[Federal Register Volume 75, Number 247 (Monday, December 27, 2010)]
[Rules and Regulations]
[Pages 81126-81138]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2010-32153]
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ENVIRONMENTAL PROTECTION AGENCY
40 CFR Part 58
[EPA-HQ-OAR-2006-0735; FRL-9241-8]
RIN 2060-AP77
Revisions to Lead Ambient Air Monitoring Requirements
AGENCY: Environmental Protection Agency (EPA).
ACTION: Final rule.
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SUMMARY: The EPA issued a final rule on November 12, 2008, (effective
date January 12, 2009) that revised the primary and secondary National
Ambient Air Quality Standards (NAAQS) for lead and associated
monitoring requirements. On December 30, 2009, EPA proposed revisions
to the lead monitoring requirements. This action promulgates revisions
to the monitoring requirements pertaining to where State and local
monitoring agencies (``monitoring agencies'') would be required to
conduct lead monitoring.
DATES: This final rule is effective on January 26, 2011.
ADDRESSES: EPA has established a docket for this action under Docket ID
No. EPA-HQ-OAR-2006-0735. All documents in the docket are listed on the
http://www.regulations.gov Web site. Although listed in the index, some
information is not publicly available, e.g., Confidential Business
Information (CBI) or other information whose disclosure is restricted
by statute. Certain other material, such as copyrighted material, is
not placed on the Internet and will be publicly available only in hard
copy form. Publicly available docket materials are available either
electronically through http://www.regulations.gov or in hard copy at
the Revisions to Lead Ambient Air Monitoring Requirements Docket,
Docket ID No. EPA-OAR-2006-0735, EPA Docket Center, EPA/DC, EPA West,
Room 3334, 1301 Constitution Ave., NW., Washington, DC. This Docket
Facility is open from 8:30 a.m. to 4:30 p.m. Monday through Friday
excluding legal holidays. The docket telephone number is (202) 566-
1742. The Public Reading Room is open from 8:30 a.m. to 4:30 p.m.,
Monday through Friday, excluding legal holidays. The telephone number
for the Public Reading Room is (202) 566-1744.
FOR FURTHER INFORMATION CONTACT: Mr. Kevin Cavender, Air Quality
Assessment Division, Office of Air Quality Planning and Standards
(C304-06), Environmental Protection Agency, Research Triangle Park,
North Carolina 27711; telephone number (919) 541-2364; fax number (919)
541-1903; e-mail address: [email protected].
SUPPLEMENTARY INFORMATION:
Table of Contents
I. Does this action apply to me?
II. Where can I obtain a copy of this action?
III. Background
IV. Source-Oriented Monitoring Requirements
A. What We Proposed for Source-Oriented Monitoring
B. Comments Received on Source-Oriented Monitoring
C. Final Decision on Source-Oriented Monitoring
V. Monitoring at Airport Facilities
A. What We Proposed for Airport Monitoring
B. Comments Received on Monitoring at Airports
C. Final Decision on Airport Monitoring
VI. Non-Source-Oriented Monitoring Requirements
A. What We Proposed for Non-Source-Oriented Monitoring
B. Comments on Non-Source-Oriented Monitoring
C. Final Decision on Non-Source-Oriented Monitoring
VII. Monitor Deployment Schedule
A. What We Proposed for Monitor Deployment Schedule
B. Comments on Monitor Deployment Schedule
C. Final Decision on Monitoring Deployment Schedule
VIII. References
IX. Judicial Review
X. Statutory and Executive Order Reviews
A. Executive Order 12866: Regulatory Planning and Review
B. Paperwork Reduction Act
C. Regulatory Flexibility Act
D. Unfunded Mandates Reform Act
E. Executive Order 13132: Federalism
F. Executive Order 13175: Consultation and Coordination With
Indian Tribal Governments
G. Executive Order 13045: Protection of Children From
Environmental Health Risks and Safety Risks
[[Page 81127]]
H. Executive Order 13211: Actions That Significantly Affect
Energy Supply, Distribution, or Use
I. National Technology Transfer and Advancement Act
J. Executive Order 12898: Federal Actions To Address
Environmental Justice in Minority Populations and Low-Income
Populations
K. Congressional Review Act
I. Does this action apply to me?
This action applies to State, territorial, and local air quality
management programs that are responsible for ambient air monitoring
under 40 CFR part 58. This action may also affect tribes that conduct
ambient air monitoring similar to that conducted by States and that
wish EPA to use their monitoring data in the same manner as State
monitoring data.
Categories and entities potentially regulated by this action
include:
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NAICS code
Category \a\
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State/territorial/local/tribal government................... 924110
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\a\ North American Industry Classification System.
II. Where can I obtain a copy of this action?
In addition to being available in the docket, an electronic copy of
this rule will also be available on the Worldwide Web through the
Technology Transfer Network (TTN). Following the Administrator's
signature, a copy of the final rule will be placed on the TTN's policy
and guidance page for newly proposed or promulgated rules at http://www.epa.gov/ttn/oarpg. The TTN provides information and technology
exchange in various areas of air pollution control.
III. Background
The EPA issued a final rule on November 12, 2008, that revised the
NAAQS for lead and associated ambient air lead monitoring requirements
(73 FR 66964, codified at 40 CFR part 58). As part of the lead
monitoring requirements, monitoring agencies are required to monitor
ambient air near lead sources which are expected to or have been shown
to have a potential to contribute to a 3-month average lead
concentration in ambient air in excess of the level of the NAAQS. At a
minimum, the 2008 rule required monitoring agencies to monitor near
lead sources that emit 1.0 ton per year (tpy) or more. However, the
2008 rule allows this requirement to be waived by the EPA Regional
Administrator if the monitoring agency can demonstrate that the source
will not contribute to a 3-month average lead concentration in ambient
air in excess of 50 percent of the level of the NAAQS (based on
historical monitoring data, modeling, or other means).
Monitoring agencies were also required by the 2008 rule to conduct
lead monitoring in large urban areas (identified as Core Based
Statistical Areas, or CBSA, as defined by the Office of Management and
Budget (OMB)) with a population of 500,000 people or more. The
locations for these monitoring sites are intended to measure
neighborhood-scale lead concentrations in urban areas impacted by
resuspended dust from roadways, closed industrial sources which
previously were significant sources of lead, hazardous waste sites,
construction and demolition projects, or other fugitive dust sources of
lead.
Following promulgation of the revised lead NAAQS and monitoring
requirements, the Natural Resources Defense Council (NRDC), the
Missouri Coalition for the Environment Foundation, Physicians for
Social Responsibility, and Coalition to End Childhood Lead Poisoning
(``the Petitioners'') petitioned (NRDC, 2009) EPA to reconsider the
lead emission rate at which monitoring is required (the ``emission
threshold,'' set at 1.0 tpy by the 2008 rule).\1\ On July 22, 2009, EPA
granted the petition to reconsider aspects of the monitoring
requirements (Jackson, 2009). In response to the petition, EPA reviewed
and reconsidered the monitoring requirements and on December 30, 2009,
EPA proposed revisions to the requirements for both source-oriented and
non-source-oriented monitoring for lead (74 FR 69050). We proposed to
lower the emission threshold at which monitoring would be required (or
a waiver granted) to 0.50 tpy, to require lead monitoring at NCore
sites, and remove the existing CBSA-based non-source-oriented
monitoring requirement. The comment period ended February 16, 2010.
This action promulgates changes to the lead monitoring requirements
reflecting our consideration of the comments received on the proposed
revisions.
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\1\ The Petitioners also filed a legal challenge to the
monitoring provisions of the final lead NAAQS rule. See Missouri
Coalition for the Environment, et al. v. EPA, (DC Cir. No. 09-1009).
That litigation has been held in abeyance pending completion of
EPA's reconsideration.
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IV. Source-Oriented Monitoring Requirements
We are finalizing revisions to the source-oriented monitoring
requirements. Specifically, we are lowering the emission threshold from
1.0 tpy to 0.50 tpy for industrial sources of lead (e.g., lead smelters
and foundries). However, as discussed more thoroughly in Section V, we
are maintaining the emission threshold for airports at 1.0 tpy, and
implementing an airport monitoring study to determine the need for
monitoring of airports which emit less than 1.0 tpy of lead. The
following paragraphs discuss what we proposed, the comments we
received, and our rationale for our final decisions regarding the
emission thresholds in response to the petition for reconsideration.
A. What We Proposed for Source-Oriented Monitoring
An emission threshold is used to identify lead emission sources
which should be monitored because their emissions may cause or
contribute to ambient lead concentrations that exceed the lead NAAQS.
Monitoring agencies are required to conduct source-oriented lead
monitoring (unless a waiver is granted as allowed by 40 CFR part 58
Appendix D, paragraph 4.5(a)(ii)) to measure the maximum lead
concentration in ambient air resulting from each lead source which
emits lead at a rate equal to or more than the emission threshold. The
emission threshold for the revised NAAQS was first set at 1.0 tpy as
part of the October 2008 lead NAAQS revisions (73 FR 66964, codified at
40 CFR part 58). On December 30, 2009, we proposed to lower the
emission threshold from 1.0 tpy to 0.50 tpy (74 FR 69050).
