
turf fields until adequate assurances that tire crumb particulate, offgassing, and combinations are safe for children to inhale and safe for
children to ingest.

Your three agencies do not need to conduct a study to know with
absolute certainty that tires were not designed to be inhaled by
children, and we should protect children, at any length, from chronic
or lose dose carcinogenic exposures.

1 SHPFC COMMENTS ASTDR-2016-0002-0003
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Even if we cannot model or know (or will we ever know) the exposures to
each child, each day (and we will never know), we do know with certainty
that:
1. Carcinogens are in tires.
2. Shredded, pulverized tire crumb contains everything in tires, and
more ingredients, including: carbon black, phthalates, VOCs, PAHs,
benzothiazoles, lead, chromium, zinc, nanoparticle additives,
proprietary additives, 12 known carcinogens, 90 materials known to
be harmful to human and environmental health, (EHHI)
3. The material can be inhaled when playing and ingested with contact,
or intermittent adjacent contact.
4. Every single direct or indirect use has the potential for exposure to
hotspots and low dose chronic exposures to multiple scenarios of
these materials.
5. The exposures could impact children, school buildings, and
surrounding areas; contamination travels to cars, homes, and even
children’s bedrooms.
6. It is both within the authority and the responsibility of your three
agencies to take immediate action to protect the public, especially
children, from known carcinogenic, pathogenic exposures.
.
Only a complete moratorium on their use will protect the millions of
children, athletes and bystanders from inhalation and ingestion of the
materials that yield from tire crumb synthetic turf fields.

16. It is also evident that tire crumb will never be safe unless ALL tire
ingredients, all “recipes”, the manufacturing of tires, and then preparation
of materials for fields are controlled from a toxicity perspective. This level
of voluntary cooperation from the tire manufacturing industry will, of
course, never happen.
SHPFC Comments ASTDR-2016-0002-0003 1
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17. ONLY UNIFORM MATERIAL SAFE TO INHALE AND INGEST IS
APPROPRIATE FOR SCHOOL FIELDS ; UNTIL THEN, A MORATORIUM.
When the play surface material is uniform, consistent, and controlled, when
it is tested by an adequate study with pediatric toxicology assessments to
be safe for ingestion and inhalation, and results are peer reviewed
following IRB standards, then we may consider a synthetic turf field might
be safe. Until then, tire crumb should be rejected from any casual or
unnecessary contact with children or adults.

18. RECONSIDERATION: A reconsideration of the moratorium could occur
when the industry can demonstrate a uniform, non-carcinogenic, noninhalable, non-ingestible alternative that does not present PAH, VOCs,
phthalates, lead, chromium, mercury, 1,3-benzothiazoles, butadiene,
styrenes, carbon black (in particulate, gaseous form, or any form to
children); and the product undergoes strict, peer-reviewed study by
independent qualified toxicologists who have a mandate to protect
children’s health and the health of the environment above the interests of
industry. The hypothetical product should be subject to regular reviews
and quality control determinations to ensure safety over the life of the
synthetic field. Safety Data Sheets should be provided and accessible for
every user. If waste tires are used, the controls requested above will never
be possible, since the tire material, by definition, is a composite of many
toxins in unknown quantities and with unknown impacts.

PART TWO: CHARACTERIZATION OF TIRE CRUMB COMMENTS
1. SCALE AND SCOPE: Tire crumb potential to individuals, buildings,
surrounding areas and stormwater for contamination is enormous.
1 SHPFC COMMENTS ASTDR-2016-0002-0003
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2. PUBLIC HEALTH ISSUE: SCALE AND SCOPE CONCEPTS
The potential for contamination from tire crumb is a growing public health
issue, in terms of the relative size of the product and its mass; the total
number of potential fields; and their basic contact with students, athletes,
school personnel, buildings, communities, and streams/storm water.

To give an idea of the existing volumes of material, the field runoff and
children affected or who may be affected, we have developed reference
tables, and the summary is attached to this filing These tables indicate the
scope and scale, and demonstrate that these are not isolated fields, nor tiny
exposure potentials. The quantities of material are enormous. The source
and reasoning is explained, but the tables are designed for your model
development and quick reference.

3. ENORMOUS QUANTITIES ON EACH FIELD SURFACE .
To give an idea of the scale, a modest soccer field uses 30,000 waste tires.
According to a randomly selected company selling packaged tire crumb
infill for original or replacement treatments, 30,000 tires makes about
396,667 pounds of lbs of material. According to our calculations, the
volume for 2” thick field is about 525 cubic yards, However, a large
football field, three times the size of a small soccer field, could use
1,000,000 pounds of tire crumb material.

4. The tires are shredded, pulverized into crumb of various sizes, and the
shredded material is poured on top of a plastic “grass” carpet. Importantly,
the material is loose, unencapsulated and can loft into the air when struck
by a ball or foot, or body. We estimate that, depending on the school, each
field has regular, daily contact with at least 1000 athletes and students. At

SHPFC Comments ASTDR-2016-0002-0003 1
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sports events, busy tournaments, or with active use, a field can have
contact with many, many more.

5. No fields we found have mandated capture of the leachate or
particulate at the field.

6. TOTAL FIELD VOLUMES POTENTIAL:. The universe of potential tire
crumb playfields is approximately 200,000 - 220,000 schools and athletic
facilities in the US, based on number of schools. The potential reach of
exposure from use of these fields is in the millions of children, millions of
adults, hundreds of thousands of exposed buildings and adjacent soils, and
hundreds of thousands of public easements and storm water access points
(we estimate 1:1 ratio for field to point source drainage).

7. TABLE RUNOFF AND VOLUMES: SUMMARY OF KEY METRICS

For reference, we analysed fields by sport type, by Metropolitan Service
Area, and calculated the volumes for rainfall (by city), and for amount of
tire crumb material on a field surface.

Key metrics are the following:



Estimated tire crumb per 85,000 sq feet field and 2” deep tire crumb
infill is 525 cubic yards, 396,667 pounds, or 198 tons per field.



The total amount of tire crumb material on surface of 12,000
fields is estimated to be 6,296,296 cubic yards, or
4,760,000,000 pounds or 2,380,000 tons that are currently in
sports centers and schools in April 2016..

1 SHPFC COMMENTS ASTDR-2016-0002-0003
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

Runoff is calculated by city and field size, but the total runoff
for fields in the top 50 MSAs is 15,006,99,787 gallons.



Total Runoff for 12,000 fields based on number of fields per MSA,
accounting for rainfall in that MSA, and added together for 2016 is:
23,370,639,827 gallons… for a single year.

The calculations were made to illustrate the scale and scope of this product,
and to characterize the reach of exposures from the field surface into the
airway, and into the water pathway.

8. INGREDIENTS IN TIRE CRUMB: Lack Of Uniformity, High Variation,
Multiple Toxins
Tire crumb appears to be a composite material, heterogenous with multiple
known carcinogens, pathogens, and mutagens. The material is not uniform,
comes from multiple sources and lots, and can be mixed with plastics and
materials of unknown origin. The material can have anticlumping agents,
flame retardant additives, paint, and strengthening or characteristic
enhancing additives. Shredding of tires can cause small pieces of steel or
metals to be included in the material from steel belted tires. Some tire
crumb is from newer depositories from recalled tires, some from landfills,
and some have been subjected to a variety of weather and conditions.
Leachate and off gassing could be variable, with the expectation that newly
installed/poured material off-gassing is higher than from an older field, but
we expect those rates would vary with the age of the tires from which the
tire crumb was made.

