Approval of Air Quality Implementation Plans; California; Sacramento Metro Area; 2008 8-Hour Ozone Nonattainment Area Requirements, 58581-58592 [2021-22661]
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Federal Register / Vol. 86, No. 202 / Friday, October 22, 2021 / Rules and Regulations
unless to do so would be inconsistent
with applicable law or otherwise
impractical. The EPA believes that this
action is not subject to the requirements
of section 12(d) of the NTTAA because
application of those requirements would
be inconsistent with the CAA.
J. Executive Order 12898: Federal
Actions To Address Environmental
Justice in Minority Populations and
Low-Income Populations
The EPA lacks the discretionary
authority to address environmental
justice in this action.
appropriate circuit by December 21,
2021. Filing a petition for
reconsideration by the Administrator of
this final rule does not affect the finality
of this rule for the purposes of judicial
review nor does it extend the time
within which a petition for judicial
review may be filed, and shall not
postpone the effectiveness of such rule
or action. This action may not be
challenged later in proceedings to
enforce its requirements (see section
307(b)(2)).
List of Subjects in 40 CFR Part 52
K. Congressional Review Act (CRA)
This action is subject to the CRA, and
the EPA will submit a rule report to
each House of the Congress and to the
Comptroller General of the United
States. This action is not a ‘‘major rule’’
as defined by 5 U.S.C. 804(2).
L. Petitions for Judicial Review
Under section 307(b)(1) of the Clean
Air Act, petitions for judicial review of
this action must be filed in the United
States Court of Appeals for the
Environmental protection, Air
pollution control, Incorporation by
reference, Intergovernmental relations,
Carbon monoxide, Reporting and
recordkeeping requirements.
Authority: 42 U.S.C. 7401 et seq.
Dated: October 13, 2021.
Deborah Jordan,
Acting Regional Administrator, Region IX.
PART 52—APPROVAL AND
PROMULGATION OF
IMPLEMENTATION PLANS
1. The authority citation for part 52
continues to read as follows:
■
Authority: 42 U.S.C 7401 et seq.
Subpart DD—Nevada
2. In § 52.1470(e), the table is
amended by adding an entry for
‘‘Second 10-year Carbon Monoxide
Limited Maintenance Plan, Las Vegas
Valley Maintenance Area, Clark County,
Nevada (May 2019)’’ after the entry for
‘‘Resolution of the Clark County Board
of Commissioners Adopting the Clark
County Carbon Monoxide Redesignation
Request and Maintenance Plan, adopted
by the Clark County Board of
Commissioners on September 2, 2008’’
to read as follows.
■
§ 52.1470
Chapter I, title 40 of the Code of
Federal Regulations is amended as
follows:
*
Identification of plan.
*
*
(e) * * *
*
*
EPA-APPROVED NEVADA NONREGULATORY AND QUASI-REGULATORY MEASURES
Applicable geographic or
nonattainment area or title/
subject
Name of SIP provision
State submittal
date
EPA approval date
Explanation
Air Quality Implementation Plans for the State of Nevada 1
*
*
*
Second 10-year Carbon Mon- Las Vegas Valley, Clark
oxide Limited Maintenance
County.
Plan, Las Vegas Valley
Maintenance Area, Clark
County, Nevada (May
2019).
*
*
*
June 18, 2019 .....
*
*
*
*
October 22, 2021, [Insert
Fulfills requirement for secFederal Register citation].
ond ten-year maintenance
plan.
*
*
*
*
*
*
*
*
*
*
*
1 The organization of this table generally follows from the organization of the State of Nevada’s original 1972 SIP, which was divided into 12
sections. Nonattainment and maintenance plans, among other types of plans, are listed under Section 5 (Control Strategy). Lead SIPs and Small
Business Stationary Source Technical and Environmental Compliance Assistance SIPs are listed after Section 12 followed by nonregulatory or
quasi-regulatory statutory provisions approved into the SIP. Regulatory statutory provisions are listed in 40 CFR 52.1470(c).
[FR Doc. 2021–22714 Filed 10–21–21; 8:45 am]
BILLING CODE 6560–50–P
ENVIRONMENTAL PROTECTION
AGENCY
40 CFR Part 52
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[EPA–R09–OAR–2020–0425; FRL–8723–02–
R9]
Approval of Air Quality Implementation
Plans; California; Sacramento Metro
Area; 2008 8-Hour Ozone
Nonattainment Area Requirements
Environmental Protection
Agency (EPA).
AGENCY:
ACTION:
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The Environmental Protection
Agency (EPA) is taking final action to
approve portions of two state
implementation plan (SIP) revisions
submitted by the State of California to
meet Clean Air Act (CAA or ‘‘Act’’)
requirements for the 2008 8-hour ozone
national ambient air quality standards
(NAAQS or ‘‘standards’’) in the
Sacramento Metro ozone nonattainment
area (‘‘Sacramento Metro Area’’). These
SIP revisions address the CAA
nonattainment area requirements for the
2008 ozone NAAQS, such as the
requirements for an emissions
inventory, an attainment demonstration,
SUMMARY:
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reasonable further progress, reasonably
available control measures, and
contingency measures, and it establishes
motor vehicle emissions budgets. The
EPA is taking final action to approve
these revisions as meeting all the
applicable ozone nonattainment area
requirements, except for the State’s
contingency measures revision. The
EPA is deferring action on this revision
related to contingency measures.
DATES: This rule will be effective on
November 22, 2021.
ADDRESSES: The EPA has established a
docket for this action under Docket ID
No. EPA–R09–OAR–2020–0425. All
documents in the docket are listed on
the https://www.regulations.gov
website. 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 through https://
www.regulations.gov, or please contact
the person identified in the FOR FURTHER
INFORMATION CONTACT section for
additional availability information. If
you need assistance in a language other
than English or if you are a person with
disabilities who needs a reasonable
accommodation at no cost to you, please
contact the person identified in the FOR
FURTHER INFORMATION CONTACT section.
FOR FURTHER INFORMATION CONTACT: Jerry
Wamsley, Air Planning Office (AIR–2),
EPA Region IX, 75 Hawthorne Street,
San Francisco, CA 94105, (415) 947–
4111 or Wamsley.Jerry@epa.gov.
SUPPLEMENTARY INFORMATION:
Table of Contents
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I. Summary of the Proposed Action
II. Public Comments and EPA Responses
A. Review of Ozone Chemistry and NOX
Substitution Effects
B. Response to Comments
III. Final Action
IV. Statutory and Executive Order Reviews
I. Summary of the Proposed Action
On October 29, 2020, the EPA
proposed to approve, under CAA
section 110(k)(3), and to conditionally
approve, under CAA section 110(k)(4),
portions of submittals from the State of
California as revisions to the California
SIP for the Sacramento Metro ozone
nonattainment area.1 The principal
submittals are as follows: ‘‘Sacramento
Regional 2008 NAAQS 8-Hour Ozone
Attainment Plan and Reasonable
1 85
FR 68509 (October 29, 2020).
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Further Progress Plan,’’ (‘‘2017
Sacramento Regional Ozone Plan’’); and
the Sacramento Metro portion of the
California Air Resource Board’s (CARB)
‘‘2018 Updates to the California State
Implementation Plan’’ (‘‘2018 SIP
Update’’).2 In this notice, we refer to
these submittals collectively as the
‘‘Sacramento Metro Area Ozone SIP’’ or
the ‘‘Plan,’’ and we refer to our October
29, 2020 proposed action as the
‘‘proposed rule.’’
The Sacramento Metro Area consists
of Sacramento and Yolo counties and
portions of El Dorado, Placer, Solano,
and Sutter counties.3 Several local air
agencies have their jurisdictions within
this area. Sacramento County is under
the jurisdiction of the Sacramento
Metropolitan Air Quality Management
District (SMAQMD). Yolo County and
the eastern portion of Solano County are
under the jurisdiction of the YoloSolano AQMD (YSAQMD). The
southern portion of Sutter County is
under the jurisdiction of the Feather
River AQMD (FRAQMD). The western
portion of Placer County is under the
jurisdiction of the Placer County Air
Pollution Control District (PCAPCD).
Last, the western portion of El Dorado
County is under the jurisdiction of the
El Dorado County AQMD (EDCAQMD).
In this action, we refer to these five
districts collectively as the ‘‘Districts.’’
Under California law, each air district is
responsible for adopting and
implementing stationary source rules,
while CARB adopts and implements
consumer products and mobile source
rules. The Districts’ and State’s rules are
submitted to the EPA by CARB.
In our proposed rule, we provided
background information on the ozone
standards,4 area designations, related
SIP revision requirements under the
2 The State submitted the 2017 Sacramento
Regional Ozone Plan and the 2018 SIP Update on
December 18, 2017, and December 5, 2018,
respectively. Our proposed rule provides our
detailed review of CAA procedural requirements
related to these submissions.
3 For a precise description of the geographic
boundaries of the Sacramento Metro Area for the
2008 ozone standards, refer to 40 CFR 81.305.
Specifically included portions are the eastern
portion of Solano County, the western portions of
Placer and El Dorado counties outside of the Lake
Tahoe Basin, and the southern portion of Sutter
County.
4 Ground-level ozone pollution is formed from the
reaction of volatile organic compounds (VOC) and
oxides of nitrogen (NOX) in the presence of
sunlight. The 1-hour ozone NAAQS is 0.12 parts
per million (ppm) (one-hour average), the 1997
ozone NAAQS is 0.08 ppm (eight-hour average),
and the 2008 ozone NAAQS is 0.075 ppm (eighthour average). CARB refers to reactive organic gases
(ROG) in some of its ozone-related submittals. The
CAA and the EPA’s regulations refer to VOC, rather
than ROG, but both terms cover essentially the same
set of gases. In this final rule, we use the term VOC
to refer to this set of gases.
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CAA, and the EPA’s implementing
regulations for the 2008 ozone
standards, referred to as the 2008 Ozone
SIP Requirements Rule (‘‘2008 Ozone
SRR’’). To summarize, the Sacramento
Metro Area is classified as Severe
nonattainment for the 2008 ozone
standards; consequently, the
Sacramento Metro Area Ozone SIP was
developed to address the CAA
requirements for this Severe
nonattainment area in meeting the 2008
ozone NAAQS.
In our proposed rule, we also
discussed a decision issued by the D.C.
Circuit Court of Appeals in South Coast
Air Quality Management Dist. v. EPA
(‘‘South Coast II’’) 5 that vacated certain
portions of the EPA’s 2008 Ozone SRR.
The only aspect of the South Coast II
decision that affects this action is the
vacatur of the provision in the 2008
Ozone SRR that allowed states to use an
alternative baseline year for
demonstrating reasonable further
progress (RFP). To address this decision,
CARB, in the 2018 SIP Update,
submitted an updated RFP
demonstration that relied on a 2011
baseline year, as required, along with
updated motor vehicle emissions
budgets (MVEBs or ‘‘budgets’’)
associated with the new RFP milestone
years.6
Within our proposed rule, we
reviewed the various SIP elements
contained in the Sacramento Metro Area
Ozone SIP, evaluated them for
compliance with CAA statutory and
regulatory requirements, and concluded
that they met all applicable
requirements, with the exception of the
contingency measures element, for
which the EPA proposed conditional
approval. Below, we provide a summary
review of our proposed rule, by SIP
element.
• We found that CARB and the
Districts met all applicable procedural
requirements for public notice and
hearing prior to the adoption and
submittal of the components of the
Sacramento Metro Area Ozone SIP, i.e.,
5 South Coast Air Quality Management Dist. v.
EPA, 882 F.3d 1138 (D.C. Cir. 2018). The term
‘‘South Coast II’’ is used in reference to the 2018
court decision to distinguish it from a decision
published in 2006 also referred to as ‘‘South Coast.’’
The earlier decision involved a challenge to the
EPA’s Phase 1 implementation rule for the 1997
ozone NAAQS. South Coast Air Quality
Management Dist. v. EPA, 472 F.3d 882 (D.C. Cir.
2006).
6 In a letter dated December 18, 2019, from
Richard W. Corey, Executive Officer, CARB, to
Michael Stoker, Regional Administrator, EPA
Region 9, CARB requested withdrawal of the RFP
demonstration included in the 2017 Sacramento
Regional Ozone Plan submitted previously. The
RFP demonstration in the 2018 SIP Update replaced
the demonstration in the 2017 Plan.