We based our proposed revision on a review of the analyses
conducted to identify an appropriate emission threshold at the time of
final NAAQS revision. The analyses and our review are documented in the
preamble to the proposed monitoring revisions (74 FR 69052).
Specifically, we re-evaluated one of the analyses that EPA believed
provided the best information on the potential impact of lead sources
on ambient lead concentrations. This analysis used source-monitor pairs
to estimate the lowest emission rate at which an industrial facility
could exceed the lead NAAQS (Cavender 2008). In this analysis, source-
oriented lead monitors within one mile of a lead source (identified
from the 2002 National Emissions Inventory (NEI)) were identified. This
group of sites was then narrowed down to sites near facilities emitting
1 tpy or more of lead into the ambient air, and then to sites which
were only impacted by one lead emitting facility. Also, in cases where
more than one monitor was identified within one mile of the same
facility
[[Page 81128]]
emitting 1 tpy or more of lead annually, EPA only used the monitor
measuring the maximum lead concentration in the analysis. In this
manner, EPA identified seven monitor-facility pairs meeting the
emissions and distance criteria. Using data in the Air Quality System
(AQS) database (http://www.epa.gov/ttn/airs/airsaqs/) for the years
2001-2003, EPA developed an estimate of the maximum 3-month average
lead concentration for each monitoring site.\2\ Next, EPA calculated a
ratio of the maximum 3-month average concentration to the facility
annual emissions (as identified in the 2002 NEI) to provide an estimate
of the impact from the facility in units of micrograms per meter cubed
([micro]g/m \3\) per tpy. Dividing the level of the lead NAAQS (0.15
[micro]g/m \3\) by this ratio provides an estimate of the annual
emissions level for the facility which would result in ambient lead
concentrations just meeting the lead NAAQS, referred to here as a
``site-specific emission threshold'' (see Table 1).
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\2\ The estimate of the maximum 3-month average lead
concentration for this analysis was completed prior to promulgation
of the final data handling rules contained in 40 CFR Part 50
Appendix R. As such, minor differences in the estimated maximum 3-
month average lead concentration appear in the estimates presented
below for the same time period.
Table 1--Data Used To Estimate Facility Impacts Based on Monitoring Data
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Maximum 3-
month average NEI 2002 Site-specific
AQS site ID lead facility Ratio ([mu]g/ emission
concentration emission rate m \3\-tpy) threshold
([mu]g/m \3\) (tpy) (tpy)
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011090003....................................... 1.2 4.5 0.27 0.56
171190010....................................... 0.33 1.3 0.25 0.59
290990013....................................... 1.8 58.8 0.03 4.90
340231003....................................... 0.23 1.7 0.14 1.11
420110717....................................... 0.24 4.8 0.05 3.00
471870100....................................... 0.93 2.6 0.36 0.42
480850009....................................... 0.75 3.2 0.23 0.64
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This analysis shows that four of these seven lead sources support
an emission threshold less than the emission threshold of 1.0 tpy set
by the final rule on the revised lead NAAQS.
As part of the reconsideration, EPA evaluated the stability and
sensitivity of the above analysis. To evaluate the stability of the
site-specific emission threshold calculation, EPA performed the same
analysis for these same seven facilities based on the emission
estimates from the 2002 and 2005 NEI (Table 2) and estimated design
values (i.e., 3-month rolling average Pb concentration as determined by
40 CFR part 50 Appendix R) over the periods 2001-2003 and 2004-2006
(Table 3). Table 4 summarizes the site-specific emission thresholds
calculated for these periods.
Table 2--NEI Emission Estimates
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2002 NEI 2005 NEI
facility facility
AQS site ID NEI facility ID Facility name emission emission
rate (tpy) rate (tpy)
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011090003...................... NEI18383....................... Sanders Lead Co..... 4.5 4.44
171190010...................... NEI55848....................... National Steel Corp-- 1.3 0.90
Granite City Div.
290990013...................... NEI34412....................... Doe Run Company, 58.8 28.09
Herculaneum Smelter.
340231003...................... NEINJ16031..................... Johnson Controls 1.7 1.34
Battery Group Inc.
420110717...................... NEI117......................... East Penn Mfg....... 4.8 1.88
471870100...................... NEI715......................... Metalico-College 2.6 2.55
Grove, Inc.
480850009...................... NEI6493........................ GNB Metals Div...... 3.2 3.18
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Table 3--Estimated Design Values Based on Alternative Years
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2001-2003 2004-2006
design design
AQS site ID value value
([mu]g/m ([mu]g/m
\3\) \3\)
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011090003..................................... 1.2 1.16
171190010..................................... 0.33 0.43
290990013..................................... 1.8 1.44
340231003..................................... 0.23 0.32
420110717..................................... 0.24 0.20
471870100..................................... 0.93 --\4\
480850009..................................... 0.75 0.77
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Table 4--Estimated Site-Specific Emission Thresholds Based on
Alternative Years
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Site-specific emission
threshold
AQS site ID -------------------------
2002 2005
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011090003..................................... 0.56 0.57
171190010..................................... 0.59 0.32
290990013..................................... 4.90 2.93
340231003..................................... 1.11 0.63
420110717..................................... 3.00 1.41
471870100..................................... 0.42 --\4\
480850009..................................... 0.64 0.62
Minimum....................................... 0.42 0.32
Median........................................ 0.64 0.62
Maximum....................................... 4.90 2.93
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Table 4 shows that, in most cases, the calculated emission
threshold remained
[[Page 81129]]
fairly constant for a given facility over time, in general, varying by
a factor of 2 or less. Site-specific emission thresholds varied from
0.32 tpy to 4.9 tpy with a median of 0.63 tpy.
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\3\ EPA notes that, for facilities where emissions have
dramatically decreased in recent years, re-entrained lead from
historical deposits may influence the emission threshold calculation
to a greater extent than for facilities where lead emissions have
remained constant.
\4\ Monitoring data at this site did not meet the minimum
completeness requirements of 40 CFR part 50 Appendix R for this time
period. No design value or site-specific emission factor was
calculated for this time period.
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EPA noted that these metrics may be exaggerated by outliers due to
the limited number of facilities being evaluated. As such, EPA looked
at how these metrics changed when the extreme sites (i.e., the highest
and lowest emitting sources) were removed. Excluding site 290990013
resulted in a lowering of the upper range to 3 tpy and the median to
0.62 tpy but did not affect the minimum (0.32 tpy). Excluding site
171190010 increased the minimum to 0.42 and the median to 0.64 tpy but
did not affect the maximum.
In our discussion of the review, we noted that four of the seven
lead sources used to determine an emission threshold support an
emission threshold less than 1.0 tpy. Based on our review, we concluded
that lead sources emitting less than 1.0 tpy of lead could cause or
contribute to an exceedence of the lead NAAQS, and, as such, we
proposed to lower the emission threshold to 0.50 tpy for all sources of
lead. We requested comment on setting the emission threshold at a level
above or below 0.50 tpy.
B. Comments Received on Source-Oriented Monitoring
We received 616 comments on our proposal to lower the emission
threshold for all lead sources to 0.50 tpy. Of these comments, 601 were
in favor of the proposed change to the emission threshold, four
commenters supported maintaining the current 1.0 tpy emission
threshold, and three commenters suggested emission thresholds below
0.50 tpy. The following paragraphs summarize the significant comments
received and our responses to these comments.
The NRDC, on behalf of 20 additional organizations and two
individuals,\5\ supported our proposed revision of the emission
threshold to 0.50 tpy, stating, ``The latest and best available
scientific evidence supports the adoption of a near-source monitoring
threshold of 0.50 tons per year of lead to protect public health with
an adequate margin of safety. The available evidence demonstrates that
facilities emitting 0.5 tons per year of lead or more have the
potential to contribute to a violation of the NAAQS.'' NRDC also
states, ``monitoring downwind of facilities that emit between 0.5 and 1
tons per year of lead is necessary to provide sufficient information
about airborne lead levels near these facilities in order to adequately
enforce the NAAQS and to protect health with an adequate margin of
safety.''
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\5\ NRDC's comments were submitted on behalf of the National
Resources Defense Council, the Missouri Coalition for the
Environment, Physicians for Social Responsibility, the Coalition to
End Childhood Lead Poisoning, American Bottom Conservancy, American
Lung Association, Center on Race, Poverty & the Environment,
Citizens Against Ruining the Environment, Clean Air Council, East
Michigan Environmental Action Council, Learning Disabilities
Association of America, New York City Environmental Justice
Alliance, The Point, Public Interest Law Center of Philadelphia's
Public Health and Environmental Justice Project, Respiratory Health
Association of Metropolitan Chicago, Science and Environmental
Health Network, Trust for Lead Poisoning Prevention, UPROSE, Utah
Physicians for a Healthy Environment, Leslie and Jack Warden, WEACT
for Environmental Justice and the Wasatch Clean Air Coalition.
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The National Association of Clean Air Agencies (NACAA) agreed there
is evidence that high levels of lead exposure can occur near sources
(other than airports) emitting 0.50 tpy of lead and supported the
proposal to lower the source-oriented emissions threshold to 0.50 tpy,
stating that lowering the threshold will help regulatory agencies
gather the data necessary for fully implementing the lead NAAQS.