SHPFC Comments ASTDR-2016-0002-0003 1
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9. HETEROGENEOUS, MULTIPLE TOXINS, UNKNOWN ORIGIN: To say that
tire crumb infill comes from multiple sources, is an understatement:
dispensaries, landfills in the US, landfills abroad, collection centers, factory
waste from China, factory waste from the US and abroad. Some of the
newer marketed blends included multi colored sport shoe waste, shoe
factory waste, and many unidentified synthetic materials. Just as tire
companies may add anything to their “recipe” for a tire, an infill provider
may offer materials that could have anything added into the blend. Tire
plugs, tire polishes, tire coatings, and materials picked up on the roads
should be considered. And even if it is known that there are only tires in
the blend, there is a broad variation in the ingredients based on the use of
the tire, and the manufacturer. Those tires may look the same, but from a
toxicity standpoint their variation and the unknowns in the “recipe” create
a margin of uncertainty that makes any claim of known safety for inhalation
or ingestion impossible. If a vendor says he or she knows what is in a lot of
tire crumb, and that is known to be safe, then they ignored the materials in
the product. Since we never know what is in any field for sure, and if we
know that they have tire crumb, they cannot be demonstrated safe for
children to inhale, ingest, nor play upon.

10. What Is In Tires? SOME GROUPS WENT LOOKING
Since it was difficult from MSDS or any other source to identify the
components in tires or tire crumb, some groups studied them directly.
11. Environment and Human Health Inc, and Yale University Study
EHHI, Inc. in cooperation with Yale University studied samples of rubber
mulch, and new tire crumb with the intent of characterizing their
ingredients.
The summary text of their characterization study is found here:
1 SHPFC COMMENTS ASTDR-2016-0002-0003
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http://www.ehhi.org/turf/metal_analysis2016.shtml
http://www.ehhi.org/turf/findings0815.shtml
The EHHI/Yale Study list of components found is explained this way:
The shredded rubber tire playground mulch samples tested were provided
by the manufacturer and were purchased in new bags of rubber mulch for
use in gardens and playgrounds. The rubber tire infill for synthetic turf
fields was obtained as new infill material from installers of synthetic turf
fields. There were 5 samples of infill from 5 different installers of fields and
9 different samples of rubber mulch taken from 9 different unopened bags
of playground mulch.
RESULTS
 There were 96 chemicals found in 14 samples analyzed. Half of
those chemicals had no government testing on them - so we have no idea
whether they are safe or harmful to health. Of those chemicals found that
have had some government testing done on them these are the findings
with their health effects.

TWELVE (12) KNOWN CARCINOGENS
2-Mercaptobenzothiazole/ Carcinogen, toxic to aquatic life
9,10-Dimethylanthracene/ Carcinogen, respiratory irritant and can cause
asthma
Bis(2-ethylhexyl) phthalate/ Carcinogen, may cause damage to fetuses
Fluoranthene / Carcinogen, Fluoranthene is one of the US EPA's 16
priority pollutant, A PAH.
Heptadecane/ Carcinogen
SHPFC Comments ASTDR-2016-0002-0003 1
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2-mercaptobenzothiazole / Carcinogen
Phenol, 4-(1,1,3,3-tetramethylbutyl)/Carcinogen
Phenanthrene/ Carcinogen - A PAH
Phthalimide/ Carcinogen, skin, eye and lung irritan. A Fungicide
Pyrene, 1-methyl- /Carcinogen
Tetratriacontane /Carcinogen, eye and skin irritant. Can cause systemic
damage to central nervous system.
Pyrene/ Carcinogen, toxic to liver and Kidneys, a PAH
Carbon Black/ Carcinogen
Carbon Black makes up to 20% to 30 % of every tire. It is used as a
reinforcing filler. Carbon Black is listed as a carcinogen by the International
Agency for Research on Cancer (IARC).
Carbon Black, as such, was not analyzed by the Yale Study because Carbon
Black is made up of a number of chemicals – some of which were found in
the Yale study.
Carbon Black is not one chemical -- it is made up of many chemicals - often
of petroleum products. Furthermore, carbon black has no fixed
composition, even of the many compounds it contains. Carbon black from
different sources will have
differing compositions. In our method, carbon black will register as
a series of substances extracted from it. There is no carbon black
molecule, it is a mixture.
TWENTY (20) KNOWN IRRITANTS

1 SHPFC COMMENTS ASTDR-2016-0002-0003
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1,4-Benzenediamine, N-(1,3-dimethylbutyl)-N'-phenylIrritant - causes skin and eye irritation, toxic to aquatic life
1,4-Benzenediamine, N-(1-methylethyl)-N'-phenylIrritant - causes skin and eye irritation, toxic to aquatic life
2(3H)-Benzothiazolone
Irritant - causes skin and lung irritantation
2-Dodecen-1-yl(-)succinic anhydride
Irritant - causes eyes, skin and lungs irritation
3,5-di-tert-Butyl-4-hydroxybenzaldehyde
Irritant - causes irritation to eyes, skin and lungs.
Anthracene
Irritant - causes skin, eye and respiratory irritation. Breathing it can
irritate the nose, throat and lungs causing coughing and wheezing.
Benzenamine, 4-octyl-N-(4-octylphenyl)Irritant - causes eye and skin irritation
Benzenesulfonanilide
Considered hazardous, very little testing has been done on it.
Benzothiazole, 2-(methylthio)Irritant - causes Skin and eye irritation.
Dehydroabietic acid
Toxic to aquatic organisms
Docosane
SHPFC Comments ASTDR-2016-0002-0003 1
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Irritant - causes Skin irritation
Hexadecanoic acid, butyl ester
Irritant - causes eye, skin and lung irritant. Can cause reproductive effects.
Methyl stearate
Irritant - causes eye, skin and lung irritation.
Octadecane
Irritant - causes kin, eye and respiratory irritation
Octadecanoic acid also known as Stearic acid
Irritant - causes skin, eye and respiratory irritation
Oleic Acid
Irritant - causes skin and eye irritation
Phenol, 2,2'-methylenebis[6-(1,1-dimethylethyl)-4-ethylIrritant - causes skin, eye and respiratory irritation
Tetradecanoic acid
Toxic to aquatic organisms. Skin and eye irritant.
Anthracene, 2-methylAcute aquatic toxicity, Not much data available - what there is shows it to
be an eye, skin and lung irritant
Anthracene, 9-methylAcute aquatic toxicity, serious eye irritant
2 SHPFC COMMENTS ASTDR-2016-0002-0003
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13. Carbon Black
Carbon black plays an extraordinary role in tires, and in their toxicity and
potential for harm from exposures. Well known from decades of air
pollution studies, urban epidemiological studies, carbon black causes lung
cancer, brain cancer, kidney cancer, heart disease, neurological disorders,
and cognitive degenerative disease.
A known carcinogen (WHO), we have found variations in percentages of
the amount of carbon black in a tire, from 30%-68%. (EHHI/Yale Study; NY
STUDY, .pdf, pp19-20.) Carbon black breaks down into many sized
particles, including PM10/PM2.5. That size particle was shown to cause
several types of cancer, including brain cancer, kidney cancer, kidney
disease, bladder cancer, and neurological disease and cognitive impairment
disorders. (CITE; Harvard Mexico Studies and Urban Cohort Studies) We
know for sure that carbon black is in tires, in part from simple observation
of color.
14. THE NY STUDY CHARACTERIZES TIRE CRUMB THIS WAY:
“The components of Firestone’s and Dow Chemical Company’s rubber are
summarized in technical specification documents. Although they are only
two of many different rubber manufacturers, a similarity between the two
vendors is readily apparent, even between three different types of rubber,
solution-SBR, cold polymerized emulsion SBR, and high cis2-4
polybutadiene rubber. In general, the following similarities were observed
between the two manufacturers for the compounds used to produce the
rubber:
• The polymer used to produce solution-SBR contained approximately 1840% bound styrene.
SHPFC Comments ASTDR-2016-0002-0003 2
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• The oil content in the polymer ranged from 27.3-32.5% in solution-SBR
and cold polymerized emulsion SBR. Oils used include aromatic oil, high
viscosity naphthenic oil, and treated distillate aromatic extract oil.
• Besides the polymer used, the other components of the rubber were
similar between manufacturers and the relative proportions (parts by
weight) of these other components ranged as follows:
o Carbon black: 50.00 – 68.75
o Zinc oxide: 3.00
o Stearic acid: 1.00 – 2.00
o Sulfur: 1.5 – 1.75
o N-tert-butyl benzothiazole sulfonamide (TBBS): 0.9 – 1.50
o Naphthenic or aromatic oil: 5.00 – 15.0
The components summarized above are the principal components of the
major type of rubber (SBR) used for the manufacturing of crumb rubber
and therefore have the potential to have a significant presence in crumb
rubber. As discussed in subsequent sections of this report, some of these
components have been found to be prevalent in crumb rubber, including
zinc (from the zinc oxide), benzothiazole compounds (from TBBS), and
PAHs (possibly from the oils used). These compounds may be attributed to
the SBR used in the manufacturing of crumb rubber.”
15. Phthalates are a regulated toxin, and PEER filings covered some of
the toxicity and regulatory discussion. Please refer to
http://www.peer.org/campaigns/public-health/artificial-turf/newsreleases.html