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the 2017 Sacramento Regional Ozone
Plan and the Sacramento Metro portion
of CARB’s 2018 SIP Update.7
• We proposed to approve the base
year emissions inventory element in the
2017 Sacramento Regional Ozone Plan
as meeting the requirements of CAA
sections 172(c)(3) and 182(a)(1) and 40
CFR 51.1115 for the 2008 ozone
NAAQS. Based on our review, we
proposed to find that the future year
baseline projections in the 2017
Sacramento Regional Ozone Plan are
properly supported by SIP-approved
stationary and mobile source measures.8
• We proposed to approve the
reasonably available control measures
(RACM) demonstration element in the
2017 Sacramento Regional Ozone Plan
as meeting the requirements of CAA
section 172(c)(1) and 40 CFR 51.1112(c)
for the 2008 ozone NAAQS. Based on
our review of the State and Districts’
RACM analyses and the Districts’ and
CARB’s adopted rules, we proposed to
find that there are, at this time, no
additional RACM that would further
advance attainment of the 2008 ozone
NAAQS in the Sacramento Metro Area.9
• We proposed to approve the
attainment demonstration element for
the 2008 ozone NAAQS in the 2017
Sacramento Regional Ozone Plan as
meeting the requirements of CAA
section 182(c)(2)(A) and 40 CFR
51.1108. In our review provided in the
proposed rule, we observed that the
Plan followed the modeling procedures
recommended in the EPA’s Modeling
Guidance and showed excellent
performance in simulating observed
ozone concentrations in the 2012 base
year. Given the extensive discussion of
modeling procedures, tests, and
performance analyses called for in the
modeling protocol, the good model
performance, and the model response to
emissions changes consistent with
observations, we proposed to find that
the modeling is adequate for purposes of
supporting the attainment
demonstration.10
• We proposed to approve the rate of
progress (ROP) demonstration element
in the 2017 Sacramento Regional Ozone
Plan as meeting the requirements of
CAA 182(b)(1) and 40 CFR 51.1110(a)(2)
for the 2008 ozone NAAQS.11 As noted
in the proposed rule, in 2015, the EPA
approved a 15 percent ROP plan for the
Sacramento Metro Area for the 1-hour
7 85
FR 68509, 68511–68512.
at 68513–68515.
9 Id. at 68516–68518.
10 Id. at 68518–68523.
11 Id. at 68523–68525
ozone NAAQS and 1997 8-hour ozone
NAAQS.12
• We proposed to approve the RFP
demonstration element in Section V—
SIP Elements for the Sacramento
Metropolitan Area of the 2018 SIP
Update (as clarified) as meeting the
requirements of CAA sections 172(c)(2),
182(b)(1), and 182(c)(2)(B), and 40 CFR
51.1110(a)(2)(ii) for the 2008 ozone
NAAQS. We proposed to find that
CARB and the Districts used the most
recent planning and activity
assumptions, emissions models, and
methodologies in developing the RFP
baseline and milestone year emissions
inventories. Also, we proposed to find
that the Districts and CARB used an
appropriate calculation method to
demonstrate RFP. Lastly, we proposed
to find that the Districts’ use of oxides
of nitrogen (NOX) NAAQS substitution
is warranted and appropriately
implemented based on the NOX-limited
conditions in the Sacramento Metro
Area, and the area’s greater
responsiveness to NOX emissions
reductions relative to VOC emissions
reductions.13
• We proposed to approve the vehicle
miles traveled (VMT) emissions offset
demonstration element in the 2017
Sacramento Regional Ozone Plan as
meeting the requirements of CAA
section 182(d)(1)(A) and 40 CFR 51.1102
for the 2008 ozone NAAQS. Based on
our review of revised Sacramento Metro
Area VMT emissions offset
demonstration in the 2017 Sacramento
Regional Ozone Plan, we proposed to
find that CARB’s analysis is consistent
with the August 2012 Guidance and
with the emissions and vehicle activity
estimates found elsewhere in the 2017
Sacramento Regional Ozone Plan. Also,
we proposed to find that CARB and the
Sacramento Area Council of
Governments (SACOG) have adopted
sufficient transportation control
strategies (TCSs) and transportation
control measures (TCMs) to offset the
growth in emissions from growth in
VMT and vehicle trips in the
Sacramento Metro Area for the purposes
of the 2008 ozone NAAQS.14
• We proposed to approve the MVEBs
in Section V—SIP Elements for the
Sacramento Metropolitan Area of the
2018 SIP Update for the RFP milestone
year of 2023, and the attainment year of
2024 and find that these budgets are
consistent with the RFP and attainment
demonstrations for the 2008 ozone
NAAQS proposed for approval and the
budgets meet the other criteria in 40
8 Id.
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12 80
FR 4795 (January 29, 2015).
FR 68509, 68523–68525.
14 Id. at 68525–68527.
13 85
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58583
CFR 93.118(e).15 We reviewed the
budgets in the Sacramento Metro Area
Ozone SIP and proposed to find that
they are consistent with the attainment
and RFP demonstrations for which we
proposed approval, are based on control
measures that have already been
adopted and implemented, and meet all
other applicable statutory and
regulatory requirements including the
adequacy criteria in 40 CFR
93.1118(e)(4) and (5).16
We also proposed to make the
following findings related to other CAA
requirements:
• The emissions statement element of
the 2017 Sacramento Regional Ozone
Plan satisfies the requirements under
CAA section 182(a)(3)(B) based on our
prior approvals of the Districts’
emission statement rules; 17
• The enhanced vehicle inspection
and maintenance program in the
Sacramento Metro Area meets the
requirements of CAA section 182(c)(3)
and 40 CFR 51.1102 for the 2008 ozone
NAAQS; 18
• The California SIP revision to opt
out of the Federal Clean Fuels Fleet
Program meets the requirements of CAA
sections 182(c)(4)(A) and 246 and 40
CFR 51.1102 for the 2008 ozone NAAQS
with respect to the Sacramento Metro
Area; 19 and,
• The enhanced air quality
monitoring in the Sacramento Metro
Area meets the requirements of CAA
section 182(c)(1) and 40 CFR 51.1102 for
the 2008 ozone NAAQS.20
Finally, under CAA section 110(k)(4),
we proposed to approve conditionally
the contingency measures element of
the Sacramento Metro Area Ozone SIP
as meeting the requirements of CAA
sections 172(c)(9) and 182(c)(9) for RFP
and attainment contingency measures.
Our proposed approval was based on
commitments by the Districts and CARB
to supplement the element through
submission, as a SIP revision within one
year of our final conditional approval
action, of new or revised rules with
more stringent requirements sufficient
to produce near to one year’s RFP if an
RFP milestone is not met, as well as
continuing emission reductions from
State mobile source control measures.21
Please see our proposed rule and the
docket for more information concerning
the background of this final action and
15 Table 9 in our proposed rule provides the VOC
and NOX emissions budgets that we proposed for
approval.
16 85 FR 68509, 68529–68531.
17 Id. at 68515–68516.
18 Id. at 68531.
19 Id.
20 Id. at 68531–68532.
21 Id. at 68527–68529.
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for a detailed discussion of the rationale
for approval or conditional approval of
the above-listed elements of the
Sacramento Metro Area Ozone SIP.
II. Public Comments and EPA
Responses
The public comment period on the
proposed rule opened on October 29,
2020, the date of its publication in the
Federal Register, and closed on
November 30, 2020. During this period,
the EPA received one comment letter
submitted by Air Law for All on behalf
of the Center for Biological Diversity
and the Center for Environmental
Health (collectively referred to as
‘‘CBD’’ herein). Before we provide a
detailed summary of and response to
each of these comments in Section II.B,
we provide a brief review of ozone
chemistry and terminology as it relates
to our responses to comments
concerning the Plan’s use of NOX
substitution and the NOX-limited
conditions in the Sacramento Metro
Area.
A. Review of Ozone Chemistry and NOX
Substitution Effects
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As explained in the proposed rule,
ground-level ozone pollution is formed
from the reaction of volatile organic
compounds (VOCs) and NOX in the
presence of sunlight. When VOC is
abundant compared to NOX, i.e., when
there is a high ratio of VOCs relative to
NOX (‘‘VOC:NOX ratio’’), NOX is a
limiting ingredient for ozone formation,
and reducing NOX emissions causes
ozone to decrease. An area with these
conditions may be described as ‘‘NOXlimited,’’ which is the terminology used
in this notice. Elsewhere, ‘‘NOXlimited’’ is sometimes used in a
stronger, relative sense to mean that
NOX emissions reductions are more
effective than VOC reductions at
reducing ozone, and an area may be
described as ‘‘NOX-limited’’ or ‘‘VOClimited’’ as a shorthand for whether
NOX or VOC emissions reductions are
more effective at reducing the area’s
ozone design value.22 In contrast, in a
‘‘NOX-saturated’’ area where NOX is
abundant compared to VOC, i.e., when
there is a low VOC:NOX ratio, ozone
concentrations typically increase with
NOX emission reductions, that is, there
22 For example, the Plan generally uses the term
‘‘NOX-limited’’ to mean that NOX emission
reductions in the Sacramento Metro Area are more
effective than VOC at decreasing ozone; e.g., 2017
Sacramento Regional Ozone Plan, Appendix B–4,
page B–146, Figure 13 (labeling as ‘‘NOX-limited’’
the region of a typical ozone isopleth plot where
NOX reductions are more effective than VOC
reductions).
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is a ‘‘NOX disbenefit.’’ 23 Between the
NOX-limited and NOX-saturated ozone
chemistry regimes, there is an
intermediate ‘‘transitional’’ regime
where ozone responds weakly to NOX
emissions reductions. Which one of
these three chemical regimes exists for
an area can depend on the season, time
of day, and the area’s location relative
to a source of NOX emissions. As one
moves farther downwind from an urban
center, ozone formation tends to become
more NOX-limited, as the VOC:NOX
ratio increases. While there are
continued VOC emissions in rural areas,
there are fewer new NOX emissions
from combustion sources, and some
NOX deposits out of the atmosphere (in
the form of HNO3); as a result, peak
ozone hours and downwind locations
are more NOX-limited than non-peak
hours and upwind or central
locations.24 When an area reduces NOX
emissions more than VOC emissions,
the VOC:NOX ratio increases and the
area can transition from NOX-saturated
to NOX-limited conditions. In general,
areas in the United States have become
more NOX-limited over time, though
NOX-saturated areas and seasons
remain.25
NOX is emitted primarily in the form
of nitric oxide (NO), which becomes
nitrogen dioxide (NO2) as it converts or
‘‘titrates’’ ozone (O3) to regular oxygen
(O2). Therefore, the initial effect of a
NOX emissions increase can be to
decrease ozone immediately downwind
of a NOX source, such as downtown
metropolitan areas or a large fossil fuel
23 A NO disbenefit can occur under NO X
X
saturated conditions because enough NOX is
present to interfere with ozone formation via VOC.
VOC radicals require the hydroxyl radical (OH) to
form, but OH is made unavailable when NOX
combines with it to form nitric acid (HNO3), which
then deposits out of the atmosphere. A reduction
in NOX emissions reduces this OH sink reaction,
increasing the OH available to form VOC radicals
and ozone.
24 Barbara J. Finlayson-Pitts and James N. Pitts Jr.,
‘‘Tropospheric Air Pollution: Ozone, Airborne
Toxics, Polycyclic Aromatic Hydrocarbons, and
Particles,’’ Science, Vol. 276, May 16, 1997; EPA,
U. S., Health Risk and Exposure Assessment for
Ozone Final Report. Office of Air Quality Planning
and Standards: RTP, NC, 2014; EPA–452/R–14–
004a, https://www.epa.gov/naaqs/ozone-o3standards-risk-and-exposure-assessments-reviewcompleted-2015.
25 Wolff, G.T., Kahlbaum, D.F., & Heuss, J.M.,
2013. ‘‘The vanishing ozone weekday/weekend
effect,’’ Journal of the Air & Waste Management
Association), 63(3), 292–299, https://doi.org/
10.1080/10962247.2012.749312 Jin et al., 2017,
‘‘Evaluating a space-based indicator of surface
ozone NOX VOC sensitivity over midlatitude source
regions and application to decadal trends,’’ Journal
of Geophysical Research: Atmospheres, 122,10,439
10,461. https://doi.org/10.1002/2017JD026720;
Sicard et al, 2020, ‘‘Ozone weekend effect in cities:
Deep insights for urban air pollution control,’’
Environmental Research, 191, 110193. https://
doi.org/10.1016/j.envres.2020.110193.
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burning power plant.26 Farther
downwind from the NOX source,
however, the NOX can increase ozone,
via reactions with VOC. Conversely, the
initial effect of a NOX emissions
reduction, which is mainly a NO
reduction, can be to increase ozone
immediately downwind from the NOX
source because there is less remaining
NO to titrate ozone to oxygen. Because
of this phenomenon, it may be
impossible for an area to be ‘‘NOXlimited’’ at all locations, at least with
respect to a given change in NOX
emissions occurring just upwind of a
given location or monitor. Titration can
occur under any ozone chemistry
regime whether NOX-saturation, NOXtransitional, or NOX-limited.