Northeast States for Coordinated Air Use Management (NESCAUM) agreed
with the proposal to change the emission threshold from 1.0 to 0.50 tpy
at lead sources (other than airports). Other monitoring agencies that
supported the change to an emission threshold of 0.50 tpy for
industrial sources include the states of Maine, Illinois, and
Wisconsin. In addition, several hundred comments supporting the change
to a 0.50 tpy emission threshold were received from individuals as part
of two mass comment campaigns.
The Doe Run Company offered two comments regarding the analysis
used to identify the emission threshold. In its first comment, Doe Run
questioned the use of the median of the site-specific emission
thresholds rather than the arithmetic average of the individual site-
specific emission thresholds. In response, we chose to use the median
rather than the arithmetic average because the median is more
representative of the central tendency of the site-specific emission
thresholds. Outliers (values much higher or lower than the rest of the
data set) can dramatically impact the arithmetic average, whereas the
median is less affected by outliers. As can be seen in Table 1 above,
the site-specific emission threshold calculated for site 290990013 is
much higher than the rest of the site-specific emission thresholds,
appears to be an outlier, and, as such, skews the average to a level
much higher than the median (i.e., central tendency) of the data. As
can be seen, five of the seven site-specific emission threshold
estimates (71 percent) are less than the average. Since the emission
threshold is intended to represent an estimate of the lowest lead
emission rate that under reasonable worst-case conditions (e.g.,
meteorological and emission release conditions that lead to poor
dispersion and high lead concentrations) could result in lead
concentrations exceeding the NAAQS (Cavender, 2008), setting the
emission threshold at a level that is higher than the site-specific
emission thresholds for 71 percent of the sites evaluated is
inappropriate. As such, we believe it is appropriate to use the median
of this data set rather than the arithmetic mean to determine the
emission threshold.
Doe Run also questioned why we limited the sites selected for the
analysis to sources that were estimated to emit 1 tpy or more of lead.
In response, we elected to only evaluate monitor-source pairs where the
source was estimated to emit 1 tpy or more to better focus the analysis
on those monitor-source pairs where the lead source was the primary
contributor to the ambient lead concentrations. Based on our earlier
review of the existing ambient lead measurements, we determined that
even in areas where there is no current industrial source of lead,
ambient lead concentrations were typically in the range of 0.02 to 0.03
[mu]g/m\3\ (USEPA, 2007). This ``urban background'' level of lead can
impact the calculated site-specific emission thresholds, and has a
higher impact as the source emissions (and consequently ambient lead
concentrations) decrease. Therefore, we elected to limit our analysis
to monitor-source pairs where the source was estimated to emit 1 tpy or
more to minimize the impact on the emission threshold calculation from
the ambient lead concentration impacts that were not due to the
source's lead emissions. As can be seen in Table 1 above, the lead
concentrations around the source-monitor pairs used were considerably
higher than background, ranging from 0.23 to 1.8 [mu]g/m\3\ on a 3-
month rolling average, and as such, by limiting the analysis to sources
with emissions greater than 1 tpy, background Pb concentrations had a
small impact on the emission threshold calculation.
C. Final Decision on Source-Oriented Monitoring
Our review of the emission threshold analyses reflects a greater
certainty that an emission source (other than airports which is
discussed separately below) emitting 0.50 tpy or greater may cause
[[Page 81130]]
ambient lead concentrations to approach or exceed the lead NAAQS. We
believe it is necessary to lower the emission threshold for industrial
sources to 0.50 tpy to better identify areas where the lead NAAQS may
be exceeded. Therefore, we are revising the emission threshold for
industrial sources to 0.50 tpy. Based on the 2005 NEI, 96 industrial
facilities are estimated to emit 0.50 tpy or more.\6\ Monitoring
agencies will be required to install and operate lead monitors at these
sources, demonstrate actual emissions are less than 0.50 tpy based on
the more current emissions or improved emission estimates, or request a
waiver if they can demonstrate that the impact for the source will not
contribute to ambient lead concentrations in excess of 50 percent of
the lead NAAQS (as allowed for under 40 CFR part 58 appendix D,
paragraph 4.5(a)(ii)).
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\6\ Note the 2008 NEI will be available before monitoring
agencies will be required to develop their revised lead monitoring
plans.
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V. Monitoring at Airport Facilities
We are maintaining a lead emission threshold for airports of 1.0
tpy, and are requiring a monitoring study at 15 airports with lead
emission inventories of 0.50 to 1.0 tpy that we have identified as
having characteristics that may cause or contribute to ambient lead
concentrations that approach or exceed the lead NAAQS. This section
summarizes what we proposed, the comments we received and our response
to these comments, and our final decision and rationale.
A. What We Proposed for Airport Monitoring
We proposed to lower the emission threshold for airport monitoring
from 1.0 tpy to 0.50 tpy. We explained that we had limited information
on the ambient lead impact from airports. We identified one study
conducted near the Santa Monica airport which measured a maximum 3-
month average lead concentration of 0.1 [mu]g/m\3\ near the runway
blast fence (Cavender, 2009a). Based on the 2002 lead emission estimate
for the Santa Monica airport of 0.4 tpy (USEPA, 2008), an estimated
site-specific emission threshold of 0.6 tpy was calculated using the
same procedures used to estimate a site-specific emission threshold for
industrial sources [i.e., 0.15 [mu]g/m\3\/(0.1 [mu]g/m\3\/0.4 tpy) =
0.6 tpy]. We noted that this site-specific emission threshold (0.6 tpy)
falls within the lower end of the range of specific emission thresholds
calculated for industrial sources above (0.32 to 4.9 tpy) and did not
support the case for different treatment of airports. As such, we
proposed to require monitoring at airports that had an estimated
emission rate of 0.50 or more tpy (or request a monitoring waiver as
allowed under 40 CFR part 58, Appendix D, paragraph 4.5(a)(ii)).
We also requested information on additional data that could be used
in setting a different emission threshold for airports, and comments on
whether we should consider other factors or criteria that might be
useful in determining whether a different approach is appropriate for
identifying those airports that have the potential to cause or
contribute to ambient lead concentrations approaching or exceeding the
lead NAAQS. We provided one example of an alternative where we could
require monitoring at airports that EPA determines have the potential
to cause or contribute to increased ambient lead concentrations
approaching or exceeding the NAAQS based on criteria including the
estimated lead emissions and other factors such as the number of
runways where piston-engine aircraft operate.
B. Comments Received on Monitoring at Airports
We received 16 comments on our proposal to lower the emission
threshold for airport monitoring to 0.50 tpy. Of these, two commenters
(on behalf of 21 organizations and three individuals) supported the
proposed lowering of the emission threshold, and nine did not support
the change. Five additional commenters provided input and advice for
improving the emission inventories for airports. The following
paragraphs summarize the significant comments received and our
responses to these comments.
NRDC, on behalf of itself, 20 additional organizations and two
individuals, supported the change to a 0.50 tpy emission threshold for
airports, stating that the available evidence supports a 0.50 tpy
monitoring threshold for airports. NRDC also stated that because
piston-engine powered aircraft continue to be a significant presence at
general aviation airports, these airports continue to be a source of
lead emissions with the potential to result in lead concentrations in
exceedence of the NAAQS, and that there is no evidence to support a
departure from the monitoring threshold for industrial sources.
Based on the limited available ambient lead concentration data near
airports, we agree that lead emissions from some airports have the
potential to cause or contribute to exceedances of the lead NAAQS, and
that lead monitoring of airports is necessary to ensure compliance with
the lead NAAQS. To identify airports that have the greatest potential
to cause or contribute to increased ambient lead concentrations
approaching or violating the NAAQS, we are applying a 0.50 tpy emission
threshold and additional criteria as described further below in the
discussion of the airport monitoring study.
A number of States and State organizations commented against the
use of a 0.50 tpy emission threshold for airports. NACAA urged EPA to
develop an airport monitoring study of general aviation airports
emitting more than 1.0 tpy of lead prior to the deployment of a full
airport monitoring program. NACAA claimed that a study is necessary in
order to determine sound sampling siting criteria and to evaluate
whether the 0.50 tpy threshold should be applicable to airports.
NESCAUM commented that a 0.50 tpy threshold is not appropriate for
NAAQS monitoring purposes at general aviation airports, arguing that
the airport study cited in the Federal Register (74 FR 69054) does not
support the need for lowering the monitoring threshold for general
aviation airports. NESCAUM claims the study indicates that neither the
Santa Monica nor the Van Nuys airports showed lead concentrations
higher than the Los Angeles basin average of 0.018 [mu]g/m\3\ at sites
beyond the airport property. NESCAUM recommended that the monitoring
threshold for general aviation airport lead monitoring remain at 1.0
tpy. NESCAUM noted that based on the draft 2008 NEI, a 1.0 tpy
threshold would require monitoring at the eight largest general
aviation airports. NESCAUM suggests that EPA reassess the need for
additional lead monitoring at smaller general aviation airports in a
future rulemaking based on information gathered from monitoring of the
airports that emit 1.0 tpy or more. The State of New York also
commented that the emission threshold for airports should remain at 1.0
tpy and that the data obtained from these airports should be used to
assess the need for additional monitoring at airports. Other States,
including Florida, Michigan, and North Carolina, suggested that an
airport monitoring study should be conducted to gain information on the
potential for airports to exceed the lead NAAQS.
