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SUPPORTING
STATEMENT
Estimating
National Water Quality Benefits
Focus
Groups ICR 2205.19,
2090-0028
May,
2016
(1)
Title of the Information Collection
Estimating
benefits of surface water quality improvements
(2)
Short Characterization/Abstract
Improvements
in the quality of water resources may provide a variety of benefits
including improved recreational opportunities, healthier and better
functioning ecosystems and wildlife support services, and reduced
human health risks. The provision of those benefits is adversely
affected by excess nutrients and sediment, toxic chemicals, heavy
metals, and other types of pollution. Under the Clean Water Act, the
EPA is required to restore and maintain the chemical, physical, and
biological integrity of the nation's waters. The EPA is required to
perform benefit-cost analysis under several statutes and on
economically significant rulemakings by Executive Order 12866.
However, estimating the benefits of water quality improvements has
proven to be particularly difficult due to the large scope, scale,
and variety of water resources and water pollutants found in the
United States.
There
are a variety of non-market valuation methods capable of estimating
the economic benefits of improving environmental quality, but only
stated preference (SP) methods are able to capture both use and
non-use values. While use values, such as those arising from
recreational use of a resource, can be estimated by observing related
market behavior, non-use values that arise from bequest motives,
preserving the option for future use, and a sense of stewardship for
the resource can only be estimated using SP surveys. Reliable SP
surveys are often costly to perform and can take years to complete,
making it impractical to conduct an original SP study for each
regulation that requires a benefit cost analysis. Two other, more
efficient approaches are to (1) conduct a national survey that can be
applied to a variety of rules and (2) use meta-analytic approaches
that transfer values from many different SP studies to the resource
and regulation of interest.
Regarding
the first approach, there have been two national level stated
preference surveys undertaken. Carson and Mitchell ��(1993)�
employed a contingent valuation survey with water quality changes
described by the water quality ladder to estimate the value people
placed on boatable, fishable, and swimmable water quality. While
groundbreaking at the time, the methods used in Carson and Mitchell
are now considered out of date and the data are over thirty years
old. Viscusi, Huber, and Bell ��(2008)� used an iterative choice
stated preference survey and water quality measured using the US EPA
National Water Quality Inventory ratings (good or not good) to
estimate the annual national value of water quality changes. The
binary “good” versus “not good” description
of water quality limits the applicability of the results since water
quality improvements that do not lead to a waterbody crossing the
“not good”/“good” threshold would be assigned
zero benefits, when in reality such improvements may be valued by
society. Additionally, neither study estimates or accounts for how
WTP may decrease with distance from a water body.
EPA
recently employed meta-analyses to estimate benefits of the Steam
Electric Power and Construction and Development Effluent Guidelines.
While the meta-analysis is able to draw on many high quality SP
studies that are appropriate for benefits transfer, the state of the
literature and the information available on the constituent studies
limits the meta-analysis in several ways. First, the meta-data
cannot be used to estimate how WTP for water quality improvements
changes as distance from the affected resource increases. Second, it
is not possible to distinguish the effect of improvements in quality
on WTP from increases in the amount of surface water accessible to a
given household. Finally, there is no allowance for WTP for
improvements to waterbodies greater than 100 miles away from a
household, which may lead to severe underestimation of the benefits
for some waterbodies. A recently conducted SP study on the
Chesapeake Bay provides evidence that WTP can be positive at greater
distances, particularly for well-known and culturally important
waterbodies (Moore et
al.
2015).
The
proposed study will be designed specifically to address these gaps in
the literature providing a means to improve on the current
meta-analysis methodology and possibly provide an alternative for
estimating water quality benefits at a range of spatial scales from
local to national.
This
Supporting Statement provides background material for a request to
conduct up to 12 focus groups and up to 24 one-on-one interviews as
part of the survey development process. The number of focus groups
and interviews actually conducted will depend on the rate of
convergence of the draft survey instrument. The results from these
activities will inform the design of a survey instrument. The focus
groups and one-on-one interviews will not
produce results that can be statistically analyzed to estimate
willingness to pay for any outcome for any group or set of
individuals. Instead, this exercise will aid in the design of a
survey instrument for a later pre-test and full-scale stated
preference study. However, implementing such a survey is beyond the
scope of this ICR; any request for implementing a pre-test and
full-scale survey will be made in a separate ICR.
(3)
Need for the Collection
Currently
EPA relies on a meta-analysis of stated preference water quality
studies to estimate national WTP. To address the meta-data
limitations described above, EPA is forced to make several
simplifying assumptions when using the meta-analysis to estimate
benefits. For example, the analysis exogenously assumes that each
household’s WTP is limited to resources within a 100 mile
radius, that there is perfect substitutability between water quality
and quantity, and that all waterbodies are valued the same way by
households regardless of notoriety or cultural importance. The goal
of this project is to improve EPA’s ability to estimate the
benefits of proposed policies and actions and overcome the current
benefit transfer limitations by:
Estimating
a household WTP function that satisfies the adding-up condition and
is suitable for valuing water quality changes at sub-regional,
regional, and national scales.
Identifying
a flexible distance decay function that can accommodate both use
values (expected to be concentrated near the home) and non-use
values (which may decay with distance less rapidly or not at all).
Allowing
for imperfect substitution between water quantity and quality.
Allowing
for diminishing marginal WTP for water quality improvements over a
wide range of quality levels and spatial scales.
Estimating
WTP differentials for water bodies of national significance.