To summarize, under certain
conditions, NOX emissions can reduce
existing ozone concentrations in nearby
downwind areas through titration and
can interfere with the formation of
ozone in NOX-saturated areas. Reducing
NOX emissions can lessen these effects
and lead to ozone increases. Reducing
NOX by a larger amount can, however,
change the ozone chemistry from NOXsaturated to NOX-limited, meaning that
NOX emission reductions can again
result in reduced ozone. The overall
effect of NOX emissions on an area’s
ozone chemistry depends on the
location’s existing mix of ozone and
VOCs, as well as the location relative to
the source of NOX emissions.
B. Response to Comments
Comment #1: CBD notes that CAA
section 182(c)(2)(C) allows a state to
substitute NOX emissions reductions for
the VOC reductions otherwise required
by CAA section 182(c)(2)(B) (‘‘NOX
substitution’’) if it demonstrates that the
combined VOC and NOX reductions
‘‘would result in a reduction in ozone
concentrations at least equivalent’’ to
the reduction in ozone concentrations
achieved through VOC emissions
reductions alone. CBD argues that CAA
section 182(c)(2)(C)’s use of the plural
‘‘ozone concentrations’’ means that an
equivalency demonstration at a single
monitoring site would be insufficient,
and therefore asserts that Congress
intended the equivalence requirement to
apply throughout the nonattainment
area. CBD interprets statements in the
proposal that the Sacramento Metro
Area is NOX-limited to indicate that the
EPA agrees that equivalence must be
demonstrated throughout the
nonattainment area and says that the
EPA must confirm this understanding in
a final rule.
26 EPA, Health Risk and Exposure Assessment for
Ozone Final Report, 2–5.
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Response to Comment #1: The EPA
disagrees that CAA section
182(c)(2)(C)’s use of the term ‘‘ozone
concentrations’’ warrants the
commenter’s narrow interpretation that
equivalence must be specifically
demonstrated throughout a
nonattainment area. As an initial matter,
we note that the Act commonly uses the
term ‘‘concentrations’’ to refer generally
to ambient pollution levels at one or
more (but not necessarily multiple)
monitors or locations.27 Moreover, CAA
section 182(c)(2)(C) grants the EPA
discretion to define the conditions
under which NOX reductions may be
substituted for or combined with VOC
reductions ‘‘in order to maximize the
reduction in ozone air pollution’’ and
does not further specify the conditions
that represent an ‘‘equivalent’’ reduction
in ozone; for instance, it does not
require a specific concentration test at
every monitor or at specific locations
within an area. No such requirement
appears in the Act’s other provisions
governing the RFP demonstration,
which define specific percentage
reductions aimed at ensuring timely
attainment of the NAAQS,28 or in the
EPA’s 1993 NOX Substitution Guidance,
which describes a recommended
procedure for states to utilize NOX
substitution.29 We interpret CAA
182(c)(2)(C) and these supporting
authorities as properly reflecting
Congress’ intent to allow NOX
reductions to be considered within an
RFP demonstration so long as these
reductions are at least as effective in
reducing ozone consistent with the
area’s demonstration of timely
attainment.30
Also, we disagree with the
commenter’s assertion that statements
from the proposed rule describing the
Sacramento Metro Area as NOX-limited
convey the EPA’s position that NOX
substitution requires a specific
demonstration of equivalence
27 E.g., CAA section 107(e)(2); CAA section
110(a)(5)(D).
28 E.g., CAA 182(b)(1) and (c)(2)(B); see also CAA
171(1) (defining RFP as ‘‘such annual incremental
reductions in emissions of the relevant air pollutant
as are required by this part or may reasonably be
required by the Administrator for the purpose of
ensuring attainment of the applicable national
ambient air quality standard by the applicable
date’’).
29 NO Substitution Guidance, Office of Air
X
Quality Planning and Standards, U.S.
Environmental Protection Agency, December 1993,
available at https://archive.epa.gov/ttn/ozone/web/
html/index-13.html.
30 See id. at 8, (quoting H. Rept. No. 490, 101st
Cong., 2d Sess. 239 (1990)), (‘‘NOX reductions may
not be substituted for VOC reductions in a manner
that delays attainment of the ozone standard or that
results in lesser annual reductions in ozone
concentration than provided for in the attainment
demonstration.’’).
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throughout all portions or monitors
within a nonattainment area. As
described in our proposed rule and
discussed further in our responses
below, NOX-limited conditions likely
persist throughout the Sacramento
Metro Area, suggesting that NOX
reductions will generally be effective in
reducing ozone concentrations; with
these statements, we intended no other
suggestion regarding the demonstration
necessary to support NOX substitution.
The EPA evaluates the appropriateness
of NOX substitution on a case-by-case
basis,31 considering the balance of
available evidence to support the
efficacy of NOX reductions in reducing
ambient ozone concentrations as
necessary for timely attainment, and
consistent with the requirements of
CAA section 182(c)(2)(C).
In some areas, NOX emissions
reductions may be needed for
attainment, even though it may not be
possible to decrease ozone
concentrations simultaneously at all
locations in the short term. For example,
in some NOX-limited areas, reducing
NOX emissions may represent the most
effective or only approach to timely
attainment, but may nonetheless
generate temporary ozone increases in
some locations due to NOX titration or
local NOX-saturated conditions. In these
areas, we believe it is reasonable to
implement NOX reductions in lieu of
some portion of the VOC emissions
reductions otherwise required for RFP
as part of an area’s strategy for timely
NAAQS attainment and
notwithstanding limited short-term
increases, as an alternative to pursuing
relatively ineffective VOC controls. We
discuss conditions for the Sacramento
Metro Area in detail below, including
the relative importance and efficacy of
NOX reductions for attainment.
Comment #2: CBD comments that the
Plan’s evidence is equivocal and
insufficient to show that NOX
substitution will result in equivalent
reductions in ozone concentrations
throughout the nonattainment area.
According to the commenter, the Plan’s
analysis of the ‘‘weekend effect’’ in the
years 2000–2014 shows a shift to more
NOX-saturated conditions in the
Western and Central subregions of the
Sacramento Metro Area and more
transitional conditions in the Eastern
31 NO Substitution Guidance at 3 (‘‘The EPA will
X
approve substitution proposals on a case-by-case
basis. Generally speaking, any reasonable
substitution proposal will be approved.’’); also, id.
at 1 (explaining that the Guidance’s purpose is ‘‘to
provide a procedure that can be applied to meet the
post-1996 Section 182(c)(2)(B) RFP requirement as
well as the Section 182(c)(2)(C) equivalency
demonstration requirements’’ (emphasis in
original).
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region, and this is not inconsistent with
the independent study of conditions in
the years 2001–2007 cited by the EPA.
CBD says that this evidence is
insufficient for the EPA to rationally
conclude that the entire nonattainment
area is currently NOX-limited, and that,
at most, it can only be concluded that
the Eastern region is still NOX-limited.
Furthermore, CBD says that the EPA
must consider changes in NOX
emissions occuring by 2024, such as the
replacement of natural gas power plants
by less NOX-emitting sources, to
determine whether the entire
Sacramento Metro Area will be NOXlimited through 2024.
The commenter characterizes the
Plan’s evidence as qualitative, rather
than quantitative. The commenter states
that a qualitative analysis does not
address the possibility that NOX
reductions could change the
characteristics of the area and argues
that the definition of the word
‘‘equivalent’’ as used in CAA section
182(c)(2)(C) requires a quantitative
analysis, such as photochemical grid
modeling. The commenter notes that the
Plan uses photochemical grid modeling
to analyze ozone sensitivity to NOX
reductions in the context of the
attainment demonstration. CBD then
states that this modeling analysis is
insufficient to support the Plan’s
conclusion that the entire area is NOXlimited or to show equivalence
throughout the nonattainment area
because the Plan includes one isopleth
diagram only for the Folsom monitoring
site in the Eastern subregion.32
According to the commenter,
approving NOX substitution based on a
demonstration of equivalence at only
one monitor or subregion is arbitrary for
two reasons, even if it does not cause
other monitors to exceed the 2008 ozone
NAAQS. First, it may cause, or interfere
with resolving, violations of the more
protective 2015 ozone NAAQS in NOXsaturated areas (which the commenter
says would violate CAA section 110(l)).
Second, increased ozone levels, even
below the NAAQS, may still result in
injury to public health and welfare.
Response to Comment #2: The EPA
disagrees that the Plan’s evidence is
insufficient to support the use of NOX
substitution under CAA section
182(c)(2)(C). As discussed in our
response to Comment 1, use of NOX
32 An ‘‘isopleth’’ is a line connecting points
having the same value of a quantity, such as ozone
concentration. Ozone isopleth diagrams typically
have a series of such lines to show the ozone
concentration for any combination of NOX and VOC
emissions, just as contour lines on a map show the
elevation for any combination of latitude and
longitude.
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substitution within an RFP
demonstration does not require
establishing equivalent reductions in
ozone concentrations throughout the
nonattainment area. As discussed in
detail below, the Plan shows that,
overall, the area has transitioned from
NOX-saturated to NOX-limited as NOX
emissions have declined, and that NOX
reductions are more effective than VOC
reductions on a percentage basis.
Consistent with these conditions, the
Sacramento Metro Area has relied on,
and continues to rely on, NOX
reductions to demonstrate attainment.
While decreases in ozone
concentrations may have been delayed
initially at some locations because of the
location-specific and complex behavior
of NOX in ozone formation, Sacramento
Metro Area ozone design values have
shown a general downward trend at all
monitors from 1990 to the present,
demonstrating that these locations have
not experienced the increased ozone
design values of concern to the
commenter, and that the Plan
demonstrates timely attainment of the
NAAQS at all locations. For these
reasons and as addressed below, we find
that the Plan provides adequate
evidence and justification for its use of
NOX substitution.
As we discussed in the proposed rule
and our accompanying technical
support document, the State concludes
that NOX reductions are more effective
than VOC reductions throughout the
Sacramento Metro Area.33 The State
supports this conclusion with modeling
and monitoring of weekday-weekend
differences in ozone formation and
citations to published research papers
that study these differences and the
response to NOX reductions in detail, as
described below. The State estimates
weekday-weekend differences in ozone
concentrations using the Community
Multiscale Air Quality (CMAQ)
photochemical model as part of the air
quality model’s performance evaluation
for the 2012 base year, in conjunction
with the attainment demonstration. As
described in the Plan, in the early
2000’s the western region of the
Sacramento Metro Area exhibited a
‘‘weekend effect,’’ in which weekend
ozone concentrations were higher
despite having lower NOX emissions,
suggesting a NOX disbenefit at that
time.34 The modeling results in the Plan
show that the average daily maximum
ozone concentrations at all monitoring
33 85 FR 68509, 68520 (October 29, 2020);
‘‘Modeling TSD—2017 Sacramento Regional Ozone
Plan,’’ September 14, 2020, Air and Radiation
Division, EPA Region IX, 25–26.
34 2017 Sacramento Regional Ozone Plan,
Appendix B–4, B–148; CARB Staff Report B–33.
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sites are higher on weekdays, indicating
that maximum ozone concentrations are
lower when NOX emissions are lower,
and that peak ozone formation is NOXlimited, at all monitoring sites. This is
illustrated in Figure 14 from Appendix
B–4 of the 2017 Sacramento Regional
Ozone Plan, which shows average
modeled 2012 weekday-weekend ozone
concentrations above a 1:1 line, i.e.,
higher weekday concentrations, for all
monitoring sites in each subregion in
the nonattainment area (Western,
Central, and Eastern).
In addition, the modeled differences
in ozone concentrations are generally
consistent with the monitored ambient
concentrations.35 Monitored ozone
concentrations included in the Plan for
each year from 2000 to 2014 generally
progressed from a NOX disbenefit, i.e.,
higher weekend concentrations, to a
NOX-limited or transitional regime, i.e.,
weekend concentrations lower than or
about the same as weekday
concentrations.36 The Eastern subregion
has shown higher concentration on
weekdays than on weekends for the
entire period, i.e., no ‘‘weekend effect’’;
this is evidence that ozone formation is
NOX-limited there. By 2014, the
Western and Central subregions of the
Sacramento Metro Area show nearly
identical weekday and weekend
concentrations, suggesting these areas
had shifted to a transitional regime by
that time.37 For the Western subregion,
the Plan notes that the shift toward
transitional conditions occurred at
ozone levels under 50 parts per billion
(ppb), well below the 2008 ozone
NAAQS of 75 ppb, meaning that these
changes are not leading to NAAQS
exceedances. Indeed, monitoring sites in
the Western subregion have met the 75
ppb NAAQS from 2011 to the present
day. Within the Central subregion,
ambient ozone data recorded for 2011–
2014 show ozone levels under 70 ppb.38
The Plan suggests that the shift to a
transitional regime could be explained
by natural year-to-year variability in
biogenic VOC emissions and in local
meteorology.39 This is consistent with
the relatively low level of biogenic VOC
emissions during 2011–2014,40 which
would decrease the VOC:NOX ratio and
shift the atmosphere toward a
transitional ozone formation regime
(though not necessarily all the way to
NOX saturation). VOC emissions have
also decreased steadily from 2000 to the
present day,41 and biogenic VOC
emissions in the Sacramento Metro
Area, while variable, are about ten times
higher than those from anthropogenic
sources.42 Accordingly, the shift to
smaller differences in weekdayweekend ozone concentrations seen in
2014 could be the result of natural
variability in biogenic VOC emissions
that causes some locations to be
transitional or NOX-saturated on some
days.