In response, we agree that there is limited information available
on which to evaluate the potential for lead emissions from piston-
engine aircraft operations at airports to exceed or contribute to
exceedances of the lead NAAQS. However, we believe that lead
[[Page 81131]]
emissions from piston-engine aircraft operations at airports may cause
ambient lead concentrations to exceed the lead NAAQS at some airports
based on the limited data available on ambient lead concentrations at
and near airports. We also agree with the commenters that an airport
monitoring study would provide useful information that could be used to
determine whether a revision to the 1.0 tpy threshold for monitoring of
airports would be appropriate.
A number of States asserted that monitoring should not be required
at airports because States do not have the authority to require
controls on aircraft emissions that are not identical to EPA's
standards, and regulatory authority to reduce or eliminate lead
emissions from piston-engine aircraft resides with the Federal
Government. We understand States are preempted by Clean Air Act (CAA)
section 233 from adopting or attempting to enforce any standard for
aircraft or aircraft engine emissions that is not identical to an EPA
standard. However, that does not negate the responsibility to monitor
sources of criteria pollutants to identify whether exceedences of the
NAAQS are occurring.
EPA has made some designations under the 2008 Lead NAAQS and
anticipates making the remaining initial designations under that
standard by October 2011. EPA does not anticipate that the additional
monitors required under this rule would be installed and operating in
time to provide data for consideration when EPA completes the remaining
initial designations under the 2008 Lead NAAQS. If EPA receives
monitoring data exceeding the NAAQS after the date of initial
designations, EPA may determine whether to undertake a redesignation to
nonattainment, issue a ``SIP Call'' under section 110(k)(5), or take
other discretionary steps to ensure that an area attains and maintains
the NAAQS. EPA recognizes that, if ambient air near an airport was
found to be exceeding the standard, and EPA were to take such
discretionary action, there would be limits under federal law as to the
measures a state could propose to adopt in a state implementation plan.
EPA may take such limits into consideration in determining what steps
to take following an exceedance of the standard.
Separate from this Pb monitoring rule, EPA is responding to a
petition submitted by Friends of the Earth (FOE) requesting that EPA
determine whether Pb emissions from aircraft cause or contribute to air
pollution that may reasonably be anticipated to endanger public health
or welfare. As part of this work, EPA published in April 2010 an
Advance Notice of Proposed Rulemaking (ANPR) on Lead Emissions from
Piston-Engine Aircraft Using Leaded Aviation Gasoline. In this action
we described and requested comment on the data available for evaluating
lead emissions, ambient concentrations and potential exposure to lead
from the use of leaded aviation gasoline (avgas) in piston-engine
powered aircraft. This ANPR also described considerations regarding
emission engine standards and requested comment on approaches for
transitioning the piston-engine fleet to unleaded avgas. The EPA and
FAA are working with industry to evaluate alternatives to leaded avgas.
As part of this assessment, EPA and FAA are also considering safety,
fuel supply, and economic impact issues including effects on small
business.
C. Final Decision on Airport Monitoring
We are maintaining the previously promulgated 1.0 tpy monitoring
threshold for airports, rather than promulgating the proposed lowering
of the threshold to 0.50 tpy, and are requiring lead monitoring for a
minimum of one year at 15 additional airports that we have identified
as having characteristics that could lead to ambient lead
concentrations approaching or exceeding the lead NAAQS. We are also
revising the provision regarding the Regional Administrator's (RA)
authority (40 CFR part 58, Appendix D, paragraph 4.5(c)), which allows
the RA to require additional lead monitoring at locations where the RA
suspects the lead NAAQS may be exceeded, to clarify that this RA
authority also applies to airports. The following paragraphs provide
our rationale for this approach to monitoring of ambient lead
concentrations at airports.
As stated above and in the proposal to this rulemaking, we believe
that lead emissions may approach or exceed the lead NAAQS at some
airports based on the limited data available on ambient lead
concentrations at airports. As such, we believe monitoring of airports
is necessary. However, in light of the limited available data, and in
consideration of the comments we have received, we believe that
monitoring at airports with certain characteristics (as discussed
below) is appropriate to identify airports with the potential for the
highest ambient lead concentrations that could approach or exceed the
lead NAAQS.
We agree with the comments that a monitoring study should be
conducted to determine whether a revision to the 1.0 tpy threshold for
monitoring airports would be appropriate. We do not agree with the
comments that suggested the study should be limited to airports that
emit 1.0 tpy or more, as airports emitting 1.0 tpy or more of lead
often have much larger footprints and multiple runways (characteristics
that we believe will result in lower ambient lead concentration impacts
per ton of lead emitted) than many of the airports in the 0.50 tpy to
1.0 tpy emissions range. These differences would make the information
gathered at 1.0 tpy airports less applicable to smaller airports.
Consequently, we are requiring monitoring agencies to conduct
monitoring at 15 selected airports where the most recent year of
activity data indicates lead emissions are above 0.50 tpy, but below
1.0 tpy, for a minimum of one year as part of a monitoring study
(Hoyer, 2010).\7\ Details of the monitoring study are provided below.
Table 5 lists the 15 selected airports for this monitoring study.
---------------------------------------------------------------------------
\7\ Airports selected for the monitoring study must conduct
ambient lead monitoring for the 12-month period of the study. Unlike
other source-oriented lead monitors, the waiver provision will not
apply to the short-term monitors in the airport monitoring study.
Table 5--Airports Selected for Monitoring Study
------------------------------------------------------------------------
Airport County State
------------------------------------------------------------------------
Merrill Field..................... Anchorage............ AK
Pryor Field Regional.............. Limestone............ AL
Palo Alto Airport of Santa Clara Santa Clara.......... CA
County.
McClellan-Palomar................. San Diego............ CA
Reid-Hillview..................... Santa Clara.......... CA
Gillespie Field................... San Diego............ CA
San Carlos........................ San Mateo............ CA
[[Page 81132]]
Nantucket Memorial................ Nantucket............ MA
Oakland County International...... Oakland.............. MI
Republic.......................... Suffolk.............. NY
Brookhaven........................ Suffolk.............. NY
Stinson Municipal................. Bexar................ TX
Northwest Regional................ Denton............... TX
Harvey Field...................... Snohomish............ WA
Auburn Municipal.................. King................. WA
------------------------------------------------------------------------
These airports were selected because they have characteristics that
we believe will result in lead concentrations higher than those at
other airports with estimated emission rates between 0.50 tpy and 1.0
tpy. Specifically, in addition to having emissions greater than or
equal to 0.50 tpy and less than 1.0 tpy (based on current emission
inventories), these airports have ambient air within 150 meters of the
location of maximum emissions (e.g., the end of a runway or run-up
location), and an airport configuration and meteorological scenario
that leads to a greater frequency of operations from one runway. These
characteristics were selected because we expect that, collectively,
they allow us to identify airports with the highest potential to have
ambient lead concentrations approaching or exceeding the lead NAAQS. A
cutoff of 0.50 tpy was selected because it was the proposed emission
threshold, and the higher the emission rate, the higher the ambient
impact if all other factors are equal. We selected a maximum distance
to ambient air from the location of maximum emissions of 150 meters
because the available information indicates that ambient lead
concentrations drop off quickly with distance, and it is less likely
that an exceedence of the lead NAAQS will occur at greater distances.
Finally, airport configuration and meteorology were evaluated because
the lead impacts will be highest if the take-offs (and therefore lead
emissions) are conducted at one or two runways. We evaluated every
airport in the draft 2008 NEI based on these three characteristics and
identified the 15 airports listed in Table 5 as those airports most
likely to have the highest ambient lead impacts that could lead to
ambient lead concentrations in excess of the lead NAAQS.
As part of the airport monitoring study, monitoring agencies will
be required to conduct lead monitoring for a period of 12 consecutive
months. Monitors will be sited at the location of estimated maximum
lead concentration in ambient air, taking into account logistical
considerations and the potential for population exposure. To ensure
that the results of the study will be directly comparable to the lead
NAAQS, monitoring agencies will be required to monitor using either
Federal Reference Method (FRM) or Federal Equivalent Method (FEM) Pb-
TSP samplers, and will not be allowed to use Pb-PM10
samplers for the study. Any monitoring location that measures a rolling
3-month average that exceeds 50 percent of the NAAQS as determined
according to 40 CFR part 50, Appendix R during the monitoring study
will become a required monitor according to 40 CFR part 58 paragraph
4.5(c). Data collected during the monitoring study will be reported to
the AQS according to 40 CFR 58.16.
Data from this monitoring study will be used to assess the need for
additional lead monitoring at airports. Under EPA's previously
established monitoring network requirements, required source-oriented
monitors that read above 50 percent of the NAAQS (0.075 [mu]g/m\3\ on a
rolling 3-month average) may not be taken down or stop operating (40
CFR part 58 Appendix D, paragraph 4.5(a)(ii)). The purpose of that
provision is to ensure monitoring of an area where ambient
concentrations could be of concern. EPA continues to believe that this
rationale is also applicable to monitors at airports; therefore, 40 CFR
part 58 Appendix D, paragraph 4.5(a)(ii) will apply to the results of
airport monitors that show concentrations higher than 50 percent of the
NAAQS. Such monitors will remain in operation, affected States will
include them in annual monitoring network plans, and the monitors will
become a part of the State and local monitoring network.