2 SHPFC COMMENTS ASTDR-2016-0002-0003
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16. ZINC
Coastal Marine Resource Center Study, found fatal levels of zinc in leachate
from tire crumb fields. This amount would cause fatal impacts to aquatic
ecosystem within 48 hours. This is a notable amount, and though was
assessed in terms of environmental health, indicates presence.
Menichini and Abate Study: “Zn concentrations (1 to 19 g/kg) and BaP
concentrations (0.02 to 11 mg/kg) in granulates largely exceeded the
pertinent standards, up to two orders of magnitude”. “Zinc and BaP
concentrations are high in rubber largely exceeding the Italian soil
standards”.
17. METALS: MERCURY, CHROMIUM, ARSENIC
The highest median values were found for Zn (10,229 mg/kg), Al
(755 mg/kg), Mg (456 mg/kg), Fe (305 mg/kg), followed by Pb, Ba, Co, Cu
and Sr. The other elements were present at few units of mg/kg. The highest
leaching was observed for Zn (2300 μg/l) and Mg (2500 μg/l), followed by
Fe, Sr, Al, Mn and Ba. Little As, Cd, Co, Cr, Cu, Li, Mo, Ni, Pb, Rb, Sb and V
leached, and Be, Hg, Se, Sn, Tl and W were below quantification limits. Data
obtained were compared with the maximum tolerable amounts reported
for similar materials, and only the concentration of Zn (total and leached)
exceeded the expected values.
18. LEAD, POLITICS and CHILDREN
The problem is synthetic turf is NOT REGULATED as a children's
product by the CPSC thwarting the ability to apply lead regulations
that CPSC could enforce.
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Lead was identified in synthetic turf fields as early as 2008 but was not
addressed in any systemic way due to lack of standards or
required testing (although the CPSC could have required the testing
mandated for children's products since 2008). The CPSC has chosen not to
mandate this children's product testing for synturf and in fact advised the
industry about not having it designated as a children's product
< http://parentscoalitionmc.blogspot.com/2009/03/artificial-turf-tale-oflead-levels.html> .
This has led to a "buyer beware" situation especially after the CPSC tested
synthetic turf carpets, found lead at varying levels depending on sample
age, and astoundingly concluded the whole synthetic turf system was,
always and everywhere, safe not just for adults but for children. The
assumptions were based on inappropriate modelling for blood lead levels
from a meager sampling and the troubling finding presupposes that there
is, a safe level of blood lead, which most pediatricians and lead experts
agree there is not safe level.
To this day the synthetic turf industry cites the still CPSC-posted "OK to
Install, OK to Play on" press release which should never have been posted
to begin with, has been disavowed, in front of US Congress, by CPSC
commissioner Kaye and is an embarrassment to government science, policy
and public health 
19. By contrast, The Centers for Disease Control (CDC) in contrast
warned and continues to warn the " there is no safe level of lead" to
expose children.
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http://www.cdc.gov/nceh/lead/>
http://www.cdc.gov/nceh/information/healthy_homes_lead.htm.
“No safe blood lead level in children has been identified. Lead exposure
can affect nearly every system in the body. Because lead exposure often
occurs with no obvious symptoms, it frequently goes unrecognized"
In 2010 Van Ulirsch et al ( Environ Health Perspect. 2010
Oct;118(10):1345-9 
22. And for the past 2 years the company FieldTurf has, with impunity,
noted its synturf fields contain lead during testimony on various bills in the
Maryland State House.
The latest admission documented on video:

"....asked point-blank by one delegate, “Is there lead in your
products? The executive answered, “There’s lead in a lot of things in
this world.”.... “Yes, there’s lead in our products." In spite of this
admission and the fact that the legislation in question was meant to
post the CDC prescribed warnings about minimizing lead and other
toxin exposures from the synturf and tire waste products, and in
spite of the fact that the legislation had strong and broad input and
support, the legislation was not even allowed to come up for a vote
in committee by the committee chair.
23. Public Employees for Environmental Responsibility compiled the
literature as of early 2012 on lead
see:  and specifically: 2012-07-12_lead-limits-needed-on-tire2 SHPFC COMMENTS ASTDR-2016-0002-0003
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crumb-playgrounds (NOTE if you go to PEER.ORG news releases: click on
public health and "artificial turf" to find the actual filings with many links}
Unfortunately for the children, fields with high lead remain. But those
responsible for protecting children are kept in the dark. NO ONE IS
MONITORING OR REGULATING ARTIFICIAL TURF FOR LEAD OR OTHER
TOXINS in either old or new fields, including the Consumer Product Safety
Commission (CPSC) (see 
For example as reported in that article:
Dr. Shalat's New Jersey State Study (2012) on artificial turf found lead in
the field dust in the respirable air space of a robot and real player- highly
variable but sometimes very high (note most facilities would NOT LET
THEM TEST).
 2014
" Bio-accessibility and Risk of Exposure to Metals and SVOCs in
Artificial Turf Field Fill Materials and Fibers" , Brian T.
Pavilonis1,Clifford P. Weisel1, Brian Buckley1, and Paul J. Lioy1
QUOTE from Pavilonis et al:."Since it is possible that children may be
exposed to potentially high concentrations of lead while using
artificial turf fields we recommend, at a minimum, all infill and fibers
should be certified for low or no lead content prior to purchase and
installation."
*The main out-comes of concern from Pavilonis et al:
a) the finding of lead, and chromium in both the tire crumb and
the plastic rug and simulated body fluids at sometimes extremely
high levels *EVEN IN NEW FIELD CARPETS.*
b) Benzothiazole derivatives and 4-(tert-octyl) phenol were also
found in in the simulated body fluids. Both are probable carcinogens
(the subject of another fact sheet).
QUOTE: "Lead was detected in almost all field samples for
digestive, sweat, and total extraction fluids with digestive fluid
extract of one field sample as high as 260 mg/kg. Metal
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concentrations were not markedly different across the three
different sample types (new infill, new turf fiber, tire crumb field
sample). However, one of the *new* turf fiber samples contained
relatively large concentrations of chromium (820 mg/kg) and
lead (4400 mg/kg) compared to the other samples tested…the
variability of lead contained in the infill material is large and can
span more than two orders of magnitude* . One field [tire crumb]
sample did contain a high lead level (260 mg/kg) which was on the
same order of magnitude as the NJ DEP cleanup value (400
mg/kg).”
In summary: Lead-free is the only acceptable level for child
products (and indeed for people in general). There is NO safe level
of lead for children. And yet many of our children are playing
often, if not daily, on fields that may contain lead and certainly do
contain many other toxic substances. Finding ANY lead in any play
area for children of any age is unacceptable. As the CDC notes: Every
effort should be made to eliminate ALL unnecessary sources of lead
in the environment, especially a child's environment. *Lead in
artificial turf is not only totally unnecessary but dangerous to
health AT ANY LEVEL*.
28. Other sources of information on Lead in tire crumb fields:
www.ehhi.org/turf/
www.safehealthyplayingfields.org
www.synturf.org
[FOOTNOTE SYN TURF]Where on the Synturf page on lead you can find:
No. 36] Mayo Clinics tips to protect children from lead in artificial turf.
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April 2015.
No. 35] Durham, New Hampshire: Lead scare at UNH, s Memorial Field.
November 2012.
No. 34] Beware of lead content in exotic color artificial turf fields!
September 2012.
No. 33] Odessa, Texas: Eager fans will not be given pieces of the artificial
turf field. September 2012.
No. 32] U.S. Federal panel increases child protection against lead. February
2012.
No. 31] UNLV researcher spreads word about the need to test artificial turf
fields. December 2010.
No. 30] Environmental Health Sciences study (2010): Deteriorating
synthetic turf dust containing lead may pose a risk to children. October
2010.
No. 29] Concord, Mass.: Town replaces fake grass fields, officials insist
nothing is wrong with the lead levels! July 2012

28. TWELVE (12) CARCINOGENS found and HOW DO THEY
INTERACT:
The Yale Study identified the presence of so many carcinogenic materials in
a single material that it raises many more questions about interaction of
PAHs with metals, and combination impacts. The interaction of the PAHs
and benzothiazoles with other materials in the fields needs to be
characterized and addressed
29. Strengthening Additives: Nanoparticles
We would also ask for information and clarity about tire strengthening
additives of any kind that were built into the material anytime in the past
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30 years, these would have been added to tires.
[http://nice.asu.edu/nano/carbon-black-and-amorphous-silica-tires]
Similarly, we request that the tire manufacturing industry explain their use
of nanoparticle products, of any kind, including the type and size, source
company and source country, and ask for an explanation about how:
a. they can be quantified in the product, and
b. how can they be cleaned up if they are released when the tire
crumb and or plastic “grass” carpet degrades?
c. We would also like to understand what material
characterization of their behavior in tires performance,
d. And or their behavior once they are released into the
environment.
e. We ask for any epidemiological due diligence that was
conducted by any tire company on nanoparticle use prior to
using them in a commercial product.
f. Plans for continued use and safety precautions tire
companies will impose upon themselves
g. Epidemiological studies conducted on these particles in tires
30. Plastics, Microplastic Fibers, Microbeads, and Small Particulate
Plastics
Assessment of microfiber particulate and small particulate plastics needs to
be assessed in characterization studies.
31. Flame Retardants
Flame retardants can be added to a tire in production, or applied post
production in a shipping setting or possibly as tire crumb. Since flame
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retardants are known carcinogens with health issues of concern, and will
be on the surface of the waste tire crumb, tire infill providers need to know
if they are present, and purchasers need to know that the material contains
flame retardants prior to purchase.
32. Tires and Tire Crumb Additives
Myriad products exist to clean, protect, condition, and color tires. We
wonder if they are components of tire crumb?
33. Road Waste Picked Up By Tires
Tires spend their lives on roadways, of course, and can pick up many
materials in their travels. Debris, hydrocarbons, ….

34 CARINOGENIC, PATHOGENIC, and MUTAGENIC ingredients in tires
cannot be removed by shredding tires into tire crumb and must be
assumed to be accessible.

35. Tire crumb and repurposed rubber appear to be the same thing,
with interchangeable use… but are they the same? We would like
clarification.
We would like clarification about the distinction between the tire crumb,
repurposed crumb rubber, and crumb rubber. Specifically if using the term
“repurposed rubber crumb” implies uniformity of ingredients? Does that
term imply tires are not used? If so, what are the ingredients in
repurposed rubber crumb and how do they differ from tire crumb?
36. We would also like access to all MSDS/SDS of tire crumb
manufacturers and tire companies, and the ability to ask questions about
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how and where they were made, variations on lots, source and composite
addendums. It is difficult to locate them.
37. EXEMPTION ON LISTING HAZARDOUS MATERIALS: We would like
to understand why tire companies have an exemption on their need to list
ingredients under Section 2: Hazardous Materials of an MSDS/SDS. We
were unable to find the source of that exemption, if it has a deadline, and
whether your study group thinks it is an obstacle to understanding and
characterizing risk of exposure from tires and tire crumb.
38. Of those MSDS that we located, several, like this Michelin North
America Material Safety Data Sheet for Michelin, Uniroyal, BF Goodrich,
says in “Section 2 HAZARDOUS INGREDIENTS: Note: Tires meet the
definition of article as defined by the OSHA Hazard Communication
Standard (29 CFR 1910.1200) and are exempt from MSDS
requirements.”
There was clearly no mention of 1,3 butadiene, carbon black, POHs, VOCs,
benzothiazoles, or any plasticizers, nor metals, styrene, sulphur, known
irritants, or well… anything. Since that section also outlines corrosive,
combustible and waste treatment, it is important for more than this issue.
We explicitly ask CDC/CPSC/EPA if they can use their existing authority to
require tire crumb companies and tire companies to provide ingredient
information.
39. SOURCE MATERIAL UNKNOWN: MSDS/SDS CANNOT REPRESENT
WHOLE FIELD. Tire crumb comes from many tires, and many sources.
Since not a single tire crumb field can accurately list or track which tires
were source materials, or what other mixed in components, and there is no
accountability from tire crumb recycling industry for the shredded product,
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then MSDS/SDS cannot be accurate for a whole field due to variability.
Therefore, the burden of “proof” of risk lays squarely on the ability of the
purchaser (schools, sports directors, booster clubs) to assess risk… of a
very very complex product. So, if the exemption stays in place, we will
know for sure that we cannot know what is in a tire crumb based field.