The Plan also suggests variability in
meteorology as a factor in shifting ozone
chemistry between NOX-limited and
NOX-disbenefit regimes.43 The Plan
cites a research paper that examined the
effect of temperature and found that
‘‘the average O3 is higher on weekends
than on weekdays only for the lowest
temperature days.’’ 44 Natural annual
variability also applies to the degree of
pollutant carryover from one day to the
next day; day-to-day carryover can mix
weekday and weekend pollutants,
making weekdays and weekends appear
to be more similar. In addition, the NOX
emissions reductions that have occurred
from 2000 to the present day have
decreased the difference between
weekday and weekend NOX emissions,
which would also decrease the
differences in weekday and weekend
ozone concentrations.
Although these plots of weekdayweekend ozone differences provide a
useful indicator, they are not a
definitive description of the ozone
chemistry involved. The plots show
only the resulting ozone concentrations,
not any ozone precursors or
meteorology whose interaction results
in those concentrations. Furthermore,
the weekday-weekend plots show just a
single point for each monitor-year
combination, the average over a year’s
summer days of daily maximum 8-hour
ozone concentrations, rather than a
point for each day. Ozone
concentrations vary between the days of
35 2017 Sacramento Regional Ozone Plan,
Appendix B–4, B–149, Figure 14. For sites
appearing just above the 1:1 line, modeled weekday
ozone is higher by only a small amount.
36 Id.
37 Id. The commenter has interpreted the presence
of points below the 1:1 line as evidence of NOXsaturated ozone formation, but that interpretation
would be supported only by points much farther
below the line.
38 2017 Sacramento Regional Ozone Plan,
Appendix B–4, B–148.
39 Id.
40 2017 Sacramento Regional Ozone Plan
Appendix B–2, B–31 and B–34.
41 CARB Staff Report, B–16.
42 CARB Staff Report, B–7.
43 2017 Sacramento Regional Ozone Plan
Appendix B–4, B–148.
44 LaFranchi, B.W., Goldstein, A.H., and Cohen,
R.C., 2011, ‘‘Observations of the temperature
dependent response of ozone to NOX reductions in
the Sacramento, CA urban plume,’’ Atmospheric
Chemistry and Physics, 11, 6945–6960, https://
doi.org/10.5194/acp-11-6945-2011, 6954
(‘‘LaFranchi et al. 2011’’).
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a single year, not just between years. A
data point near the 1:1 line may indicate
that weekday-weekend differences are
small due to transitional chemistry on
every individual day. Alternatively, it
could indicate that positive differences
balance out negative ones, due to a mix
of high-ozone NOX-limited days and
low-ozone NOX-saturated or transitional
days. This would mean that NOXsaturated days with lower ozone
concentrations and less regulatory and
health significance would be masking
NOX-limited days with higher ozone
concentrations and greater significance.
In the context of the analyses and
evidence presented in the Plan, the
smaller weekday-weekend differences
in ozone concentrations in 2014 do not
indicate a change in ozone chemistry
that would suggest a control strategy
failure or an unknown phenomenon. As
the State explains, variability in
biogenic VOC emissions and in
meteorology provide an explanation for
some locations being transitional or
NOX-saturated on some days. We agree
with the State that the weekdayweekend analyses support the
conclusion that ozone formation in the
Sacramento Metro Area is mainly in a
NOX-limited regime, with some periods
in a NOX-transitional regime, and that
there is no disbenefit from NOX
controls. Next, we review and present
additional research evidence from the
Plan that further supports our
conclusion that the Sacramento Metro
Area’s ozone chemistry is NOX-limited.
To supplement the analysis of
weekday-weekend conditions, the Plan
cites several research and analysis
papers examining daily and hourly
concentrations of ozone, NOX, and VOC
in the years prior to 2011, which
support the conclusion that ozone
formation in the Sacramento area is
currently NOX-limited. Two related
papers by Murphy et al., from 2006 and
2007, examine monitored data from
1998–2002 for the Central and Eastern
subregions of the Sacramento Metro
Area.45 As described in these papers,
the ‘‘weekend effect,’’ i.e., conditions in
which ozone concentrations are higher
on weekends, was observed for
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45 Murphy,
J.G., Day, D.A., Cleary, P.A.,
Wooldridge, P.J., Millet, D.B., Goldstein, A.H., and
Cohen, R.C., 2007, ‘‘The weekend effect within and
downwind of Sacramento—Part 1: Observations of
ozone, nitrogen oxides, and VOC reactivity,’’
Atmos. Chem. Phys., 7, 5327–5339, https://doi.org/
10.5194/acp-7-5327-2007 (‘‘Murphy et al. 2007’’);
Murphy, J.G., Day, D.A., Cleary, P.A., Wooldridge,
P.J., Millet, D.B., Goldstein, A.H., and Cohen, R.C.,
2006, ‘‘The weekend effect within and downwind
of Sacramento: Part 2. Observational evidence for
chemical and dynamical contributions,’’ Atmos.
Chem. Phys. Discuss., 6, 11971–12019, https://
doi.org/10.5194/acpd-6-11971-2006 (‘‘Murphy et al.
2006’’).
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monitoring sites in the Sacramento
Valley (corresponding to the Central
subregion).46 The researchers attributed
this largely to NOX titration from mobile
source emissions in urban
Sacramento.47 For the Mountain
Counties of the Eastern subregion, the
researchers found that weekday ozone
concentrations were higher, consistent
with NOX-limited conditions.48 The
researchers’ analysis suggests that under
conditions of high concentrations of
ozone and precursors flowing in from
other urban areas, NOX emission
reductions of 50 percent or more would
be needed to guarantee lower rates of
ozone production in the Sacramento
Valley portions studied, corresponding
to the Central and Eastern subregions.49
In comparison to this prospective
analysis, NOX emissions in the
Sacramento Metro Area have decreased
by 58 percent between 2000 and 2015.
Thus, the work of Murphy et. al., along
with subsequent NOX emissions
reductions, suggest that the full
Sacramento Metro Area should
currently be NOX-limited.
LaFranchi et al., 2011 examines
monitored data from 2001–2007 for the
Central and Eastern subregions.50 These
researchers found NOX-saturated
conditions in the urban core, but mainly
at lower temperatures and lower ozone
concentrations, and determined that
NOX emissions reductions were
effective at reducing maximum ozone
concentrations.51 The researchers also
found no evidence that NOX reductions
have been detrimental to air quality. For
example, the researchers found that the
30 percent decrease in NOX and other
nitrogen photochemical products from
2001 to 2007 was ‘‘extremely effective
in reducing the exceedance probability
at all locations during the hottest days
of the year’’ when increases in biogenic
emissions result in more NOX-limited
conditions.52 Furthermore, the
researchers note that:
It has been argued . . . that NOX decreases
cause O3 increases in the center of cities and
are more detrimental to health because of the
larger number of people who live in the
urban core as opposed to the surrounding
suburbs and rural regions. . . . We find that
between 2001 and 2007, the average O3 is
higher on weekends than on weekdays only
for the lowest temperature days . . . well
below the exceedance limit [California 1hour standard of 90 ppb], increases in O3
46 Murphy
et al., 2007 at 5332.
et al., 2007 at 5336; Murphy et. al.,
2006 at 11972.
48 Murphy et al., 2007 at 5336.
49 Murphy et al., 2006 at 11996.
50 LaFranchi et al., 2011 at 6945–6960.
51 Id. at 6954.
52 Id.
47 Murphy
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58587
with decreasing NOX are not likely to lead to
additional exceedances. Thus, we find no
evidence that implementation of NOX
emission controls has been detrimental to air
quality, by any policy-relevant metric.53
Since NOX emissions examined in the
Plan and today are now lower 54 than
during the periods examined in these
research papers, ozone formation is now
expected to be within a more NOXlimited regime. As a result, current
conditions are consistent with and fit
the predictions in LaFranchi et al., that
NOX emissions reductions decrease
ozone concentrations in the Eastern
subregion and more recently in the
Central subregion; the possible
exception being when ozone levels are
already low, i.e., well below the 2008
NAAQS.
Overall, the State’s evidence
presented in the Plan suggests that NOX
reductions are more effective than VOC
reductions at decreasing ozone
concentrations in the Sacramento Metro
Area. For example, LaFranchi et al.,
observe that ‘‘the intensity of biogenic
VOC emissions have made NOX
emission reductions more effective than
anthropogenic VOC emission reductions
in the region, at least downwind of Del
Paso [i.e., within the Central and Eastern
subregions].’’ 55 The Plan’s ozone
isopleth diagram for the Folsom
monitor 56 also provides strong evidence
that NOX emission reductions are more
effective than VOC reductions. The
State generated this diagram using
photochemical grid modeling to
simulate various combinations of NOX
and VOC emissions reductions and
plotting the resulting ozone
concentrations for the Folsom monitor,
the ambient ozone monitor with the
highest ozone design value in the
Sacramento Metro Area. The diagram
shows a nearly horizontal slope of the
isopleth lines, indicating that ozone
formation in the Folsom area is much
more responsive to NOX emission
reductions than to VOC reductions.57 As
discussed in the proposed rule for this
action, the EPA estimated from the
ozone isopleth diagram in the Plan that
ozone formation is about 14 times as
53 Id.
at 6954–6955.
VOC emissions have also
decreased, but because biogenic emissions are so
much greater, the overall effect of the NOX and VOC
reductions has been to increase the VOC/NOX ratio,
resulting in more NOX-limited ozone chemistry.
55 LaFranchi et al. 2011 at 6958. Id. at 6946–6947,
which notes that VOC reactivity is controlled
primarily by biogenic emissions, including the
urban core. This suggests that reducing
anthropogenic VOC emissions may be relatively
ineffective for reducing ozone.
56 2017 Sacramento Regional Ozone Plan
Appendix B–4, B–158, Figure 16.
57 Id.
54 Anthropogenic
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sensitive to NOX reductions than to
VOC reductions on a percentage basis,
and about 24 times as sensitive on a
tons-per-year basis.58 Because the Plan
demonstrates a shift to NOX-limited
conditions throughout all subregions in
the area through its review of relevant
research and includes additional
modeling evidence at the Folsom
monitor to support the Plan’s reliance
on NOX emissions reductions to achieve
attainment, we disagree with CBD that
additional evidence is needed to
support the use of NOX substitution
under CAA section 182(c)(2)(C).
We also disagree with the
commenter’s assertion that our
proposed approval does not consider
emissions changes through 2024. The
Folsom isopleth diagram that supports
the Plan’s comparison of pre-2015
monitored weekday-weekend data
shows that NOX reductions are far more
effective than VOC emissions based on
2026 emissions and including changes
through and after 2024.59 Furthermore,
the changes in emissions through 2024
posited by the commenter would not
alter the EPA’s conclusion that NOX
substitution is appropriate. Indeed, we
anticipate that the replacement of NOX
combustion sources with wind and solar
electricity generation, as well as
continuing mobile source NOX
reductions through 2024 and beyond,
will make the Sacramento Metro Area
even more NOX-limited, thereby further
strengthening the Plan’s conclusions
regarding the efficacy of NOX emissions
reductions compared to VOC
reductions.
The EPA also disagrees that an
equivalence demonstration requires a
quantitative analysis. Depending on the
facts and circumstances of a given
nonattainment area, analytical
information that establishes equivalence
may be quantitative or qualitative, or
both. In this instance, some of the
evidence relied upon could be termed
qualitative, such as the shape of curves
in the isopleth diagram.60 The Plan’s
modeling and monitoring analyses, and
the analyses used in the cited research
papers, are predominantly quantitative,
with qualitative aspects and some
qualitative conclusions. Qualitative
evidence can be just as useful as
quantitative evidence. For NOX
substitution to yield an equivalent
ozone decrease, as required in CAA
section 182(c)(2)(C), a demonstration is
adequate if it shows that NOX
58 85
FR 68509, 68522 (October 29, 2020).
Appendix B–4, B–158.
60 These curves are partly quantified by the
proposed rule’s estimate that NOX emissions
reductions are 14 times as effective as VOC
reductions.
59 Plan
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reductions are more effective than VOC
reductions—it does not need to quantify
an exact amount by which these
reductions are more effective.