If after a review of the data from the monitoring study we have
information that indicates additional airports may have the potential
to cause or contribute to ambient lead concentrations that exceed the
lead NAAQS, we will consider use of the RA authority to require
monitoring at additional airports where appropriate. Finally, data from
this study will be used in future lead NAAQS reviews when considering
requirements for monitoring at airports.
VI. Non-Source-Oriented Monitoring Requirements
We are revising the non-source-oriented lead monitoring
requirements. We are requiring lead monitoring at NCore sites in CBSA
with a population greater than 500,000 people in lieu of the
requirement for non-source-oriented monitoring in each CBSA with a
population of 500,000 people or more. This section summarizes what we
proposed, the comments we received and our response to these comments,
and our final decision and rationale for the revisions to the non-
source-oriented monitoring requirement.
A. What We Proposed for Non-Source Oriented Monitoring
We proposed to replace the existing requirement to have one non-
source-oriented monitor in each CBSA with a population greater than
500,000 people with the requirement to monitor lead at NCore sites. We
indicated that the existing requirement was intended to monitor non-
inventoried lead sources such as closed industrial sources, hazardous
waste sites, and construction and demolition projects. We noted that
non-inventoried sources would be better addressed under the existing
source-oriented monitoring requirements, and that the existing RA
authority could be used to require source-oriented monitoring at
locations where it was suspected that a non-inventoried source was
likely to cause an exceedence of the lead NAAQS.
We discussed the original objectives for non-source-oriented
monitors (i.e., measuring typical neighborhood-scale lead
concentrations in urban areas so we can better understand the risk
posed by lead to the general population and provide information that
could assist with the determination of nonattainment boundaries) and
that non-source-oriented sites are important to support the development
of long-term
[[Page 81133]]
trends at typical concentrations sites. We noted that these objectives
match those of the multi-pollutant NCore network required under section
3 of Appendix D to 40 CFR part 58. We also noted that many NCore sites
will have the low-volume PM10 sampler appropriate for
conducting Pb-PM10 monitoring, reducing the cost and time
necessary to implement the non-source-oriented monitoring requirements.
Due to the many advantages of including lead monitoring at NCore sites
rather than having separate non-source-oriented monitoring
requirements, we proposed to revise the existing non-source-oriented
monitoring requirements (paragraph 4.5(b) of Appendix D to 40 CFR part
58) to require lead monitoring at all NCore sites in place of the
current CBSA population-based requirements. Finally, we requested
comments on whether lead monitoring should be required at all NCore
sites or only NCore sites in large urban areas (e.g., in CBSA with a
population greater than 500,000 people).
B. Comments on Non-Source-Oriented Monitoring
We received 13 comments on our proposal to require lead monitoring
at NCore sites instead of the existing requirement to have one non-
source-oriented monitor in each CBSA with a population greater than
500,000 people. Of these, three supported the proposed change to
require lead monitoring at all NCore sites, six supported changing the
requirement to require lead monitoring at only urban NCore sites, and
no comments supported maintaining the existing non-source-oriented
monitoring requirement. In addition, two commenters requested we
provide guidance on when the RA authority should be used to require
monitoring at non-inventoried lead sources. The following paragraphs
summarize the significant comments received and our responses to these
comments.
In their comments, NACAA supported the proposal to conduct non-
source-oriented lead monitoring using the NCore network but recommended
that EPA require monitoring only at NCore sites located in larger urban
areas (i.e., CBSA with a population greater than 500,000). NACAA
indicated that doing so would allow States to use their limited
resources to focus non-source-oriented monitoring and control
strategies in the most sensitive areas. NESCAUM commented that the
proposed inclusion of the rural NCore sites is inconsistent with the
monitoring goal and would be a waste of State resources. New York
commented that in many CBSA, the tentatively approved NCore monitoring
location is probably well suited for non-source-oriented monitoring
objectives, but that there is no need to monitor lead at the rural
NCore sites. North Carolina commented that using the NCore sites
provides efficient use of EPA and State resources and provides data on
background levels of lead most cost-effectively. Wisconsin supported
population-oriented sites located at urban NCore locations and
questioned monitoring at rural NCore sites where concentrations likely
will be extremely low.
In their comments, NRDC supported the inclusion of lead at all
NCore sites stating that it will provide valuable data on multi-
pollutant exposures in cities and towns across the county. However,
they added that inclusion of lead at NCore sites does not sufficiently
address all of the original objectives of the non-source-oriented
monitoring, and that the RA authority is not adequate to ensure that
non-inventoried sources that have the potential to exceed the NAAQS
will be monitored without additional guidance to the States. They
suggested that the source-oriented monitoring requirement should be
revised to provide additional guidance to States on monitoring non-
inventoried sources that have the potential to exceed the NAAQS. We
agree that additional guidance is needed on identifying locations that
have the potential to exceed the lead NAAQS due to re-suspension of
deposited lead and, as discussed below, are clarifying the language for
the RA authority provision to include requiring monitoring of re-
entrained dust sources as well as other sources of lead.
Several commenters suggested we provide for the use of alternative
sites such as National Air Toxic Trends Sites (NATTS) where measuring
lead at NCore is either impractical or the alternative site would
provide more useful information on urban lead concentrations. We note
that lead measurements taken at NATTS sites would satisfy the
objectives for non-source-oriented monitoring. Furthermore, we proposed
to require lead non-source-oriented monitoring at NCore in part due to
expected efficiencies (i.e., use of the same equipment needed for
PM10-2.5 mass measurements). We believe that the requested
flexibility is appropriate for situations where non-NCore sites such as
NATTS sites can meet the non-source-oriented monitoring objectives at a
lower cost to monitoring agencies.\8\
---------------------------------------------------------------------------
\8\ Note that some NATTS sites do not use FRM/FEM methods. If a
NATTS site is to be used to meet the non-source-oriented monitoring
requirement, the monitoring agency would be required to switch to an
FRM/FEM method.
---------------------------------------------------------------------------
Two commenters noted that the non-source-oriented lead monitoring
sites will be the only lead monitoring site in many primary quality
assurance organizations (PQAO). The collocation requirement in Appendix
A to 40 CFR part 58, paragraph 3.3.4.3, would require these PQAO to
collocate a second lead monitor at each of the non-source-oriented lead
monitoring sites, nearly doubling the cost of non-source-oriented lead
monitoring in these CBSA. Both commenters questioned the need for such
extensive collocation when lead concentrations are expected to be well
below the lead NAAQS at the non-source-oriented lead monitoring sites.
We agree with the commenters that, as currently written, the
collocation requirement would lead to an unnecessarily high level of
collocation at the non-source-oriented monitoring sites. We have
modified the quality assurance requirements to allow the 15 percent
collocation requirement to be based on the entire NCore network rather
than on a per PQAO basis which is consistent with the
PM10-2.5 collocation requirement for NCore sites.
C. Final Decision on Non-Source-Oriented Monitoring
We are adding the requirement for lead monitoring to the list of
pollutants to be monitored for NCore sites in CBSA with a population of
500,000 people or more and revoking the existing requirement for non-
source-oriented monitoring (40 CFR part 58, Appendix D, paragraph
4.5(b)). Also, we are revoking the existing requirement to conduct lead
monitoring at 10 NCore sites because it is redundant to the new non-
source-monitoring requirement being promulgated today (40 CFR part 58,
Appendix D, paragraph 3(c)). This change will improve our ability to
track changes in typical urban lead concentrations and provide useful
information on typical urban lead exposures. In addition, we are
revising the RA authority (40 CFR part 58, Appendix D, paragraph
4.5(c)) provision to clarify that the RA may require monitoring of re-
entrained lead dust sources which are expected to cause or contribute
to ambient lead concentrations that may approach or exceed the lead
NAAQS. Finally, we are revising the 15 percent collocation requirement
for non-source-oriented lead monitors to be based on the entire NCore
network rather than based on each PQAO.
[[Page 81134]]
VII. Monitor Deployment Schedule
We are requiring that monitoring agencies install and begin
operation of source-oriented monitors near lead sources emitting 0.50
tpy or more but less than 1.0 tpy, and at the 15 airports identified
for the airport monitoring study by December 27, 2011. We are requiring
monitoring agencies to install and begin operation of non-source-
oriented monitors at NCore sites (or approved alternative sites) in
CBSA with a population of 500,000 people or more by December 27, 2011.
We are also requiring that monitoring agencies update their annual
monitoring network plans by July 1, 2011, to incorporate plans for all
required source-oriented (including airports) and non-source-oriented
lead monitors. This section summarizes what we proposed, the comments
we received and our response to these comments, and our final decision
and rationale for the final monitoring deployment schedule.
A. What We Proposed for Monitor Deployment Schedule
We proposed that monitoring agencies would have six months from the
effective date of the final rule to update their annual monitoring
network plans. The update would incorporate plans for source-oriented
monitors near lead sources emitting 0.50 tpy or more, but less than 1.0
tpy. We also proposed to allow one year from the date of the final rule
for monitoring agencies to install and begin operation of source-
oriented monitors near lead sources emitting 0.50 tpy or more, but less
than 1.0 tpy. We also requested comment on staggering the monitor
deployment over two years. Note, we did not propose changes to the
existing schedules for updating plans (July 1, 2009) and beginning
operation (January 1, 2010) of source-oriented monitors near lead
sources emitting 1.0 tpy or more.