40. TREATMENT TO SHOW NO PARTICULATE OR BREAKDOWN:
SHOW US.
As for studies that claim that their product has been treated (such as
cryogenic treatment) to not break down into dangerous particulate, we are
deeply skeptical, and would ask for proof. We also ask for assay testing
over a period of at least several summer weeks. We ask for the researchers
to simulate the pounding over 10 years and assess the particulate
characteristics and particle size. That testing in fact is being done right
now… in thousands of children across the country. Simple observation on a
player body, on the sideline benches, or under a microscope shows
consistent breakdown into particulate.

41. SHREDDED, PULVERIZED, HIGH SURFACE AREA FORM OF TIRES
and ADD INS is LIKELY MORE TOXIC THAN WHOLE TIRES.
Unfortunately, because it is shredded, pulverized, and in loose and
unencapsulated form, tire crumb has exponentially more surface area than
whole tires (Thomas, Gupta study; ) and we are concerned the material is
very likely more toxic––possibly many times more toxic––in the school
field form than whole tire form, since the increased surface area provides
more opportunity for molecules to escape. We know for sure that the
increased amount of surface area in tire crumb makes the material in tire
crumb more available to the breathing and exposure zones, and to runoff.

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42. CRUMB IS SURROUNDED BY DUST PARTICULATE:
Accurate characterization technique must include a study of the particulate
that surrounds tire crumbs, and steps must be taken to make sure that the
sampling process does not inadvertently remove that dust and particles.
We found several examples of the samples being washed, some in
unbuffered water, prior to their analyses being done. Of course, that
removes the particulate that concerns us the most. Distribution of the
particulate size and type is important. Those particulate can become
aerosolized by numerous gases and we ask that attempts are made to
properly model this dynamic under high heat conditions, primarily.

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43. VERY COMPLEX PICTURE From TOXICOLOGY PERSPECTIVE: Tire
crumb material is complex from a toxicology perspective, largely due to the
chemical complexity presented by multiple known toxic components and
variation. It has been described as a “toxic soup” of ingredients for which
we have no consistent data on proportions or levels. Characterization of
ingredients’ margin of error is unknown..
Testing must be done at the field levels using accepted sampling plans that have
been statistically shown to be valid. Not fields have been tested in sufficient
detail to determine or rule out any exposures or risks. A look at testing protocols
for lead in urban soil sites illustrate the level of attention required and show the
degree that current testing has fallen short of that needed for decision making
for children’s health.

44. CONTACT PATTERNS, FIELD USE and ADJACENT BUILDING
CONTAMINATION
Exposure is likely determined by ingredients in surface, activity, and
number of children or users on field. Each school or community field has
high use and high contact patterns, such as hosting contact sports, like
football, lacrosse, soccer, and baseball, athletic camps, workshops and
practices. In those sports, children dive into the field materials. As a child
runs or skids or slide tackles, a column of material rises up, as does the dust
and particulate that surround the tire crumbs themselves.
Testing for exposure need to list weather conditions including humidity,
wind speed, and precipitation, temperature on field surface and ambient air
temperature. Number of children on field, and activity level of that play
needs to be recorded, video would be most interesting.
Children of all ages use the fields for multiple sports, recreation and school
events. Artificial turf tire crumb fields abound in elementary schools and at
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indoor and outdoor sports centers where children of all ages and all stages
of development play soccer, lacrosse, football, track, cheerleading, band,
and use the field for general recreational school activities. In the fields
with which we are familiar, families with members of all ages use the fields;
and the community holds events, picnics, special fairs, and activities. Some
fields are immediately adjacent to a school building.). That there are many
uses, and probably many levels of contact and exposure is an important
part of characterizing exposures, but both low dose exposures AND high
contact exposure scenarios and use need to be examined, with appropriate
epidemiological process.
45.. SCHOOL BUILDINGS AND SURROUNDING AREAS ARE
CONTAMINATED with a great deal of tire crumbs. The fields appear to
lose from 1-30 tons of material over their 8-10 year life, and some of it goes
directly into buildings, cars, and then homes. This impact needs to be
studied as an inadvertent consequence.

46. CANNOT ARGUE NO INHALATION OR INGESTION RISK or SAFETY
FOR EVEN A SINGLE FIELD. We argue that given the unique characteristic
of nonuniformity, known carcinogenic materials, breakdown into
particulate/dust, no known source of origin, and no accurate studies on
complex interactivity of those components in the children’s exposure zone,
in the tire crumb as it is installed today in 12, 000 fields, not a single field
installer, nor material provider can demonstrate that the material is safe
from inhalation and ingestion during normal use, active use, and on hot
days.

47. EVERY USE COULD POSE A TOXIC EXPOSURE and it would be
irrational to argue otherwise. We argue that due to the high variability of
toxins in the tire crumb substrate (from tires, unknown additives, and
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factory waste add-ins), and lack of any control of the material, well-known
sampling techniques will NOT accurately predict risks to human health.

48. CHILDREN CANNOT AVOID THE EXPOSURES: Since school children
cannot self-advocate and take responsibility for staying off a field if
directed to be there by coaches or school officials or parents, we must
assume that children cannot avoid the exposures when they play on those
fields.

49. CANNOT CLAIM THAT EXPOSURES WILL NOT OCCUR. Absolutely
no way to responsibly claim that ingestion and inhalation of particulate
from the material will NOT occur to those children.

50. HOTSPOTS of intermittent dangerous exposures are possible, and
should be expected and searched for in every field.

We must assume that tires have different “recipes” based on their type of
use. Therefore, knowing the type of tire used in tire crumb, and each tire
“recipe” would be helpful in assessing characterization of ingredients.
However, there is no way to ever know what tires, or what material is in
any field, and therefore, an MSDS/SDS cannot be representative of any
field, or even any meaningful part of a field. Alarmingly, the high variability
in the ingredients presents worrisome “hotspots” potential, where the
hotspots might be missed in sampling but even a single exposure could
have very serious impacts for a child who has the unfortunate luck to dive
into that hotspot. PAH’s may be more prevalent, and present dangerous
levels for installation period of the field, and for some unknown period of
time afterwards, and considered a “hotspot”, then the consistent release of
PAHs in the subsequent years could mean low dose, chronic exposures.
Both need to be examined.
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51. Lead, chromium, mercury and arsenic could be hotspot sources,
based on which tires were used, and how they were treated prior to
being placed in the field.

52. For example, when we asked about the source of lead in tire crumb
fields, an infill vendor explained to us that a) lead could be in any field as an
ingredient of the tires, of the treatment of tires, and b) once, they were
aware of a shipment of tires that was treated with an anticlumping material
that contained lead and the whole lot had lead, and c) that some lots had
flame retardants added as well. They would never really know, but “most
purchasers never ask”, according to the infill material vendor. If an MSDS
was required, an additional charge was to be imposed, since MSDS were
not available from the materials they acquired from China or other
countries. We have collected many more examples of the worrisome
unknown ingredients in our fields and can share with the study teams, if
requested. While this information is anecdotal, that is the point: we have
no idea what is in any field, for sure.

53. Another example, but this is not anecdotal: in a primary study field
exposures in CT, a researcher found that the children’s monitors showed
benzene. Since there is no safe level of exposure for benzene, and in fact,
tires are not expected to have benzene, the field was sampled more closely,
until that “hotspot” was located. The original source of that benzene was
not determined, but it was next to a busy parking lot where cars’ exhaust
may have been a source as they turned the corner, or possibly the tire
crumb material had been previously stored in an area with benzene in
surrounding environment, or perhaps it was picked up from contact on
roads. We will never know. That finding suggests that the carbon black in
the tires can adsorb additional toxins present near tires or tire crumb, and
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could release that material as the fields are pounded with running feet, or
possibly on a hot day. The proper characterization of this material needs to
account for adsorption characteristics of carbon black, and other
interactions

54. The point is, that it is impossible to locate hotspots for all toxins in
every field, and incorrect to extrapolate the risk for a whole field from
a single sample or even multiple samples, since every sample is
unique. So, while hotspots can easily be missed in a field, the
unfortunate child that dives into that particular part of a field has an
exposure that can actually be life threatening, but missed in its
entirety in the sampling based risk assessment.