We also disagree with CBD’s
suggestion that the overall geographic
distribution of NOX and VOC emissions
would be significantly affected by
realistic and incremental changes in
these emissions. Incremental changes
resulting from the construction or
closing of NOX point sources would not
affect the preponderance of NOX
emissions from mobile sources in the
developed urban area, when compared
to the lower NOX emissions in suburban
and rural areas. These changes would
also not significantly affect the reverse
pattern of relatively more VOC
emissions (from biogenic sources) in
rural areas compared to urban areas.
Such small changes in overall NOX or
VOC emissions would merely affect the
degree and amount by which NOX
reductions are shown to be more
effective than VOC reductions.
Consequently, the EPA’s overall
conclusion that NOX substitution within
the Plan meets the requirements of CAA
section 182(c)(2)(C) remains unchanged.
Regarding CBD’s concern that ambient
ozone data from a single monitoring site
is inadequate to demonstrate
equivalency, we agree that this could be
problematic in some circumstances but
disagree that this is a problem for the
Sacramento Metro Area, for two reasons.
First, as discussed previously, in
concluding that NOX emissions
reductions are more effective than VOC
reductions at reducing ozone, the State
considered studies of ozone response at
monitoring sites throughout the
nonattainment area as part of the Plan.
Second, the Plan demonstrates
attainment at all monitoring sites, and
its conclusion that NOX reductions are
more effective than VOC for the site
with the highest design value, i.e., the
Folsom monitoring site, the
‘‘controlling’’ site for determining
whether or not the NAAQS is attained
in the Sacramento Metro Area, therefore
ensures that NOX reductions will be
effective in achieving ozone reductions
that will help the nonattainment area
toward attainment in all sub-regions.
We anticipate that any increase in ozone
concentrations that might result from
NOX emission reductions would be only
small, transient, and affect locations
with ozone concentrations well below
the NAAQS. These ozone increases
would typically occur under low
temperature conditions, with
corresponding low ozone concentrations
well below the NAAQS, not at elevated
ozone concentrations that could affect
public health or interfere with
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attainment of the 2015 ozone NAAQS.
As noted above, ambient ozone data
recorded in the Central subregion of the
Sacramento Metro Area between 2011
and 2014 already show ozone levels
under 70 ppb, the concentration that the
EPA has established as the 2015 ozone
NAAQS.
Concerning future air quality
planning for the 2015 ozone NAAQS,
the State has requested that the EPA
reclassify the Sacramento Metro
nonattainment area as a Serious
nonattainment area, and the attainment
plan for Serious areas is not yet due.
The EPA has proposed to require that
the State submit an attainment plan for
the 2015 ozone NAAQS for the
Sacramento Metro Area by August 3,
2022.61 As proposed, this plan will be
required to demonstrate, through
photochemical grid modeling and other
demonstrations, that all portions of the
Sacramento Metro Area will attain the
2015 NAAQS by no later than August 3,
2027. Based on conditions in this area
as described above and in the proposed
rule and the Plan, we anticipate that
NOX reductions, including those used to
demonstrate attainment of the 2008
ozone NAAQS, will remain a critical
piece of the State’s control strategy to
meet the 2015 ozone NAAQS.
Accordingly, we disagree with CBD’s
assertion that the Plan’s use of NOX
substitution will interfere with
attainment of the newer and more
stringent ozone standards in the
Sacramento Metro Area or violate CAA
section 110(l).
Comment #3: CBD states that an
equivalence demonstration should be as
rigorous as an attainment
demonstration; as such, an equivalence
demonstration should be based on
photochemical modeling or another
equally rigorous technique. The
commenter suggests that the State could
compare modeled relative response
factors (RRFs) for each RFP milestone
year for the 3 percent per year VOC
reductions to corresponding RRFs from
the control strategy, or the State could
use ozone isopleth diagrams together
with conservative assumptions about
the amount of allowable NOX
substitution. The commenter
acknowledges that section 182(c)(2)(C)
does not explicitly prescribe the use of
photochemical grid modeling or an
equally rigorous method and argues that
this does not mean that section
182(c)(2)(C) is worthy of a less rigorous
demonstration. The commenter argues
that Congress added the RFP provisions
to the CAA in response to the EPA’s
failure to address ozone pollution under
61 86
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the general requirements for attainment
demonstrations in subpart 1 of the CAA.
The commenter states that, in any case,
it would be arbitrary for the EPA to
ignore the entire nonattainment area
except for the isopleths at the Folsom
monitor and the Eastern region weekend
effect in assessing the equivalence
demonstration.
Response to Comment #3: The EPA
disagrees that an equivalence
demonstration for purposes of CAA
section 182(c)(2)(C) must be as
technically rigorous as a NAAQS
attainment demonstration. As the
commenter notes, CAA section
182(c)(2)(C) does not require the use of
photochemical grid modeling to
demonstrate the relative effectiveness of
NOX and VOC emissions reductions in
reducing ozone concentrations, whereas
CAA section 182(c)(2)(A) explicitly
requires photochemical grid modeling
or another equivalent analytical method
as part of the attainment demonstration.
Instead, Congress provided the EPA
with discretion to evaluate state
demonstrations supporting NOX
substitution, and to define the
conditions under which NOX
substitution is appropriate ‘‘in order to
maximize the reduction in ozone air
pollution.’’ 62 We believe that this
approach reflects an appropriate balance
in the level of analysis required for
demonstrating attainment by the
attainment date, and for the supporting
evaluation of the relative effectiveness
of potential measures and reductions
used to meet RFP milestones.
Consequently, we disagree that a NOX
equivalence demonstration for RFP
purposes must reflect the same or
equally rigorous analytical methods as
used in the attainment demonstration.
As discussed previously, a qualitative
analysis may show that NOX reductions
are more effective than VOC reductions
and be adequate for purposes of
allowing NOX substitution under
section 182(c)(2)(C). As described above,
we proposed to approve the RFP
demonstration and its use of NOX
substitution based on our analyses of
the photochemical modeling results
included in the attainment
demonstration and the Folsom isopleth
diagram, the other monitoring data from
the Plan, and the research papers and
analyses cited within. Collectively,
these analyses and data show that NOX
emissions reductions are effective at
reducing ozone throughout the
Sacramento Metro Area and are more
effective than VOC reductions at
bringing the area into attainment of the
62 CAA
section 182(c)(2)(C).
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NAAQS. Accordingly, we support the
Plan’s use of NOX substitution.
Comment #4: CBD comments that the
EPA has not demonstrated that the
approval of NOX substitution complies
with Executive Order 12898, which
expresses the EPA’s obligation to
identify and address disproportionate
impacts of its actions on minority
populations and low-income
populations, i.e., environmental justice
(EJ) communities. The commenter
asserts that because the EPA is not
applying the NOX Substitution
Guidance in evaluating the Plan’s use of
NOX substitution, it is exercising
discretion, and should use this
discretion to require the State to
demonstrate equivalence at each
monitoring site through photochemical
modeling of the relevant scenarios.
Furthermore, the commenter says that
because the record does not support the
EPA’s conclusion that NOX substitution
will result in equivalent reductions in
ozone concentrations throughout the
area, EJ communities may be
disproportionately and adversely
impacted by the EPA’s action by
experiencing fewer reductions in ozone
than would be achieved through VOC
reductions alone, or even ozone
increases. The commenter suggests that
the EPA could exercise discretion to
disapprove the Plan on this basis, and
that this disapproval could result in the
EPA issuing a Federal implementation
plan requiring additional emissions
reductions to ensure equivalent
reductions in ozone concentrations. The
commenter states that it is not a
sufficient response to say that approving
the Plan will have no adverse impact to
EJ communities because it improves the
status quo by making State law federally
enforceable. The commenter provides a
map generated using CalEnviroScreen,
showing EJ communities concentrated
in the Central subregion where the
commenter asserts that the Plan does
not demonstrate equivalence.
Response to Comment #4: As
explained in our previous responses, the
EPA and the State have determined that
NOX reductions are critical to the
Sacramento Metro Area’s attainment of
the 2008 ozone NAAQS and we
anticipate that any localized increase in
ozone concentrations resulting from
these NOX reductions would be minor,
transitory, and occur well below the
limits established by the NAAQS.
Furthermore, we find that the Plan
appropriately focuses on ozone
reductions in the regions subject to the
highest ozone concentrations, e.g., the
eastern region and design value monitor
at Folsom, where adverse health
impacts are most likely to occur. In this
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58589
context, we disagree that the use of NOX
substitution is inappropriate even if it
may generate disproportionate
reductions in ozone concentrations
within high ozone and NOX-limited
areas.
Executive Order 12898, ‘‘Federal
Actions To Address Environmental
Justice in Minority Populations and
Low-Income Populations,’’ directs
Federal agencies to identify and address
‘‘disproportionately high and adverse
human health or environmental effects’’
of their actions on minority populations
and low-income populations to the
greatest extent practicable and
permitted by law.63 Given our
conclusion that the Plan satisfies all
applicable CAA requirements related to
demonstrating expeditious attainment of
the ozone NAAQS, including the
requirements for RFP and NOX
substitution,64 we have no basis to
conclude that this action will cause
disproportionately high or adverse
human health or environmental effects
on any population, including any
minority, low-income, or indigenous
population. Under the CAA, the EPA is
required to approve a SIP submission
that satisfies the requirements of the Act
and applicable Federal regulations,65
and Executive Order 12898 does not
provide an independent basis for
disapproving such a SIP submission.
The EPA remains committed, however,
to working with CARB and the local air
districts in the Sacramento Metro Area
to ensure that the ozone attainment
plans for this area satisfy CAA
requirements for attainment and RFP
and thereby protect all populations in
the area, including minority, lowincome, and indigenous populations,
from disproportionately high or adverse
air pollution impacts.
Comment #5: CBD comments that the
proposed rule fails to acknowledge the
EPA’s NOX Substitution Guidance, and
that the EPA should explicitly disavow
the guidance and its justifications. The
commenter says that there is no basis for
this guidance and suggests that the
EPA’s prior use of the guidance may
have caused increases in asthma,
hospital and emergency room visits, and
premature mortality. An appendix to the
comments provides numerous
comments directed at the NOX
Substitution Guidance, asserting
generally that this guidance contradicts
CAA section 182(c)(2)(C) by
recommending a procedure that fails to
63 59
FR 7629 (February 16, 1994).
response to Comment #7 discusses our
reasons for deferring action on the State’s
contingency measures revision.
65 CAA section 110(k); 40 CFR 52.02(a).
64 Our
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demonstrate any equivalence between
VOC and NOX reductions, relies on
incorrect policy assumptions, and gives
legal justifications that are without
merit.
Response to Comment #5: Our
proposed approval of the Plan’s use of
NOX substitution is compatible with the
NOX Substitution Guidance, which,
while non-binding and not having the
force of regulation, provides a
recommended procedure for
substituting NOX emission reductions
for VOC reductions on a percentage
basis, consistent with a state’s ozone
attainment plan, control strategy,
modeled attainment demonstration, and
RFP milestones and requirements. The
NOX Substitution Guidance specifies
that the EPA will review NOX
substitution on a case-by-case basis and
will generally approve reasonable NOX
substitution proposals.66 As noted in
our proposed rule and described above,
our approval of the State’s reasonable
use of NOX substitution is supported by
local conditions and needs as
documented in the modeling and
analyses included in the Sacramento
Metro Ozone SIP and is consistent with
the requirements in CAA section
182(c)(2)(C).67
To be clear, our action on the Plan is
not intended to disavow or rescind any
portion of the NOX Substitution
Guidance. Comments relating solely to
the NOX Substitution Guidance are
outside the scope of this rulemaking
action.
Comment #6: CBD argues that,
because the Plan does not meet the
requirements for RFP, the EPA cannot
determine that the MVEBs are allowable
as a portion of the total allowable
emissions for demonstrating RFP. The
commenter asserts that because there is
no measure of total allowable emissions
for RFP in the absence of an approvable
plan, the EPA has no basis for approval
of the MVEBs.
Response to Comment #6: For the
reasons described above in our previous
responses to comments, we have
determined that the State’s use of NOX
substitution is appropriate and
adequately supported within the Plan,
consistent with the RFP and attainment
demonstrations, and that the Plan’s RFP
demonstration is approvable.
Consequently, we disagree with the
commenter and their rationale
suggesting that our approval of the
MVEBs is inappropriate.
Comment #7: CBD challenges the
EPA’s proposed conditional approval of
the contingency measures as arbitrary
and capricious and contrary to law,
based on CAA requirements and
interpreting case law. The commenter
asserts that the EPA must disapprove
the contingency measures.
Response to Comment #7: As
explained in the proposed rule, our
proposed conditional approval of the
State’s RFP and attainment contingency
measures was based on commitments
from the State and Districts in the
context of additional emissions
reductions in the RFP milestone years
and in the year following the attainment
year. Following publication of the
proposed rule, the Ninth Circuit Court
of Appeals issued a decision in
Association of Irritated Residents v. U.S.