We proposed to require monitoring agencies to commence lead
sampling at NCore sites when NCore sites are to become operational no
later than January 1, 2011. Monitoring agencies must have installed and
begun operation of required NCore sites and monitors (other than lead)
by January 1, 2011. Many NCore sites will have the necessary
PM10 sampler needed to conduct Pb-PM10 sampling
due to the existing requirement to conduct PM10-2.5
sampling. As such, we proposed to require monitoring agencies to
commence lead sampling at NCore sites when NCore sites are to become
operational no later than January 1, 2011.
B. Comments on Monitor Deployment Schedule
We received several comments on the proposed monitoring deployment
schedule. Seven commenters supported allowing for a longer deployment
period. NACAA recommended that States' new source-oriented monitoring
be deployed over a two year period which would give State and local
agencies adequate time to adjust their resources and ensure that new
monitors are properly sited and supported. Iowa commented that any new
source-oriented monitors required under the provisions of this rule
should be installed over a two year period, with the first tier of
source-oriented monitors operational by January 2012, and the second
tier of monitors by January 2013. Iowa states that this would allow
States adequate time to refine emissions estimates by use of stack
tests, to model the refined estimates, and to attempt to locate
monitoring sites in the ``hot spots'' indentified by the modeling.
Other monitoring agencies requesting a deployment period longer than
one year include Texas, New York, Illinois, and Arkansas.
We recognize the difficulty monitoring agencies will have in
deploying the newly required monitors. However, as is discussed below,
we believe it is feasible for monitoring agencies to deploy the
monitors necessary to comply with this final rule within one year. We
note that the estimated number of new sites that States will need to
site and install (or receive waivers for) in this final rule is 111,\9\
which is 50 less than the number estimated based on the proposed rule.
Following the 2008 revision, monitoring agencies were able to install
approximately 100 new lead sites, and were granted waivers for an
additional 35 sites. Based on the success and the experience gained
from the deployment of the monitors to address the 2008 revision, we
believe requiring up to 111 new sites to be sited and installed within
one year will not create an excessive burden on monitoring agencies.
---------------------------------------------------------------------------
\9\ The total number of newly required lead sites is 174.
However, this number includes 63 NCore sites which have already been
sited and installed due to the existing requirements for installing
and operating NCore sites.
---------------------------------------------------------------------------
One commenter requested that we synchronize the dates of the
required revision to the lead monitoring plan with the date for the
existing annual monitoring plan requirement. We recognize the
efficiency of having the same dates for the revision to the lead
monitoring plan and required annual monitoring plan. We also note that
due to the timing of this final rule, the proposed deadline of 6-months
following the final rule (June 27, 2011) is close to the deadline for
the required 2011 annual monitoring network plans (July 1, 2011). We
agree that it is appropriate to use the same date for the two plans due
to the proximity of the two dates.
Several commenters noted a discrepancy in the required dates in the
preamble to the proposed rule and the proposed regulatory language. We
note that the proposed regulatory language published in the Federal
Register inadvertently indicated dates for the required plan and
installation and operation of new monitors based on the date of the
proposed rule. The preamble correctly indicated that the proposed dates
would be based on the date the final rule was published.
C. Final Decision on Monitoring Deployment Schedule
We are requiring that monitoring agencies install and begin
operation of source-oriented monitors near lead sources emitting 0.50
tpy or more but less than 1.0 tpy and at the 15 airports identified for
the airport monitoring study by December 27, 2011, one year from the
date of publication of this final rule. We estimate that monitoring
agencies will be required to site and install up to 111 new source-
oriented monitors \10\ based on the final monitoring requirements. This
number is slightly higher than the 100 monitors that have already been
installed near sources emitting 1.0 tpy or more. We believe monitoring
agencies can install the newly required source-oriented-monitoring
sites within one year of the publication of this final rule especially
in light of the experience and success achieved by monitoring agencies
in complying with the previous source-oriented-monitoring requirement.
---------------------------------------------------------------------------
\10\ The total number of new source oriented sites installed
will likely be less as this estimate does not account for waivers.
---------------------------------------------------------------------------
We are requiring monitoring agencies to install and begin operation
of non-source-oriented monitors at NCore sites in CBSA with a
population of 500,000 people or more by December 27, 2011. To allow
monitoring agencies sufficient time to plan for and install any
necessary equipment, we are allowing monitoring agencies a reasonable
time, 1 year, from the time of publication of this final rule to comply
with the non-source-oriented monitoring requirements.
We are also requiring that monitoring agencies update their annual
monitoring
[[Page 81135]]
network plans by July 1, 2011, to incorporate plans for all required
source-oriented (including airports) and non-source-oriented lead
monitoring. This date is the same as the existing requirement for
States to submit their 2011 annual monitoring plan as required by 40
CFR Part 58.10(a)(i).
VIII. References
Cavender, K. (2008). Development of Final Source-oriented Monitoring
Emission Threshold. Memorandum to the Lead NAAQS Review Docket. EPA-
HQ-OAR-2006-0735. Available online at: http://www.epa.gov/ttnnaaqs/standards/lead/data/20081015Cavender.pdf.
Cavender, K. (2009). Summary of Discussion of Lead Monitoring Near
Airports at Spring 2009 NACAA Monitoring Subcommittee Meeting.
Memorandum to the Lead NAAQS Review Docket. EPA-HQ-OAR-2006-0735.
Hoyer, M. (2010). Selection of Airports for Airport Monitoring
Study. Memorandum to the Lead NAAQS Review Docket. EPA-HQ-OAR-2006-
0735.
Jackson, L. (2009). Letter to petitioners. EPA-HQ-OAR-2006-0735.
Available online at: http://www.epa.gov/air/lead/pdfs/OAR.09.000.7687.pdf.
NRDC, et al. (2009). Petition to Reconsider. EPA-HQ-OAR-2006-0735.
Available online at: http://www.epa.gov/air/lead/pdfs/0122009petitionReconsideration.pdf.
U.S. Environmental Protection Agency. (2007) Policy Assessment of
Scientific and Technical Information: Final Staff Paper. Available
online at: http://www.epa.gov/ttnnaaqs/standards/pb/data/20071101_pb_staff.pdf.
U.S. Environmental Protection Agency. (2008) Lead Emissions from the
Use of Leaded Aviation Gasoline in the United States. EPA420-R-08-
020. Available online at: http://www.epa.gov/ttn/chief/net/tsd_avgas_lead_inventory_2002.pdf.
White, J. (2010). Environmental Justice Analysis for Revisions to
Lead Monitoring Requirements. Memorandum to the Lead NAAQS Review
Docket. EPA-HQ-OAR-2006-0735.
IX. Judicial Review
Under section 307(b)(1) of the CAA, judicial review of this final
rule is available by filing a petition for review in the U.S. Court of
Appeals for the District of Columbia Circuit by February 25, 2011.
Moreover, under section 307(b)(2) of the CAA, the requirements
established by this action may not be challenged separately in any
civil or criminal proceedings brought by EPA to enforce these
requirements.
X. Statutory and Executive Order Reviews
A. Executive Order 12866: Regulatory Planning and Review
Under Executive Order 12866 (58 FR 51735, October 4, 1993), this
action is a ``significant regulatory action'' because it was deemed to
``raise novel legal or policy issues.'' Accordingly, EPA submitted this
action to the Office of Management and Budget (OMB) for review under
Executive Order 12866 and any changes made in response to OMB
recommendations have been documented in the docket for this action.
B. Paperwork Reduction Act
The information collection requirements in this rule will be
submitted for approval to the OMB under the Paperwork Reduction Act, 44
U.S.C. 3501 et seq. The information collection requirements are not
enforceable until OMB approves them.
The information collected and reported under 40 CFR part 58 is
needed to determine compliance with the NAAQS, to characterize air
quality and associated health and ecosystem impacts, to develop
emissions control strategies, and to measure progress for the air
pollution program. The final amendments revise the technical
requirements for lead monitoring sites, require the siting and
operation of additional lead ambient air monitors, and the reporting of
the collected ambient lead monitoring data to EPA's AQS database. We
have estimated the burden based on the final monitoring requirements of
this rule. Based on these requirements, the annual average reporting
burden for the collection under 40 CFR part 58 (averaged over the first
3 years of this Information Collection Request(ICR)) for 100
respondents is estimated to increase by a total of 1,726 labor hours
per year with an increase of $119,172 per year. Burden is defined at 5
CFR 1320.3(b).
An agency may not conduct or sponsor, and a person is not required
to respond to, a collection of information unless it displays a
currently valid OMB control number. The OMB control numbers for EPA's
regulations in 40 CFR are listed in 40 CFR part 9. When this ICR is
approved by OMB, the Agency will publish a technical amendment to 40
CFR part 9 in the Federal Register to display the OMB control number
for the approved information collection requirements contained in this
final rule.
C. Regulatory Flexibility Act
The Regulatory Flexibility Act generally requires an agency to
prepare a regulatory flexibility analysis of any rule subject to notice
and comment rulemaking requirements under the Administrative Procedure
Act or any other statute unless the agency certifies that the rule will
not have a significant economic impact on a substantial number of small
entities. Small entities include small businesses, small organizations,
and small governmental jurisdictions.