55. In fact, since the tire crumb creates multi sized “dust” particles,
and off gases, it is impossible to prove that even a single field is safe
from inhalation or ingestion exposures from tire dust particulate, offgassing components, multiple toxins and combinations of toxins, and
heat.

56. Importance of the Heat Factor: Source of direct injury and
chemical catalyst

HOT HOT HOT HOT EXTREMELY HOT FIELDS
Grass playfields remain close to the temperature of ambient air, and are
often much cooler. Asphalt playgrounds used to have a use limit of 141F
and many schools remove children from playgrounds when temperatures
get hot. With tire crumb based turf fields, surface temperatures can soar on
even mild sunny days.
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Tire crumb fields “superheat” to levels that are routinely over 150F on a
sunny spring day, and in a recent study conducted on a sunny day Utah,
found to be close to boiling point, 190F, according to the Penn State Field
Turf Heat Study. The study found that tire crumb field surfaces are hotter
than ambient air, and increase in heat in a non-linear function with each
additional degree Kelvin of heat, hence the designation “superheating”. To
draw an example, on a Labor Day Weekend in DC area, with ambient temps
of 82F, the field surface temperature hit 164F by noon on several fields
used in a busy, tournament for about 1000 children, both boys and girls,
ages 8-15. Those levels are known to melt plastic cleats, require tubs of
water on the sidelines to cool down shoes, and create heat-related injury
including heat stroke, nausea, heat exhaustion, and dehydration in children
and all users. It is not unusual for children players to vomit, faint, and suffer
dehydration from hot conditions on the fields.

57. Marketing and sales for these fields tout their usability in all conditions
as a benefit (more practice and play hours), but in fact, the heat build up on
fields makes them very uncomfortable during many days and conditions. In
DC, there are over 100 days of sunshine each year, and most are during the
spring, summer and fall, making the fields uncomfortably hot and possibly
dangerously hot for a third of a year. A calculus should be made on the
percentage of safe days to play based on field yield risk, and heat.

58. Tire crumb fields do not have any protection from heat, and so they are
irrigated to be cooled down, but the effect is temporary.

59. To our knowledge, there has been no well known place for doctors nor
parents to report heat injury, though they are commonplace. (This author
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specifically remembers a hot, poor air quality day in August in 2014 in
Washington DC when during a single practice, 4 soccer players vomited,
another child was taken to the hospital after passing out, and another
sidelined himself against the coach’s wishes, due to extreme dizziness and
nausea.)

60. Reluctance to Report? Yet, it is curiously uncommon for school
teachers, coaches and parents to remove the children from the fields, due to
temperature. We cannot explain that in rational terms.

We have also noted another curious effect: as football, soccer and lacrosse
increase in popularity and competition in the US, competition for spots on
high performance teams is fierce. There is a perception from strong sales
and marketing of the fields, that the turf fields present a competitive edge
for a school, a club or even a teenager trying to get into college, and are
worth the high price paid. As psychologist Dr. Wendy Miller, explains, “ it is
a culture where high performance parents, players and schools might be
willing to overlook these injuries, thinking that to complain would
jeopardize their child’s access to a competitive team. This thinking could
easily lead to the silencing of reporting of injuries.”

Heat injury reporting needs to be included in the survey questionnaires,
and victims of heat injury and illnesses need to have a place to report, with
impunity.

61. HEAT MAKES THE CHEMICAL DYNAMICS ABOVE A FIELD VERY
COMPLEX

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In addition to the serious issue of direct injury from hot playfields to young
children, or anyone, the super hot fields present a very challenging
chemical situation.
Dr. David Brown, ShD, toxicologist, professor and former Deputy Director
of Public Health Practice Group at ATSDR/ CDC explains that, “the
unintended, and largely unstudied chemical consequences of what comes
off such an enormous quantity of high surface area material, in amounts
and sequence that is scientifically accurate is very difficult to predict and
model. Since the chemicals in the area above the field could change
instantaneously, the conditions are critically important (number of players,
temperature, time from last rainfall, etc.), as is the sampling methodology.
But no one has been able to come close to modeling the actual yield, we
only know the materials by characterization with samples, and that
variation in samples is so broad as to almost be meaningless, since it could
be easy to miss harmful exposures.”

62. Analyzing the field yield on a hot day is very complex, and challenging
to even trained toxicologists. The superheating of the fields makes gases
yield at faster rates as temperatures on the tire crumb surface increases.
So, as a day heats up, it is very likely that the yield increases directly with
temperature increase; a hot day creates more gases. Based on well
understood scientific laws, we presume that the gas yield from the field at
surface temperature of 50F (a cloudy day in January in DC) would be
considerably less than a field surface temperature of 158F measured last
week. If more gases are escaping the surface, then there are more
“opportunities” for particulate to adsorb onto the surface of the gases,
creating very dynamic series of compounds, none of which would be
recommended to inhale.. The changes in the chemical composition over the
fields as their temperatures rise is very difficult to test and model. These
changes happen in an instant… as a threshold is reached… and the
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exposures can increase sharply. It is a very sophisticated and difficult
challenge to model. But what is the most important is not only that the 24
gases that escape tire crumb (Norway Study) create dangerous mixtures
but those gas/particulate mixtures, (and air) create a vector for deep lung
exposures of all the materials in the tire crumb field. So, on poor air quality
days, when there are many children on the field and a lot of stirring up of
the material, the fields could present enormous risk.

63. We are concerned about the range of yield levels, but, we are most
concerned about the intermittent risk to children during those hot periods
(a hot, poor air quality summer day during children’s soccer camp week in
Washington DC, for example) when the fields are likely yielding more gas,
and therefore particulate has more “carriage” into lungs, respiration rates
are higher, skin is exposed, and perspiration is highest. All these are likely
factors in exposure. It is during those days when exposures are probably
highest, and high enough overwhelm a developing immune system.

64. Exposure Study Needs To Focus On Worst Case Conditions
We acknowledge that the level of yield from the fields might vary widely
with material variation, and will also vary with outdoor weather
(temperature, wind, humidity and sun) conditions. Taking averages from
fields across the country will be meaningless, and will only help the
industry to expand its message of “found no harm”. An analogy might be to
determine the health of a forest taking 4 samples from 40 locations, evenly
spaced, but the sampling might easily miss a blazing forest fire. That one
day might destroy living material exponentially, but it could easily be
missed. Dangerous exposures can be unpredictable in this material due to
the scope and scale, the toxic character, and the superheating
characteristic.

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65. A better approach is to carefully detect high yield days, and look
THAT DAY for exposures in a child’s body during those periods. Since
the exposures might attenuate, the work would have to be done
expeditiously. The harmful exposures may or may not be detectable a day
or a month later in a child. Monitor both genders, for patterns that might
lead to that awful air quality soccer camp in the city on a tire crumb field,
on days when vomiting and melting shoes are commonplace. A focus on
the impacts from the high end of those yields we believe will present
exposures that are clearly, and unequivocally harmful from both heat injury
perspective and toxicity exposure potential. We do not know for sure if the
carcinogenic exposures from low dose regular exposures or from high dose
“events” are more dangerous, but both need to be studied as separate
situations, not as an average.