Environmental Protection Agency,
which remanded the EPA’s conditional
approval of contingency measures for
another California nonattainment area.68
Based on this decision, we are not
finalizing our proposed conditional
approval of the Plan’s contingency
measures at this time. Consequently,
CBD’s comments on this issue are
outside the scope of this final action and
we are not providing specific responses
to these comments.
III. Final Action
For the reasons discussed in detail in
the proposed rule and summarized
herein, under CAA section 110(k)(3), the
EPA is taking final action to approve as
a revision to the California SIP the
following portions of the Sacramento
Metro Area Ozone SIP, as provided
within the 2017 Sacramento Regional
Ozone Plan and the Sacramento Metro
portion of CARB’s 2018 SIP Update:
• The base year emissions inventory
element in the 2017 Sacramento
Regional Ozone Plan meets the
requirements of CAA sections 172(c)(3)
and 182(a)(1) and 40 CFR 51.1115 for
the 2008 ozone NAAQS;
• The RACM demonstration element
in the 2017 Sacramento Regional Ozone
Plan meets the requirements of CAA
section 172(c)(1) and 40 CFR 51.1112(c)
for the 2008 ozone NAAQS;
• The attainment demonstration
element for the 2008 ozone NAAQS in
the 2017 Sacramento Regional Ozone
Plan meets the requirements of CAA
section 182(c)(2)(A) and 40 CFR
51.1108;
• The ROP demonstration element in
the 2017 Sacramento Regional Ozone
Plan meets the requirements of CAA
182(b)(1) and 40 CFR 51.1110(a)(2) for
the 2008 ozone NAAQS;
• The RFP demonstration element in
Section V—SIP Elements for the
Sacramento Metropolitan Area of the
2018 SIP Update (as clarified) meets the
requirements of CAA sections 172(c)(2),
182(b)(1), and 182(c)(2)(B), and 40 CFR
51.1110(a)(2)(ii) for the 2008 ozone
NAAQS;
• The VMT emissions offset
demonstration element in the 2017
Sacramento Regional Ozone Plan meets
the requirements of CAA section
182(d)(1)(A) and 40 CFR 51.1102 for the
2008 ozone NAAQS; and
• The motor vehicle emissions
budgets in Section V—SIP Elements for
the Sacramento Metropolitan Area of
the 2018 SIP Update for the RFP
milestone year of 2023, and the
attainment year of 2024 are consistent
with the RFP and attainment
demonstrations for the 2008 ozone
NAAQS, and the budgets meet the other
criteria in 40 CFR 93.118(e). In
approving the budgets, we are also
finding them adequate for use in
transportation conformity
determinations, consistent with 40 CFR
93.118(f)(2).
TABLE 1—TRANSPORTATION CONFORMITY MOTOR VEHICLE EMISSIONS BUDGETS FOR THE 2008 OZONE NAAQS IN THE
SACRAMENTO METRO AREA
[Summer planning inventory, tons per day]
Budget year
VOC
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2023 .........................................................................................................................................................................
2024 .........................................................................................................................................................................
NOX
15
15
Source: 85 FR 68509; Id. at 68530, Table 9; and 2018 SIP Update, Table V–4.
66 NO Substitution Guidance at 3 (‘‘The EPA will
X
approve substitution proposals on a case-by-case
basis. Generally speaking, any reasonable
substitution proposal will be approved.’’).
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67 See id. at 1 (recognizing that ‘‘NO controls
X
may effectively reduce ozone in many areas, and
that the design of strategies is more efficient when
the characteristic properties responsible for ozone
formation and control are evaluated for each area’’).
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68 Association of Irritated Residents v. U.S.
Environmental Protection Agency, No. 19–71223
(9th Cir. Aug. 26, 2021).
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We also find that the:
• Emissions statement element of the
2017 Sacramento Regional Ozone Plan
satisfies the requirements under CAA
section 182(a)(3)(B) based on our prior
approval of the Districts’ emissions
statement rules;
• Enhanced vehicle inspection and
maintenance program in the Sacramento
Metro Area meets the requirements of
CAA section 182(c)(3) and 40 CFR
51.1102 for the 2008 ozone NAAQS;
• California SIP revision to opt out of
the Federal Clean Fuels Fleet Program
meets the requirements of CAA sections
182(c)(4)(A) and 246 and 40 CFR
51.1102 for the 2008 ozone NAAQS
with respect to the Sacramento Metro
Area; and
• Enhanced monitoring in the
Sacramento Metro Area meets the
requirements of CAA section 182(c)(1)
and 40 CFR 51.1102 for the 2008 ozone
NAAQS.
To conclude, we are deferring final
action on the contingency measures
element of the Sacramento Metro Area
Ozone SIP as meeting the requirements
of CAA sections 172(c)(9) and 182(c)(9).
IV. Statutory and Executive Order
Reviews
Under the Clean Air Act, the
Administrator is required to approve a
SIP submission that complies with the
provisions of the Act and applicable
Federal regulations. 42 U.S.C. 7410(k);
40 CFR 52.02(a). Thus, in reviewing SIP
submissions, the EPA’s role is to
approve state choices provided they
meet the criteria of the Clean Air Act.
Accordingly, this action merely
approves state plans as meeting Federal
requirements and does not impose
additional requirements beyond those
imposed by state law. For that reason,
this action:
• Is not a ‘‘significant regulatory
action’’ subject to review by the Office
of Management and Budget under
Executive Orders 12866 (58 FR 51735,
October 4, 1993) and 13563 (76 FR 3821,
January 21, 2011);
• Does not impose an information
collection burden under the provisions
of the Paperwork Reduction Act (44
U.S.C. 3501 et seq.);
• Is certified as not having a
significant economic impact on a
substantial number of small entities
under the Regulatory Flexibility Act
(5 U.S.C. 601 et seq.);
• Does not contain any unfunded
mandate or significantly or uniquely
affect small governments, as described
in the Unfunded Mandates Reform Act
of 1995 (Pub. L. 104–4);
• Does not have federalism
implications as specified in Executive
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Order 13132 (64 FR 43255, August 10,
1999);
• Is not an economically significant
regulatory action based on health or
safety risks subject to Executive Order
13045 (62 FR 19885, April 23, 1997);
• Is not a significant regulatory action
subject to Executive Order 13211 (66 FR
28355, May 22, 2001);
• Is not subject to requirements of
Section 12(d) of the National
Technology Transfer and Advancement
Act of 1995 (15 U.S.C. 272 note) because
application of those requirements would
be inconsistent with the Clean Air Act;
and
• Does not provide the EPA with the
discretionary authority to address
disproportionate human health or
environmental effects with practical,
appropriate, and legally permissible
methods under Executive Order 12898
(59 FR 7629, February 16, 1994).
In addition, the SIP is not approved
to apply on any Indian reservation land
or in any other area where the EPA or
an Indian tribe has demonstrated that a
tribe has jurisdiction. Four Indian tribes
have areas of Indian country located
within the boundaries of the
Sacramento Metro ozone nonattainment
area. In those areas of Indian country,
the rule does not have tribal
implications and will not impose
substantial direct costs on tribal
governments or preempt tribal law as
specified by Executive Order 13175 (65
FR 67249, November 9, 2000).
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. The EPA will
submit a report containing this action
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).
Under section 307(b)(1) of the Clean
Air Act, petitions for judicial review of
this action must be filed in the United
States Court of Appeals for the
appropriate circuit by December 21,
2021. Filing a petition for
reconsideration by the Administrator of
this final rule does not affect the finality
of this action for the purposes of judicial
review nor does it extend the time
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58591
within which a petition for judicial
review may be filed, and shall not
postpone the effectiveness of such rule
or action. This action may not be
challenged later in proceedings to
enforce its requirements. (See section
307(b)(2)).
List of Subjects in 40 CFR Part 52
Environmental protection, Air
pollution control, Incorporation by
reference, Intergovernmental relations,
Nitrogen dioxide, Ozone, Reporting and
recordkeeping requirements, Volatile
organic compounds.
Authority: 42 U.S.C. 7401 et seq.
Dated: October 9, 2021.
Deborah Jordan,
Acting Regional Administrator, Region IX.
Chapter I, title 40 of the Code of
Federal Regulations is amended as
follows:
PART 52—APPROVAL AND
PROMULGATION OF
IMPLEMENTATION PLANS
1. The authority citation for part 52
continues to read as follows:
■
Authority: 42 U.S.C. 7401 et seq.
Subpart F—California
2. Section 52.220 is amended by
adding paragraphs (c)(514)(ii)(A)(10)
and (c)(566) to read as follows:
■
§ 52.220
Identification of plan—in part.
*
*
*
*
*
(c) * * *
(514) * * *
(ii) * * *
(A) * * *
(10) 2018 Updates to the California
State Implementation Plan, adopted on
October 25, 2018, chapter V (‘‘SIP
Elements for the Sacramento
Metropolitan Area’’), excluding section
V.D (‘‘Contingency Measures’’); and
pages A–15 through A–18 of Appendix
A (‘‘Nonattainment Area Inventories’’).
*
*
*
*
*
(566) The following plan was
submitted on December 18, 2017 by the
Governor’s designee.
(i) [Reserved]
(ii) Additional materials. (A)
Sacramento Metropolitan Area 2008 8Hour Ozone National Ambient Air
Quality Standard Planning Area.
(1) Sacramento Regional 2008 NAAQS
8-Hour Ozone Attainment and
Reasonable Further Progress Plan, dated
July 24, 2017, excluding the following
portions: Subchapter 7.9, ‘‘Contingency
Measures’’; subchapter 10.5, ‘‘Proposed
New Motor Vehicle Emissions Budgets’’;
and chapter 12 (regarding reasonable
further progress).
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and permitting of major sources and
major modifications under part D of title
I of the Clean Air Act (CAA or ‘‘the
Act’’). Specifically, the revision pertains
to SCAQMD Rule 1325 ‘‘Federal PM2.5
New Source Review Program.’’
(2) [Reserved]
(B) [Reserved]
[FR Doc. 2021–22661 Filed 10–21–21; 8:45 am]
BILLING CODE 6560–50–P
ENVIRONMENTAL PROTECTION
AGENCY
DATES:
40 CFR Part 52
ADDRESSES:
This rule is effective on
November 22, 2021.
[EPA–R09–OAR–2019–0272; FRL–8897–02–
Region 9]
Air Plan Approval; California; South
Coast Air Quality Management District;
Stationary Source Permits
Environmental Protection
Agency (EPA).
ACTION: Final rule.
AGENCY:
The Environmental Protection
Agency (EPA) is taking final action to
approve a revision to the South Coast
Air Quality Management District
(SCAQMD or ‘‘the District’’) portion of
the California State Implementation
Plan (SIP). We are finalizing approval of
a revision governing issuance of permits
for stationary sources, including review
SUMMARY:
The EPA has established a
docket for this action under Docket No.
EPA–R09–OAR–2019–0272. All
documents in the docket are listed on
the https://www.regulations.gov
website. Although listed in the index,
some information is not publicly
available, e.g., Confidential Business
Information (CBI) or other information
the disclosure of which 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 through https://
www.regulations.gov, or please contact
the person identified in the FOR FURTHER
INFORMATION CONTACT section for
additional availability information. If
you need assistance in a language other
than English or if you are a person with
disabilities who needs a reasonable
accommodation at no cost to you, please
contact the person identified in the FOR
FURTHER INFORMATION CONTACT section.
FOR FURTHER INFORMATION CONTACT:
Laura Yannayon, EPA Region IX, 75
Hawthorne St., San Francisco, CA
94105. By phone: (415) 972–3534 or by
email at yannayon.laura@epa.gov.
SUPPLEMENTARY INFORMATION:
Throughout this document, ‘‘we,’’ ‘‘us,’’
and ‘‘our’’ refer to the EPA.
Table of Contents
I. Proposed Action
II. Public Comments and EPA Responses
III. EPA Action
IV. Incorporation by Reference
V. Statutory and Executive Order Reviews
I. Proposed Action
On September 20, 2019,1 the EPA
proposed to approve the following rule
into the California SIP. Table 1 lists the
rule addressed by this final action with
the dates that it was adopted by the
local air agency and submitted to the
EPA by the California Air Resources
Board (CARB or ‘‘the State’’).
TABLE 1—SUBMITTED RULE
Rule No.
Rule Title
Amended
Submitted
1325 .................................................
Federal PM2.5 New Source Review Program ...........................................
1/4/2019
4/24/19
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The SIP previously contained a
version of Rule 1325 ‘‘Federal PM2.5
New Source Review Program,’’
approved into the SIP on November 30,
2018.2 The EPA’s final approval of the
rule identified above in Table 1 has the
effect of entirely superseding our prior
approval of the same rule in the current
SIP-approved program.
Our proposed action contains more
information on the rule and our
evaluation.