For purposes of assessing the impacts of this rule on small
entities, small entity is defined as: (1) A small business as defined
by the Small Business Administration (SBA) regulations at 13 CFR
121.21; (2) a small governmental jurisdiction that is a government of a
city, county, town, school district or special district with a
population of less than 50,000; and (3) a small organization that is
any not-for-profit enterprise which is independently owned and operated
and is not dominant in its field.
After considering the economic impacts of this final rule on small
entities, I certify that this action will not have a significant
economic impact on a substantial number of small entities. This final
rule will not impose any requirements on small entities. Rather, this
rule establishes monitoring requirements for State and local (where
applicable) monitoring agencies.
D. Unfunded Mandates Reform Act
This rule does not contain a federal mandate that may result in
expenditures of $100 million or more for State, local, and tribal
governments, in the aggregate, or the private sector in any one year.
The amendments to 40 CFR part 58 are estimated to increase the ambient
air monitoring costs by 22,376 labor hours per year with an increase of
$1,910,059 per year from present levels. Thus, this rule is not subject
to the requirements of sections 202 or 205 of UMRA.
This rule is also not subject to the requirements of section 203 of
UMRA because it contains no regulatory requirements that might
significantly or uniquely affect small governments. Small governments
that may be affected by the amendments are already meeting similar
requirements under the existing rules, and the costs of changing the
network design requirements would be borne, in part, by the federal
government through State assistance grants.
E. Executive Order 13132: Federalism
This final rule does not have federalism implications. It will not
have substantial direct effects on the states, on the relationship
between the national government and the states, or on the distribution
of power and responsibilities among the various levels of government,
as specified in Executive Order 13132. The rule does not alter the
relationship between the federal government and the States
[[Page 81136]]
regarding the establishment and implementation of air quality
improvement programs as codified in the CAA. Thus, Executive Order
13132 does not apply to this rule. In the spirit of Executive Order
13132, and consistent with EPA policy to promote communications between
EPA and state and local governments, EPA specifically solicited comment
on the proposed rule from state and local officials.
F. Executive Order 13175: Consultation and Coordination With Indian
Tribal Governments
This action does not have tribal implications, as specified in
Executive Order 13175 (65 FR 67249, November 9, 2000). It does not have
a substantial direct effect on one or more Indian tribes, since tribes
are not obligated to adopt or implement any NAAQS. Thus, Executive
Order 13175 does not apply to this action.
G. Executive Order 13045: Protection of Children From Environmental
Health Risks and Safety Risks
EPA interprets Executive Order 13045 (62 F.R. 19885, April 23,
1997) as applying only to those regulatory actions that concern health
or safety risks, such that the analysis required under section 5-501 of
the Executive Order has the potential to influence the regulation. This
action is not subject to Executive Order 13045 because it does not
establish an environmental standard intended to mitigate health or
safety risks.
H. Executive Order 13211: Actions Concerning Regulations That
significantly Affect Energy Supply, Distribution, or Use
This action is not a ``significant energy action'' as defined in
Executive Order 13211 (66 FR 28355 (May 22, 2001)), because it is not
likely to have a significant adverse effect on the supply,
distribution, or use of energy. This rule would result in an
insignificant increase in power consumption associated with the
additional power required to run 111 additional lead monitors
nationwide.
I. National Technology Transfer and Advancement Act
Section 12(d) of the National Technology Transfer and Advancement
Act of 1995 (``NTTAA''), Public Law 104-113, 12(d)(15 U.S.C. 272 note)
directs EPA to use voluntary consensus standards in its regulatory
activities unless to do so would be inconsistent with applicable law or
otherwise impractical. Voluntary consensus standards are technical
standards (e.g., materials specifications, test methods, sampling
procedures, and business practices) that are developed or adopted by
voluntary consensus standards bodies. NTTAA directs EPA to provide
Congress, through OMB, explanations when the Agency decides not to use
available and applicable voluntary consensus standards.
This action does not involve technical standards. Therefore, EPA
did not consider the use of any voluntary consensus standards.
J. Executive Order 12898: Federal Actions to Address Environmental
Justice in Minority Populations and Low-Income Populations.
Executive Order 12898 (59 FR 7629 (Feb. 16, 1994)) establishes
federal executive policy on environmental justice. Its main provision
directs federal agencies, to the greatest extent practicable and
permitted by law, to make environmental justice part of their mission
by identifying and addressing, as appropriate, disproportionately high
and adverse human health or environmental effects of their programs,
policies, and activities on minority populations and low-income
populations in the United States.
This proposed action revises the ambient monitoring requirements
for measuring airborne lead. As such, the rule does not establish an
environmental standard. Instead, by lowering the emissions threshold
from 1.0 tons per year (tpy) to 0.5 tpy used to determine if an air
quality monitor for lead should be placed near an industrial facility,
this rule requires assessment of compliance at smaller emissions
sources, and therefore effectively strengthens the lead monitoring
requirements and, in turn, may increase the public health protection
provided by the NAAQS itself. The rule maintains a 1.0 tpy emissions
threshold for airports and implements an airport monitoring study to
determine the need for monitoring of airports which emit less than 1.0
tpy of lead. The rule also replaces the existing non-source-oriented
monitoring requirement for lead monitoring in large urban areas with a
requirement that lead be added to the list of pollutants to be
monitored at NCore sites in CBSA with a population of 500,000 people or
more. These rule amendments are designed to improve the lead monitoring
network's capability to better assess compliance with the revised NAAQS
(73 FR 66964, codified at 40 CFR part 58).
Pursuant to E.O. 12898 EPA has undertaken to determine the
aggregate demographic makeup of the communities potentially affected by
this proposed rule revision. The EPA focused its analysis on 111
industrial sources of lead (e.g., lead smelters, and foundries)
impacted by the lowering of the emissions threshold from 1.0 tpy to 0.5
tpy. The analytical approach, which assumed ``proximity-to-a-source''
as a surrogate for determining a population's potential exposure to
lead emissions from these sources, evaluated several socio-demographic
parameters and compared them against the respective national averages
for the same parameters.
The socio-demographic parameters used in the analysis included
estimates of the percentage of the population near the sources that
were White, Minority (i.e., all Non-White), African American, Native
American, Other/Multiracial, and Hispanic. The study also evaluated the
percentages of the same populations less than or equal to 18 years of
age; greater than or equal to 65 years of age; and the total below
poverty line.
The analysis determined the composition of those census blocks that
lay within a circular distance of one mile (or approximately 1.6
kilometers) of affected sources with respect to the selected socio-
demographic parameters. The study area radius (i.e., 1 mile) was used
because available data generally indicate that lead emissions from such
sources are rapidly deposited and ambient lead concentrations decline
quickly with distance from the emission source.
The analysis indicated that the aggregate population living within
a one-mile area around these sources tends to have lower proportions of
Whites and higher proportions of African-Americans, Hispanics, and
``Other and Multi-racial'' populations than their respective national
averages. The Minority (i.e., total Non-White) population in these
areas is greater than the national average (i.e., 29% versus 25%
respectively). The Tribal population percentages are similar for both
those living within the study area and the national average (i.e., both
< 1%). The percentage of the population of those living below the
poverty line within the area of study is higher than the national
average (i.e., 17% versus 13% respectively). However, the percentage of
the population less than or equal to 18 years of age and the percentage
age 65 or older are similar for those within the area of study and the
national average.
Based on the fact that this proposed rule does not allow emission
increases, but promulgates revisions to existing monitoring
requirements that lower the threshold at which monitoring by state and
local monitoring agencies would be
[[Page 81137]]
required, the EPA has determined that the proposed rule will not have
disproportionately high and adverse human health or environmental
effects on minority, low-income, or Tribal populations. Furthermore, to
the extent that any minority, low-income, or Tribal subpopulation is
disproportionately impacted by current lead emissions as a result of
the proximity to lead emissions sources, that group also stands to
benefit from the improvement in compliance with the lead NAAQS which
will result from this rule and thereby potentially experience
associated increases in environmental and health benefits.
This proposed change is a ``notice and comment rulemaking'' and
public involvement is encouraged. All monitoring changes at the local
level will be documented in each state's monitoring plan and are
available for public review and comment. In addition, EPA defines
``Environmental Justice'' to include meaningful involvement of all
people regardless of race, color, national origin, or income with
respect to the development, implementation, and enforcement of
environmental laws, regulations, and policies. To promote meaningful
involvement, EPA has developed a communication and outreach strategy to
ensure that interested communities have access to this proposed rule,
are aware of its content, and have an opportunity to comment during the
comment period. During the comment period, EPA will publicize the
rulemaking via EJ newsletters, Tribal newsletters, EJ listservs, and
the internet, including the Office of Policy (OP) Rulemaking Gateway
Web site (http://yosemite.epa.gov/opei/RuleGate.nsf/). EPA will also
provide general rulemaking fact sheets (e.g., why is this important for
my community) for EJ community groups and conduct conference calls with
interested communities.