66. We urge your team to focus the study resources on primary
measurements made in high use scenarios on hot days, and refrain
from the approach used in earlier studies that look at chemical
compositions during winter or rain conditions on limited number of fields.

67. The only reliable way to assess the risk to children from a particular
field, or groups of fields, is to look at their direct exposures, and
importantly look at bloodlevels of the known substances. Cooperation from
both high use athletes and those exposed to chronic levels of materials will
be important.

68. The Study Needs To Focus Also On Low Dose Exposure Risks
Trained immunotoxicologists look at the impacts of chronic low dose
exposures to metals, PAHs, VOCs and many other materials in tire
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crumb. Their input is crucial to understanding risk of exposure in a
developing child.

69. Characterization Mistakes
Studies look convincing, but miss the forest for the trees.
Tire recycling and tire crumb industry reports are quick to point out that
when they find harmful materials in their samples, they are under the
known safety limits. There are two interesting fallacies in that reasoning.

First, since the samples in several studies are few and not uniform, they fail
to acknowledge the statistical significance of finding known regulated toxic
material in 2 million pounds of powdered tires… if one finds the needle, is it
luck, or is it because needles are more prevalent than expected?

Proof of presence is meaningful! For example, in the NY Study, PAHs were
found, as were metals, benzothiazoles, and many substances. Their
presence indicates a risk.

In a child’s product, since many materials are not known how they affect
children, just knowing they are there is enough to use a precautionary
principle and prevent the exposure. Arguing that the materials appear
under a limit (especially if that quantity is an average of multiple samples),
or there is no established limit (because it has not been studied), are not as
meaningful as the proof of their presence.

Second, though the conclusions of the industry reports may be of no harm
found/safety, a close look at the data itself on PAHs, lead, cobalt,
chromium, etc. is useful, since a) it proves presence, and b) at levels that
suggest risk for chronic exposure. Chronic exposure risk is the subject of
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a great deal of new cancer research, and we care about all the materials,
including those which are potentially toxic.

70. ARGUMENT FOR MORATORIUM BASED ON KNOWN
CHARACTERIZATION FOR TIRE CRUMB
Because of the:
a. known loss of 1-30 tons of material from the fields during the 8-10
year “life of the field” into air and water
b. ingredients list: over 50% of its components are known carcinogens
and pathogens, [cite Yale Study]
c. massive scope and scale of this product, (the amount of material and
surface area of these fields is enormous; scale/millions of pounds in
each installation),
d. inability to control the levels of toxic exposure to children, or even
properly characterize them due to immense variation and chemical
complexity of what happens on a hot day over a field, and around
children. We cannot suggest mitigation strategies for the danger,
because the material is inconsistent,
e. Even if we did know for sure what was in each field, and suggest
mitigation techniques and protections…. All the tire company has to
do is change their recipe, or many recipes, as they do continually,
and the study is worthless. Children are still being exposed to
whatever is in the tire, the lot or that particular field..
71. Moving Target Analogy
Even if the study were completely successful, and the tire crumb material
categorized properly, the trouble is, tire manufacturers could change the
“recipe” for tires… and in fact they do this regularly… and the study results
will be useless, or at best, diminish in usefulness.
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Any attempt to study tire crumb safety on turf fields is analogous to trying
to hit a moving target. Tire crumb is a waste product. Tires are not
designed or intended to be used as infill for turf fields.
Ingestion, inhalation and absorption of fine particulate by children is not a
consideration of tire manufacturers as they choose chemicals and
compounds for their tires. Nor are they bound to maintain any safety
considerations for such use by children.
So any study of present day tire crumb is a futile endeavor, because such
study tells us nothing about a field that gets installed immediately after the
study. Tire manufacturers often change the chemical composition of tires
and will likely do so again.
Even if a field passed safely concerns in a present day study, a new field
could easily fail a hypothetical study conducted the day after the present
study. So unless every field was tested using the exact same methodology
after every installation, there is absolutely no way to assure the user that
their new field is safe. Those new fields could easily have an entirely
different chemical composition simply because tire manufacturers changed
their tire ingredients.
So the present Federal Study is only a backwards looking study, not
forward looking. Any conclusion must be transparent and clear on that
issue - upfront and center. Otherwise the public is being misled into a false
sense of security.
72. Sampling: Not Appropriate For Tire Crumb
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The core pediatric toxicology problem in industry based safety studies, is
that there appears to be an assumption that tire crumb is a uniform
material, and behaves uniformly. It does not. There also appears to be an
assumption that sampling will be an accurate method for studying tire
crumb risk to children, and it is not. Sampling will not be accurate to
assess a nonuniform, heterogeneous material with multiple known
toxic ingredients, high direct contact (dermal, hand to mouth,
breathing zone) for pediatric use. Sampling cannot produce a single
sample that is representative of the whole field, or even a part of the
field, other than the sample itself.

73. Methodology needs to study PERFECT STORM exposure
conditions, and be able to calculate exposures during those relatively
dangerous days.

Nor can sampling in the way it is proposed (samples from 40 fields across
the US), illustrate impacts from a perfect storm of exposure conditions on a
particular field, say, during an intense soccer camp in in summer in
Washington, DC with high ambient and field surface temperatures (ie
160F), bad air quality, no wind, when working athletes are breathing in
particulate with high VOC, PAH, benzothiazoles, and carbon black… and
many more compounds, on a particularly high yield day. Averages cannot
be relied upon in sampling for this type of product, since they will further
obscure the risk from exposures to hot spots of high risk material that are
on fields. Averaging the results from a national distribution in various
weather conditions simply obscures the acute risks further; it is useless for
risk analysis. In layman’s terms, it is like studying a forest using “x”
number samples, but missing the forest fire that is blazing away at a nearby
area of the park. For a child, it means that she plays on a field that was
called “SAFE TO PLAY”, after sampling, but in fact she might easily have
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been covered with multiple materials known to cause cancer, and in fact,
that might be a regular event. The uncertainty of exposure frequency
makes the risk higher, not less.
74. The core of the methodology used in the 50 studies asserted by
the tire recycling industry were based on simple characterization of a
single sample, but not on realistic, combined, nor worst case (the most
important) use scenarios.
75. Multiple carcinogen and multiple pathogen combined effects need
to be measured. Single material measurements could be only a fraction of
the exposures, since the material exposures are likely to be from
combinations of materials.
76. BIOMONITORING FRONT AND CENTER
Because sampling presents inconclusive results, a methodology that relies
on biomontioring will be more meaningful. We suggest that more
sophisticated approach be considered. Personal sampling monitors
attached to children, dermal, urine, breathing analyses, and particularly,
blood and tissue samples from frequent users, players on “Perfect Storm
Days” and those expected to have chronic low dose exposures. We
understand that biomonitoring raises more issues, but absent a good
model, empirical data is the most reliable way to accumulate actual
evidence of exposures and to be able to establish a reliable causal link to
the cancers and diseases we predict from exposures.
77. IMMUNOTOXICOLOGY SUPPORT: RECRUIT THE BEST PEDIATRIC
IMMUNOTOXICOLOGISTS AND RESEARCHERS. Some researchers and
epidemiological professionals are already on the trail of better ways to
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identify actual exposures, and can create biomarker groups as indicators of
presence of illness or exposures. These researchers have background in
immunological toxicology, and can track subtle changes in an immune
system that might be precursors to serious disease, like cancer, kidney
disease, brain changes, and lung disease. It is possible to create biomarker
group to prove tire crumb exposures in users and we believe that the
preliminary proof of concept step could be accomplished in less than 6
months with cooperative athletes, and study volunteers, and modest
budget. While we will not list them here, for protection of their privacy and
frankly, for fear of industry retribution, we will nonetheless let you know
that we have found multiple professionals who are capable and willing to
work on this task, provided a protective forum and IRB standards are in
place.
78. Immunotoxicology support: look carefully at the ages those
immune system markers in all children who are using these fields,
understanding that some metabolic types, and ages may be more
vulnerable than others. In fact, there are early indications that certain
age groups, such as prepubescent females (age 8-11), may be more
vulnerable to exposures to benzothiazoles, plastics, phthalates, and
endocrine disruptors in general, and therefore might be at higher risk to
contract cancer or disease from low dose particulate exposures from
tirecrumb, and the plastic “grass” carpet particulate. We need to establish
the datum from players to study this. We still do not know, but some
indications exist. For that reason, we respectfully request that the study
team include toxicologists and epidemiologists that are trained to keep
these concepts front and center.
79. LOW DOSE EXPOSURE CONCEPTS and CONCERNS