II. Public Comments and EPA
Responses
The EPA’s proposed action provided
a 30-day public comment period. During
this period, we received one nongermane comment and one adverse
comment. The full text of both
comments is available in the docket for
this rulemaking. Below, we summarize
the adverse comment and our response.
Comment: The commenter stated that
the definition of Volatile Organic
Compounds (VOC) as referenced in Rule
1325 does not comport with the
definition in 40 CFR 51.100. The
definition of VOC in Rule 1325 points
1 84
FR 49492.
VerDate Sep<11>2014
to the term as it is defined in SIPapproved SCAQMD Rule 102, which
defines VOC as ‘‘any volatile organic
compound of carbon, excluding
methane, carbon monoxide, carbon
dioxide, carbonic acid, metallic carbides
or carbonates, ammonium carbonate,
and exempt compounds.’’ The list of
‘‘exempt compounds’’ in Rule 102 has
not been updated since 2004 and thus
is out of compliance with the federal
definition.
Response: Since the publication of
our proposed action to approve Rule
1325, the SCAQMD amended Rule 102
on January 10, 2020 and the California
Air Resources Board submitted the
amended version of SCAQMD Rule 102
to the EPA for incorporation into the SIP
on September 16, 2020. On July 9,
2021,3 the EPA took final action to
approve amended SCAQMD Rule 102
into the SIP based, in part, on our
determination that the amended
definition is consistent with the federal
definition in 40 CFR 51.100. The EPA’s
approval of SCAQMD Rule 102
corrected the deficiency identified by
2 83
16:20 Oct 21, 2021
Jkt 256001
PO 00000
FR 61551.
Frm 00034
Fmt 4700
Sfmt 4700
the commenter. Accordingly, the EPA is
finalizing our action on SCAQMD Rule
1325 as proposed.
III. EPA Action
As explained above, the SCAQMD
and the EPA have taken all steps
necessary to address the deficiency
identified by the commenter. We find
that SCAQMD Rule 1325 fulfills all
relevant CAA requirements. As
authorized in section 110(k)(3) of the
Act, the EPA is fully approving Rule
1325 into the SCAQMD portion of the
California SIP. The January 4, 2019
version of Rule 1325 will replace the
previously approved version of the rule
in the SIP.
IV. Incorporation by Reference
In this rule, the EPA is finalizing
regulatory text that includes
incorporation by reference. In
accordance with requirements of 1 CFR
51.5, the EPA is finalizing the
incorporation by reference of the rule
listed in Table 1 of this preamble. The
EPA has made, and will continue to
make, these materials available
3 86
FR 36227.
E:\FR\FM\22OCR1.SGM
22OCR1
]]>Agencies
[Federal Register Volume 86, Number 202 (Friday, October 22, 2021)]
[Rules and Regulations]
[Pages 58581-58592]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2021-22661]
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ENVIRONMENTAL PROTECTION AGENCY
40 CFR Part 52
[EPA-R09-OAR-2020-0425; FRL-8723-02-R9]
Approval of Air Quality Implementation Plans; California;
Sacramento Metro Area; 2008 8-Hour Ozone Nonattainment Area
Requirements
AGENCY: Environmental Protection Agency (EPA).
ACTION: Final rule.
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SUMMARY: The Environmental Protection Agency (EPA) is taking final
action to approve portions of two state implementation plan (SIP)
revisions submitted by the State of California to meet Clean Air Act
(CAA or ``Act'') requirements for the 2008 8-hour ozone national
ambient air quality standards (NAAQS or ``standards'') in the
Sacramento Metro ozone nonattainment area (``Sacramento Metro Area'').
These SIP revisions address the CAA nonattainment area requirements for
the 2008 ozone NAAQS, such as the requirements for an emissions
inventory, an attainment demonstration,
[[Page 58582]]
reasonable further progress, reasonably available control measures, and
contingency measures, and it establishes motor vehicle emissions
budgets. The EPA is taking final action to approve these revisions as
meeting all the applicable ozone nonattainment area requirements,
except for the State's contingency measures revision. The EPA is
deferring action on this revision related to contingency measures.
DATES: This rule will be effective on November 22, 2021.
ADDRESSES: The EPA has established a docket for this action under
Docket ID No. EPA-R09-OAR-2020-0425. All documents in the docket are
listed on the https://www.regulations.gov website. 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 through https://www.regulations.gov, or please
contact the person identified in the FOR FURTHER INFORMATION CONTACT
section for additional availability information. If you need assistance
in a language other than English or if you are a person with
disabilities who needs a reasonable accommodation at no cost to you,
please contact the person identified in the FOR FURTHER INFORMATION
CONTACT section.
FOR FURTHER INFORMATION CONTACT: Jerry Wamsley, Air Planning Office
(AIR-2), EPA Region IX, 75 Hawthorne Street, San Francisco, CA 94105,
(415) 947-4111 or [email protected].
SUPPLEMENTARY INFORMATION:
Table of Contents
I. Summary of the Proposed Action
II. Public Comments and EPA Responses
A. Review of Ozone Chemistry and NOX Substitution
Effects
B. Response to Comments
III. Final Action
IV. Statutory and Executive Order Reviews
I. Summary of the Proposed Action
On October 29, 2020, the EPA proposed to approve, under CAA section
110(k)(3), and to conditionally approve, under CAA section 110(k)(4),
portions of submittals from the State of California as revisions to the
California SIP for the Sacramento Metro ozone nonattainment area.\1\
The principal submittals are as follows: ``Sacramento Regional 2008
NAAQS 8-Hour Ozone Attainment Plan and Reasonable Further Progress
Plan,'' (``2017 Sacramento Regional Ozone Plan''); and the Sacramento
Metro portion of the California Air Resource Board's (CARB) ``2018
Updates to the California State Implementation Plan'' (``2018 SIP
Update'').\2\ In this notice, we refer to these submittals collectively
as the ``Sacramento Metro Area Ozone SIP'' or the ``Plan,'' and we
refer to our October 29, 2020 proposed action as the ``proposed rule.''
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\1\ 85 FR 68509 (October 29, 2020).
\2\ The State submitted the 2017 Sacramento Regional Ozone Plan
and the 2018 SIP Update on December 18, 2017, and December 5, 2018,
respectively. Our proposed rule provides our detailed review of CAA
procedural requirements related to these submissions.
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The Sacramento Metro Area consists of Sacramento and Yolo counties
and portions of El Dorado, Placer, Solano, and Sutter counties.\3\
Several local air agencies have their jurisdictions within this area.
Sacramento County is under the jurisdiction of the Sacramento
Metropolitan Air Quality Management District (SMAQMD). Yolo County and
the eastern portion of Solano County are under the jurisdiction of the
Yolo-Solano AQMD (YSAQMD). The southern portion of Sutter County is
under the jurisdiction of the Feather River AQMD (FRAQMD). The western
portion of Placer County is under the jurisdiction of the Placer County
Air Pollution Control District (PCAPCD). Last, the western portion of
El Dorado County is under the jurisdiction of the El Dorado County AQMD
(EDCAQMD). In this action, we refer to these five districts
collectively as the ``Districts.'' Under California law, each air
district is responsible for adopting and implementing stationary source
rules, while CARB adopts and implements consumer products and mobile
source rules. The Districts' and State's rules are submitted to the EPA
by CARB.
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\3\ For a precise description of the geographic boundaries of
the Sacramento Metro Area for the 2008 ozone standards, refer to 40
CFR 81.305. Specifically included portions are the eastern portion
of Solano County, the western portions of Placer and El Dorado
counties outside of the Lake Tahoe Basin, and the southern portion
of Sutter County.
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In our proposed rule, we provided background information on the
ozone standards,\4\ area designations, related SIP revision
requirements under the CAA, and the EPA's implementing regulations for
the 2008 ozone standards, referred to as the 2008 Ozone SIP
Requirements Rule (``2008 Ozone SRR''). To summarize, the Sacramento
Metro Area is classified as Severe nonattainment for the 2008 ozone
standards; consequently, the Sacramento Metro Area Ozone SIP was
developed to address the CAA requirements for this Severe nonattainment
area in meeting the 2008 ozone NAAQS.
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\4\ Ground-level ozone pollution is formed from the reaction of
volatile organic compounds (VOC) and oxides of nitrogen
(NOX) in the presence of sunlight. The 1-hour ozone NAAQS
is 0.12 parts per million (ppm) (one-hour average), the 1997 ozone
NAAQS is 0.08 ppm (eight-hour average), and the 2008 ozone NAAQS is
0.075 ppm (eight-hour average). CARB refers to reactive organic
gases (ROG) in some of its ozone-related submittals. The CAA and the
EPA's regulations refer to VOC, rather than ROG, but both terms
cover essentially the same set of gases. In this final rule, we use
the term VOC to refer to this set of gases.
---------------------------------------------------------------------------
In our proposed rule, we also discussed a decision issued by the
D.C. Circuit Court of Appeals in South Coast Air Quality Management
Dist. v. EPA (``South Coast II'') \5\ that vacated certain portions of
the EPA's 2008 Ozone SRR. The only aspect of the South Coast II
decision that affects this action is the vacatur of the provision in
the 2008 Ozone SRR that allowed states to use an alternative baseline
year for demonstrating reasonable further progress (RFP). To address
this decision, CARB, in the 2018 SIP Update, submitted an updated RFP
demonstration that relied on a 2011 baseline year, as required, along
with updated motor vehicle emissions budgets (MVEBs or ``budgets'')
associated with the new RFP milestone years.\6\
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\5\ South Coast Air Quality Management Dist. v. EPA, 882 F.3d
1138 (D.C. Cir. 2018). The term ``South Coast II'' is used in
reference to the 2018 court decision to distinguish it from a
decision published in 2006 also referred to as ``South Coast.'' The
earlier decision involved a challenge to the EPA's Phase 1
implementation rule for the 1997 ozone NAAQS. South Coast Air
Quality Management Dist. v. EPA, 472 F.3d 882 (D.C. Cir. 2006).
\6\ In a letter dated December 18, 2019, from Richard W. Corey,
Executive Officer, CARB, to Michael Stoker, Regional Administrator,
EPA Region 9, CARB requested withdrawal of the RFP demonstration
included in the 2017 Sacramento Regional Ozone Plan submitted
previously. The RFP demonstration in the 2018 SIP Update replaced
the demonstration in the 2017 Plan.
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Within our proposed rule, we reviewed the various SIP elements
contained in the Sacramento Metro Area Ozone SIP, evaluated them for
compliance with CAA statutory and regulatory requirements, and
concluded that they met all applicable requirements, with the exception
of the contingency measures element, for which the EPA proposed
conditional approval. Below, we provide a summary review of our
proposed rule, by SIP element.
We found that CARB and the Districts met all applicable
procedural requirements for public notice and hearing prior to the
adoption and submittal of the components of the Sacramento Metro Area
Ozone SIP, i.e.,
[[Page 58583]]
the 2017 Sacramento Regional Ozone Plan and the Sacramento Metro
portion of CARB's 2018 SIP Update.\7\
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\7\ 85 FR 68509, 68511-68512.
---------------------------------------------------------------------------
We proposed to approve the base year emissions inventory
element in the 2017 Sacramento Regional Ozone Plan as meeting the
requirements of CAA sections 172(c)(3) and 182(a)(1) and 40 CFR 51.1115
for the 2008 ozone NAAQS. Based on our review, we proposed to find that
the future year baseline projections in the 2017 Sacramento Regional
Ozone Plan are properly supported by SIP-approved stationary and mobile
source measures.\8\
---------------------------------------------------------------------------
\8\ Id. at 68513-68515.
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We proposed to approve the reasonably available control
measures (RACM) demonstration element in the 2017 Sacramento Regional
Ozone Plan as meeting the requirements of CAA section 172(c)(1) and 40
CFR 51.1112(c) for the 2008 ozone NAAQS. Based on our review of the
State and Districts' RACM analyses and the Districts' and CARB's
adopted rules, we proposed to find that there are, at this time, no
additional RACM that would further advance attainment of the 2008 ozone
NAAQS in the Sacramento Metro Area.\9\
---------------------------------------------------------------------------
\9\ Id. at 68516-68518.
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We proposed to approve the attainment demonstration
element for the 2008 ozone NAAQS in the 2017 Sacramento Regional Ozone
Plan as meeting the requirements of CAA section 182(c)(2)(A) and 40 CFR
51.1108. In our review provided in the proposed rule, we observed that
the Plan followed the modeling procedures recommended in the EPA's
Modeling Guidance and showed excellent performance in simulating
observed ozone concentrations in the 2012 base year. Given the
extensive discussion of modeling procedures, tests, and performance
analyses called for in the modeling protocol, the good model
performance, and the model response to emissions changes consistent
with observations, we proposed to find that the modeling is adequate
for purposes of supporting the attainment demonstration.\10\
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\10\ Id. at 68518-68523.