The
results of this project, in conjunction with several other
initiatives to improve EPA’s ability to value water quality
changes (improved water quality modeling, for example), will provide
a comprehensive assessment of the benefits associated with different
environmental policies. It is critical that EPA invest in developing
comprehensive WTP estimates for water quality changes in order to
provide the most accurate and up-to-date information required to make
sound regulatory decisions. This survey development effort will fill
an important gap in the valuation of water quality.
The
focus groups and one-on-one interviews that are the subject of this
ICR are an important step in determining how to frame questions and
design a survey instrument that can capture the value of improvements
in water quality for use in benefit-cost analysis. Specifically, the
focus groups and interviews proposed under the generic ICR will help
establish a viable survey instrument, which will later be used (under
a separate ICR) to estimate the values individuals place on water
quality endpoints in ways that are consistent with micro-economic
theory and benefit-cost analysis.
(4)
Non-duplication
As
described earlier, there have been two national level water quality
stated preference surveys conducted in the past but, for reasons
described in Section 2, neither is suitable for EPA’s use at
this point. This project will be developed by economists from EPA’s
National Center for Environmental Economics in consultation with
economists and analysts from EPA’s Office of Water and Office
of Research and Development in order to assure that it is capable of
meeting the Agency’s critical future areas of need. The
selection of specific water quality descriptions, endpoints, and
valuation scenarios that will be the subject of the focus groups and
one-on-one interviews will be informed by these consultations with
the program offices. For these reasons, the results of this study
are designed to be unique and not duplicative other efforts.
(5)
Consultations
This
is a new focus group request (not a renewal of an ongoing collection
effort) so no periodic consultations with persons outside of the
Agency have been conducted related to this effort.
This
collection, or perhaps more likely, a survey instrument developed
with the results from these focus groups, may be of interest to other
Federal, State, and Local Agencies, as well as to the Office of
Management and Budget. EPA will make a concerted effort to keep
interested parties informed of progress as the survey instrument is
developed, and will ensure that these parties are informed of any
survey implementation.
(6)
Peer Review Plans
Interim
products such as focus group scripts and draft survey questions
developed during this project will be subject to routine internal
review by the EPA staff. The final product from these focus group
efforts is a survey instrument to elicit individuals’
willingness-to-pay for changes in water quality – the precise
nature of which will be informed in part by the focus groups. A
report summarizing the main findings from the focus groups and
one-on-one interviews will accompany the survey draft. External peer
review is beyond the scope of this initial effort, but both the
survey instrument and focus group report will be externally reviewed
prior to any full-scale study.
(7)
Confidentiality
The
survey instrument will fully conform to federal regulations –
specifically the Privacy Act of 1974 (5 U.S.C. 552a), the
Hawkins-Stafford Amendments of 1988 (P.L 100-297), and the Computer
Security Act of 1987. Each prospective respondent will be informed
that their participation in the exercise is voluntary. The
identities of the individuals will be kept confidential by the
investigators and not associated with their responses in any report.
(8)
Sensitive Questions
There
are no questions included in the survey materials on sexual behavior
and attitudes, religious beliefs, and other matters that are commonly
considered private or sensitive in materials.
(9)
Respondents
Respondents
will be members of the general public who volunteer to participate in
focus groups and interviews. Participants will be recruited so as to
provide adequate representation of the target population. See section
11 for more information on areas of focus.
(10)
Collection Schedule
The
project timeline depends on the results of the focus groups, as well
as external constraints. The expected timeline for the data
collection is as follows. Please note that these tasks may partially
overlap; in particular, we allow for the possibility of some
one-on-one interviews to be conducted prior to the completion of all
the focus groups. Initial focus groups will likely be used to scope
participants’ understanding of concepts, explore the use of
different water quality descriptions and to gauge the relative
importance of certain water quality benefit categories.
Task:
|
Expected
Completion Date:
|
Contact
potential respondents
|
Start
2 Weeks from ICR approval (on a rolling basis)
|
Conduct
Focus Groups
|
5
to 20 Weeks from ICR approval
|
One
on one interviews with draft survey instrument
|
10
to 22 Weeks from ICR approval
|
(11)
Respondent Burden
Participants
for focus groups and individual interviews will consist of residents
in several metropolitan areas across the U.S. Respondents may also be
recruited from more rural areas surrounding these locations. We plan
to conduct up to 12 two-hour voluntary focus groups of approximately
10 individuals each. The respondent burden for focus groups is 240
hours. We also plan to conduct up to 24 two-hour one-on-one
interviews to test draft survey instruments. The respondent burden
for interviews is 48 hours. The total burden under this ICR is
therefore 288 hours.
In
summary, the (maximum) total burden for voluntary respondents
consists of:
Focus
groups: (up to) 12 groups * 10 people/group * 2 hrs per person =
240 hours.
One-one
interviews: (up to) 24 people * 2 hours per person = 48 hours.
For
a total burden of 288 hours.
References:
��Carson,
R. T. and R. C. Mitchell (1993). "The Value of Clean Water: The
Public's Willingness to Pay for Boatable, Fishable, and Swimmable
Quality Water." Water
Resources Research
29(7):
2445-2454.
Moore
C, Guignet D, Maguire KB, Dockins C, Simon NB. A Stated Preference
Study of the Chesapeake Bay and Watershed Lakes. National Center for
Environmental Economics, US Environmental Protection Agency; 2015
Nov.
Viscusi,
K. W., et al. (2008). "The Economic Value of Water Quality."
Environmental
and Resource Economics
41(2):
169-187.
�
| File Type | application/vnd.openxmlformats-officedocument.wordprocessingml.document |
| File Title | Supporting Statement for a Request for OMB Review under |
| Author | Eric |
| File Modified | 0000-00-00 |
| File Created | 2022-01-27 |