K. Congressional Review Act
The Congressional Review Act, 5 U.S.C. 801 et seq., as added by the
Small Business Regulatory Enforcement Fairness Act of 1996, generally
provides that before a rule may take effect, the agency promulgating
the rule must submit a rule report, which includes a copy of the rule,
to each House of the Congress and to the Comptroller General of the
United States. EPA will submit a report containing this rule and other
required information to the U.S. Senate, the U.S. House of
Representatives, and the Comptroller General of the United States prior
to publication of the rule in the Federal Register. A major rule cannot
take effect until 60 days after it is published in the Federal
Register. This action is not a ``major rule'' as defined by 5 U.S.C.
804(2). This rule will be effective January 26, 2011.
List of Subjects in 40 CFR Part 58
Air pollution control, Ambient air monitoring, Environmental
protection, Intergovernmental relations, Reporting and recordkeeping
requirements.
Dated: December 14, 2010.
Lisa P. Jackson,
Administrator.
0
For the reasons stated in the preamble, title 40, chapter I, part 58 of
the Code of Federal Regulations is amended as follows:
PART 58--[AMENDED]
0
1. The authority citation for part 58 is revised to read as follows:
Authority: 42 U.S.C. 7403, 7405, 7410, 7414, 7601, 7611, 7614,
and 7619.
Subpart B--[Amended]
0
2. Section 58.10 is amended by revising paragraph (a)(4) to read as
follows:
Sec. 58.10 Annual monitoring network plan and periodic network
assessment.
(a) * * *
(4) A plan for establishing source-oriented Pb monitoring sites in
accordance with the requirements of appendix D to this part for Pb
sources emitting 1.0 tpy or greater shall be submitted to the EPA
Regional Administrator no later than July 1, 2009, as part of the
annual network plan required in paragraph (a)(1) of this section. The
plan shall provide for the required source-oriented Pb monitoring sites
for Pb sources emitting 1.0 tpy or greater to be operational by January
1, 2010. A plan for establishing source-oriented Pb monitoring sites in
accordance with the requirements of appendix D to this part for Pb
sources emitting equal to or greater than 0.50 tpy but less than 1.0
tpy shall be submitted to the EPA Regional Administrator no later than
July 1, 2011. The plan shall provide for the required source-oriented
Pb monitoring sites for Pb sources emitting equal to or greater than
0.50 tpy but less than 1.0 tpy to be operational by December 27, 2011.
* * * * *
0
3. Section 58.13 is amended by revising paragraph (a) to read as
follows:
Sec. 58.13 Monitoring network completion.
(a) The network of NCore multipollutant sites must be physically
established no later than January 1, 2011, and at that time, operating
under all of the requirements of this part, including the requirements
of appendices A, C, D, E, and G to this part. NCore sites required to
conduct Pb monitoring as required under 40 CFR part 58 appendix D
paragraph 3(b), or approved alternative non-source-oriented Pb
monitoring sites, shall begin Pb monitoring in accordance with all of
the requirements of this part, including the requirements of appendices
A, C, D, E, and G to this part no later than December 27, 2011.
* * * * *
0
4. Appendix A to Part 58 is amended by revising paragraph 3.3.4.3 to
read as follows:
Appendix A to Part 58--Quality Assurance for SLAMS, SPMs, and PSD Air
Monitoring
* * * * *
3.3.4.3 Collocated Sampling. PQAO that have a combination of
source and non-source-oriented sites (unless the only non-source-
oriented site is an NCore site) will follow the procedures described
in sections 3.3.1 of this appendix with the exception that the first
collocated Pb site selected must be the site measuring the highest
Pb concentrations in the network. If the site is impractical,
alternative sites, approved by the EPA Regional Administrator, may
be selected. If additional collocated sites are necessary,
collocated sites may be chosen that reflect average ambient air Pb
concentrations in the network. The collocated sampling requirements
for PQAO that only have Pb monitoring at a non-source-oriented NCore
site for sampling required under 40 CFR 58, Appendix D, paragraph
4.5(b) shall be implemented as described in section 3.2.6 of this
appendix with the exception that the collocated monitor will be the
same method designation as the primary monitor.
* * * * *
0
5. Appendix D to Part 58 is amended as follows:
0
a. By revising paragraph 3.(b) introductory text,
0
b. By removing and reserving paragraph 3.(c),
0
c. By revising paragraph 4.5.(a),
0
d. By revising paragraph 4.5.(b), and
0
e. By revising paragraph 4.5.(c).
Appendix D to Part 58--Network Design Criteria for Ambient Air Quality
Monitoring
* * * * *
3. * * *
(b) The NCore sites must measure, at a minimum, PM2.5
particle mass using continuous and integrated/filter-based samplers,
speciated PM2.5, PM10-2.5 particle mass,
speciated PM10-2.5, O3, SO2, CO,
NO/NOy, wind speed, wind direction, relative humidity,
and ambient temperature. NCore sites in CBSA with a population of
500,000 people (as determined in the latest Census)
[[Page 81138]]
or greater shall also measure Pb either as Pb-TSP or Pb-
PM10. The EPA Regional Administrator may approve an
alternative location for the Pb measurement where the alternative
location would be more appropriate for logistical reasons and the
measurement would provide data on typical Pb concentrations in the
CBSA.
* * * * *
(c) [Reserved.]
* * * * *
4.5 * * * (a) State and, where appropriate, local agencies are
required to conduct ambient air Pb monitoring near Pb sources which
are expected to or have been shown to contribute to a maximum Pb
concentration in ambient air in excess of the NAAQS, taking into
account the logistics and potential for population exposure. At a
minimum, there must be one source-oriented SLAMS site located to
measure the maximum Pb concentration in ambient air resulting from
each non-airport Pb source which emits 0.50 or more tons per year
and from each airport which emits 1.0 or more tons per year based on
either the most recent National Emission Inventory (http://www.epa.gov/ttn/chief/eiinformation.html) or other scientifically
justifiable methods and data (such as improved emissions factors or
site-specific data) taking into account logistics and the potential
for population exposure.
(i) One monitor may be used to meet the requirement in paragraph
4.5(a) for all sources involved when the location of the maximum Pb
concentration due to one Pb source is expected to also be impacted
by Pb emissions from a nearby source (or multiple sources). This
monitor must be sited, taking into account logistics and the
potential for population exposure, where the Pb concentration from
all sources combined is expected to be at its maximum.
(ii) The Regional Administrator may waive the requirement in
paragraph 4.5(a) for monitoring near Pb sources if the State or,
where appropriate, local agency can demonstrate the Pb source will
not contribute to a maximum Pb concentration in ambient air in
excess of 50 percent of the NAAQS (based on historical monitoring
data, modeling, or other means). The waiver must be renewed once
every 5 years as part of the network assessment required under Sec.
58.10(d).
(iii) State and, where appropriate, local agencies are required
to conduct ambient air Pb monitoring near each of the airports
listed in Table D-3A for a period of 12 consecutive months
commencing no later than December 27, 2011. Monitors shall be sited
to measure the maximum Pb concentration in ambient air, taking into
account logistics and the potential for population exposure, and
shall use an approved Pb-TSP Federal Reference Method or Federal
Equivalent Method. Any monitor that exceeds 50 percent of the Pb
NAAQS on a rolling 3-month average (as determined according to 40
CFR part 50, Appendix R) shall become a required monitor under
paragraph 4.5(c) of this Appendix, and shall continue to monitor for
Pb unless a waiver is granted allowing it to stop operating as
allowed by the provisions in paragraph 4.5(a)(ii) of this appendix.
Data collected shall be submitted to the Air Quality System database
according to the requirements of 40 CFR part 58.16.
Table D-3A Airports To Be Monitored for Lead
------------------------------------------------------------------------
Airport County State
------------------------------------------------------------------------
Merrill Field..................... Anchorage............ AK
Pryor Field Regional.............. Limestone............ AL
Palo Alto Airport of Santa Clara Santa Clara.......... CA
County.
McClellan-Palomar................. San Diego............ CA
Reid-Hillview..................... Santa Clara.......... CA
Gillespie Field................... San Diego............ CA
San Carlos........................ San Mateo............ CA
Nantucket Memorial................ Nantucket............ MA
Oakland County International...... Oakland.............. MI
Republic.......................... Suffolk.............. NY
Brookhaven........................ Suffolk.............. NY
Stinson Municipal................. Bexar................ TX
Northwest Regional................ Denton............... TX
Harvey Field...................... Snohomish............ WA
Auburn Municipal.................. King................. WA
------------------------------------------------------------------------
(b) State and, where appropriate, local agencies are required
to conduct non-source-oriented Pb monitoring at each NCore site
required under paragraph 3 of this appendix in a CBSA with a
population of 500,000 or more.
(c) The EPA Regional Administrator may require additional
monitoring beyond the minimum monitoring requirements contained in
paragraphs 4.5(a) and 4.5(b) where the likelihood of Pb air quality
violations is significant or where the emissions density,
topography, or population locations are complex and varied. EPA
Regional Administrators may require additional monitoring at
locations including, but not limited to, those near existing
additional industrial sources of Pb, recently closed industrial
sources of Pb, airports where piston-engine aircraft emit Pb, and
other sources of re-entrained Pb dust.
* * * * *
[FR Doc. 2010-32153 Filed 12-23-10; 8:45 am]
BILLING CODE 6560-50-P