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Based on what we know now about low dose exposures to VOCs, PAHs,
benzothaizoles, styrenes, carbon black, plastics, plasticizers, and metals,
even at low, sub acute exposures, the fields could be very dangerous. That
possibility was not considered in the CPSC study, EPA study, nor in
mulitiple industry studies. These need to be assessed:


Chronic exposure to metals, plastics and plasticizers



Chronic exposure to carbon black mimics air pollution exposures



Immune system reactions



Endocrine disruption exposures from plasticizers and phthalates,



Exposures from multiple low doses and chronic exposures

80. The study should calculate yield of material that leaves the fields,
and how it leaves the fields. How much in the air , water pathways,
and with users (in shoes, cars, etc.) Interviews with schools and
vendors need to establish the replacement quantities of these fields,
and how often new material is put into place, since it would affect
exposures, and give an indication of gross yields. We estimate that the
fields lose from 1-30 tons (estimated) of material, so exposures and
impacts need to be measured in adjacent buildings, soils, and
stormwater systems. With 12,000 existing facilities, this may need to
be the subject of additional studies conducted to also assess if the
fields shall be regulated as point source contamination under Clean
Water Act and Clean Air Act. It is a very important metric, and a
perfect opportunity to include it, with little incremental cost, in your
study.

81. INTEGRITY STANDARDS. To track the history of the emergence of this
product is to track effective lobbying for regulation changes that favored
the tire industry, and the tire recycling industry. This industry took
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advantage of an enormous quantity of recalled and used tire stockpiles, and
heavily sold and marketed the materials to schools, and sports centers
where millions of children play. Central to the steps that catapulted this
industry forward was the removal of the designation of artificial turf fields
as children’s products, based on the rationale that adults played on them,
too. Yet the fields continue to be sold to elementary schools and to sports
centers brimming with elementary, middle and high school players. The
sales oriented industry was willing to submit children, schools and
communities to the materials in tires in enormous amounts, and call them
safe. As this claim is deeply questioned now, we also urge you to NOT
allow the sampling or data collection to be conducted by an interested
party, including schools, sports centers, athletic group personnel or
administrators, field installers or laboratories or consultants hired by
those groups, and establish peer reviewed standards for testing.
82. Any group or individual who does participate in the study,
including regulatory staff, needs to sign an affidavit certifying that she
or he, and her/his group has not received compensation or benefits in
any form, including but not limited to sales commissions, direct
payment, compensation, bonuses, grass to artificial turf grant, field
financing, water savings rebates (State of California and possibly
others), or physical benefits including but not limited to uniforms,
facility enhancements (restrooms, concession stands, parking lots,
storage facilities, etc.), stadium components, or field equipment of
any sort, from the field installers or tire crumb field industry and its
assigns, and has no financial conflict of interest. The document
should be filed with an appropriate agency and made public.
83. We ask for full transparency on all parts of the study process for
parents, interested parties, and schools.
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OUR REQUESTS TO ASTDR/CDC/CPSC/EPA
Request
1. Regulate tire crumb and rubber mulch as children’s product

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Background
PEER filed formal request;
12,000 fields x 30,000 tires is the
amount of existing material in
children’s use; see table A for
details on volumes and surface area
sizes, children/schools. Known
carcinogenic material and known

contact.
2. Remove “safe to play, safe to install” or any other references that imply safety from all
EPA, CPSC and CDC websites and public information sources
3. Place all PEER artificial turf filings in Federal Record

PEER Formal Request; agencies
must remove all endorsements of
safety.
http://www.peer.org/campaigns/p
ublic-health/artificial-turf/newsreleases.html

4. Issue a directive to public health agencies to disseminate warnings regarding unknown
risks from lead exposure from AT fields, as well as exposures to carbon black, known
carcinogens, PAH, VOCs into air and water pathways; direct hospital systems and medical
systems to screen for tire crumb field use, and report results
5. Use only independent lab or consultants unassociated with tirecrumb industry, adhering
to high ethics guidelines; transparent process for review; affidavit of no conflict of interest
6. Commission a primary study, conducted by independent, peer reviewed group such as
CDC to examine existing cancers AND illness in tire crumb field users and maintenance
workers of tire crumb fields
7. Mandate Cal Recycle Study corrections to methodology; mandate methodology peer
review; and mandate to impose Prop 65 rule based on OEHHA’s own findings on
carcinogenic exposure
8. Convene a conference for presentation of risks and concerns from parent groups, cancer
survivors to Federal Research Team

For parents, schools, athletic groups,
and communities; conduct parent
outreach webinars

Needs participation from
CDC/CPSC/EPA staff so parents
and public can have direct contact

9. Convene series of webinars and open comment opportunities
10. Allow public health and environmental advocacy groups in Federal Research Team
with complete transparency
11. Establish a collection point for recording experience of victims and those who may
have suffered injury from use of the fields, including heat injury, concussion or head
trauma, cognitive disorder, illness, and cancer for study and documentation; victim
hotline; for both child and adult contact with fields
12. Funding to identify potential biomarkers of exposure; conclusive marker study in users
13. Conduct blood monitoring and studies on existing cancer survivors.
14. Conduct cancer cluster study on soccer player cluster, and identify additional clusters
such as maintenance workers and installers
15. Provide full transparency with all interested parties
16. Conduct full epidemiological study of tire crumb on playfields existing and predictive
17. Study forms and questionnaires should include data collection on what is released
from fields into air, adjacent areas, water pathways, and quantified. Replacement
quantities for tire crumb fields should be quantified and examined as a metric that
indicates yield.
18. Based on release/yield figures, and other inputs, tire crumb fields should be evaluated
for compliance with Clean Water Act and Clean Air Act, and regulated accordingly.
19. We request that OEHHA study methodology be peer reviewed by your agencies
before it begins, taking into account the comments received in this proceeding.
20. OEHHA Study Process and Methodology Concerns: How will those be considered?
21. Consider explicit protection from retribution steps be put in place to protect
researchers, players, and concerned parents from retribution

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