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We proposed to approve the rate of progress (ROP)
demonstration element in the 2017 Sacramento Regional Ozone Plan as
meeting the requirements of CAA 182(b)(1) and 40 CFR 51.1110(a)(2) for
the 2008 ozone NAAQS.\11\ As noted in the proposed rule, in 2015, the
EPA approved a 15 percent ROP plan for the Sacramento Metro Area for
the 1-hour ozone NAAQS and 1997 8-hour ozone NAAQS.\12\
---------------------------------------------------------------------------
\11\ Id. at 68523-68525
\12\ 80 FR 4795 (January 29, 2015).
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We proposed to approve the RFP demonstration element in
Section V--SIP Elements for the Sacramento Metropolitan Area of the
2018 SIP Update (as clarified) as meeting the requirements of CAA
sections 172(c)(2), 182(b)(1), and 182(c)(2)(B), and 40 CFR
51.1110(a)(2)(ii) for the 2008 ozone NAAQS. We proposed to find that
CARB and the Districts used the most recent planning and activity
assumptions, emissions models, and methodologies in developing the RFP
baseline and milestone year emissions inventories. Also, we proposed to
find that the Districts and CARB used an appropriate calculation method
to demonstrate RFP. Lastly, we proposed to find that the Districts' use
of oxides of nitrogen (NOX) NAAQS substitution is warranted
and appropriately implemented based on the NOX-limited
conditions in the Sacramento Metro Area, and the area's greater
responsiveness to NOX emissions reductions relative to VOC
emissions reductions.\13\
---------------------------------------------------------------------------
\13\ 85 FR 68509, 68523-68525.
---------------------------------------------------------------------------
We proposed to approve the vehicle miles traveled (VMT)
emissions offset demonstration element in the 2017 Sacramento Regional
Ozone Plan as meeting the requirements of CAA section 182(d)(1)(A) and
40 CFR 51.1102 for the 2008 ozone NAAQS. Based on our review of revised
Sacramento Metro Area VMT emissions offset demonstration in the 2017
Sacramento Regional Ozone Plan, we proposed to find that CARB's
analysis is consistent with the August 2012 Guidance and with the
emissions and vehicle activity estimates found elsewhere in the 2017
Sacramento Regional Ozone Plan. Also, we proposed to find that CARB and
the Sacramento Area Council of Governments (SACOG) have adopted
sufficient transportation control strategies (TCSs) and transportation
control measures (TCMs) to offset the growth in emissions from growth
in VMT and vehicle trips in the Sacramento Metro Area for the purposes
of the 2008 ozone NAAQS.\14\
---------------------------------------------------------------------------
\14\ Id. at 68525-68527.
---------------------------------------------------------------------------
We proposed to approve the MVEBs in Section V--SIP
Elements for the Sacramento Metropolitan Area of the 2018 SIP Update
for the RFP milestone year of 2023, and the attainment year of 2024 and
find that these budgets are consistent with the RFP and attainment
demonstrations for the 2008 ozone NAAQS proposed for approval and the
budgets meet the other criteria in 40 CFR 93.118(e).\15\ We reviewed
the budgets in the Sacramento Metro Area Ozone SIP and proposed to find
that they are consistent with the attainment and RFP demonstrations for
which we proposed approval, are based on control measures that have
already been adopted and implemented, and meet all other applicable
statutory and regulatory requirements including the adequacy criteria
in 40 CFR 93.1118(e)(4) and (5).\16\
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\15\ Table 9 in our proposed rule provides the VOC and
NOX emissions budgets that we proposed for approval.
\16\ 85 FR 68509, 68529-68531.
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We also proposed to make the following findings related to other
CAA requirements:
The emissions statement element of the 2017 Sacramento
Regional Ozone Plan satisfies the requirements under CAA section
182(a)(3)(B) based on our prior approvals of the Districts' emission
statement rules; \17\
---------------------------------------------------------------------------
\17\ Id. at 68515-68516.
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The enhanced vehicle inspection and maintenance program in
the Sacramento Metro Area meets the requirements of CAA section
182(c)(3) and 40 CFR 51.1102 for the 2008 ozone NAAQS; \18\
---------------------------------------------------------------------------
\18\ Id. at 68531.
---------------------------------------------------------------------------
The California SIP revision to opt out of the Federal
Clean Fuels Fleet Program meets the requirements of CAA sections
182(c)(4)(A) and 246 and 40 CFR 51.1102 for the 2008 ozone NAAQS with
respect to the Sacramento Metro Area; \19\ and,
---------------------------------------------------------------------------
\19\ Id.
---------------------------------------------------------------------------
The enhanced air quality monitoring in the Sacramento
Metro Area meets the requirements of CAA section 182(c)(1) and 40 CFR
51.1102 for the 2008 ozone NAAQS.\20\
---------------------------------------------------------------------------
\20\ Id. at 68531-68532.
---------------------------------------------------------------------------
Finally, under CAA section 110(k)(4), we proposed to approve
conditionally the contingency measures element of the Sacramento Metro
Area Ozone SIP as meeting the requirements of CAA sections 172(c)(9)
and 182(c)(9) for RFP and attainment contingency measures. Our proposed
approval was based on commitments by the Districts and CARB to
supplement the element through submission, as a SIP revision within one
year of our final conditional approval action, of new or revised rules
with more stringent requirements sufficient to produce near to one
year's RFP if an RFP milestone is not met, as well as continuing
emission reductions from State mobile source control measures.\21\
---------------------------------------------------------------------------
\21\ Id. at 68527-68529.
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Please see our proposed rule and the docket for more information
concerning the background of this final action and
[[Page 58584]]
for a detailed discussion of the rationale for approval or conditional
approval of the above-listed elements of the Sacramento Metro Area
Ozone SIP.
II. Public Comments and EPA Responses
The public comment period on the proposed rule opened on October
29, 2020, the date of its publication in the Federal Register, and
closed on November 30, 2020. During this period, the EPA received one
comment letter submitted by Air Law for All on behalf of the Center for
Biological Diversity and the Center for Environmental Health
(collectively referred to as ``CBD'' herein). Before we provide a
detailed summary of and response to each of these comments in Section
II.B, we provide a brief review of ozone chemistry and terminology as
it relates to our responses to comments concerning the Plan's use of
NOX substitution and the NOX-limited conditions
in the Sacramento Metro Area.
A. Review of Ozone Chemistry and NOX Substitution Effects
As explained in the proposed rule, ground-level ozone pollution is
formed from the reaction of volatile organic compounds (VOCs) and
NOX in the presence of sunlight. When VOC is abundant
compared to NOX, i.e., when there is a high ratio of VOCs
relative to NOX (``VOC:NOX ratio''),
NOX is a limiting ingredient for ozone formation, and
reducing NOX emissions causes ozone to decrease. An area
with these conditions may be described as ``NOX-limited,''
which is the terminology used in this notice. Elsewhere,
``NOX-limited'' is sometimes used in a stronger, relative
sense to mean that NOX emissions reductions are more
effective than VOC reductions at reducing ozone, and an area may be
described as ``NOX-limited'' or ``VOC-limited'' as a
shorthand for whether NOX or VOC emissions reductions are
more effective at reducing the area's ozone design value.\22\ In
contrast, in a ``NOX-saturated'' area where NOX
is abundant compared to VOC, i.e., when there is a low
VOC:NOX ratio, ozone concentrations typically increase with
NOX emission reductions, that is, there is a
``NOX disbenefit.'' \23\ Between the NOX-limited
and NOX-saturated ozone chemistry regimes, there is an
intermediate ``transitional'' regime where ozone responds weakly to
NOX emissions reductions. Which one of these three chemical
regimes exists for an area can depend on the season, time of day, and
the area's location relative to a source of NOX emissions.
As one moves farther downwind from an urban center, ozone formation
tends to become more NOX-limited, as the VOC:NOX
ratio increases. While there are continued VOC emissions in rural
areas, there are fewer new NOX emissions from combustion
sources, and some NOX deposits out of the atmosphere (in the
form of HNO3); as a result, peak ozone hours and downwind
locations are more NOX-limited than non-peak hours and
upwind or central locations.\24\ When an area reduces NOX
emissions more than VOC emissions, the VOC:NOX ratio
increases and the area can transition from NOX-saturated to
NOX-limited conditions. In general, areas in the United
States have become more NOX-limited over time, though
NOX-saturated areas and seasons remain.\25\
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\22\ For example, the Plan generally uses the term
``NOX-limited'' to mean that NOX emission
reductions in the Sacramento Metro Area are more effective than VOC
at decreasing ozone; e.g., 2017 Sacramento Regional Ozone Plan,
Appendix B-4, page B-146, Figure 13 (labeling as ``NOX-
limited'' the region of a typical ozone isopleth plot where
NOX reductions are more effective than VOC reductions).
\23\ A NOX disbenefit can occur under NOX-
saturated conditions because enough NOX is present to
interfere with ozone formation via VOC. VOC radicals require the
hydroxyl radical (OH) to form, but OH is made unavailable when
NOX combines with it to form nitric acid
(HNO3), which then deposits out of the atmosphere. A
reduction in NOX emissions reduces this OH sink reaction,
increasing the OH available to form VOC radicals and ozone.
\24\ Barbara J. Finlayson-Pitts and James N. Pitts Jr.,
``Tropospheric Air Pollution: Ozone, Airborne Toxics, Polycyclic
Aromatic Hydrocarbons, and Particles,'' Science, Vol. 276, May 16,
1997; EPA, U. S., Health Risk and Exposure Assessment for Ozone
Final Report. Office of Air Quality Planning and Standards: RTP, NC,
2014; EPA-452/R-14-004a, https://www.epa.gov/naaqs/ozone-o3-standards-risk-and-exposure-assessments-review-completed-2015.
\25\ Wolff, G.T., Kahlbaum, D.F., & Heuss, J.M., 2013. ``The
vanishing ozone weekday/weekend effect,'' Journal of the Air & Waste
Management Association), 63(3), 292-299, https://doi.org/10.1080/10962247.2012.749312 Jin et al., 2017, ``Evaluating a space-based
indicator of surface ozone NOX VOC sensitivity over
midlatitude source regions and application to decadal trends,''
Journal of Geophysical Research: Atmospheres, 122,10,439 10,461.
https://doi.org/10.1002/2017JD026720; Sicard et al, 2020, ``Ozone
weekend effect in cities: Deep insights for urban air pollution
control,'' Environmental Research, 191, 110193. https://doi.org/10.1016/j.envres.2020.110193.
---------------------------------------------------------------------------
NOX is emitted primarily in the form of nitric oxide
(NO), which becomes nitrogen dioxide (NO2) as it converts or
``titrates'' ozone (O3) to regular oxygen (O2).
Therefore, the initial effect of a NOX emissions increase
can be to decrease ozone immediately downwind of a NOX
source, such as downtown metropolitan areas or a large fossil fuel
burning power plant.\26\ Farther downwind from the NOX
source, however, the NOX can increase ozone, via reactions
with VOC. Conversely, the initial effect of a NOX emissions
reduction, which is mainly a NO reduction, can be to increase ozone
immediately downwind from the NOX source because there is
less remaining NO to titrate ozone to oxygen. Because of this
phenomenon, it may be impossible for an area to be ``NOX-
limited'' at all locations, at least with respect to a given change in
NOX emissions occurring just upwind of a given location or
monitor. Titration can occur under any ozone chemistry regime whether
NOX-saturation, NOX-transitional, or
NOX-limited.
---------------------------------------------------------------------------
\26\ EPA, Health Risk and Exposure Assessment for Ozone Final
Report, 2-5.
---------------------------------------------------------------------------
To summarize, under certain conditions, NOX emissions
can reduce existing ozone concentrations in nearby downwind areas
through titration and can interfere with the formation of ozone in
NOX-saturated areas. Reducing NOX emissions can
lessen these effects and lead to ozone increases. Reducing
NOX by a larger amount can, however, change the ozone
chemistry from NOX-saturated to NOX-limited,
meaning that NOX emission reductions can again result in
reduced ozone. The overall effect of NOX emissions on an
area's ozone chemistry depends on the location's existing mix of ozone
and VOCs, as well as the location relative to the source of
NOX emissions.
B. Response to Comments
Comment #1: CBD notes that CAA section 182(c)(2)(C) allows a state
to substitute NOX emissions reductions for the VOC
reductions otherwise required by CAA section 182(c)(2)(B)
(``NOX substitution'') if it demonstrates that the combined
VOC and NOX reductions ``would result in a reduction in
ozone concentrations at least equivalent'' to the reduction in ozone
concentrations achieved through VOC emissions reductions alone. CBD
argues that CAA section 182(c)(2)(C)'s use of the plural ``ozone
concentrations'' means that an equivalency demonstration at a single
monitoring site would be insufficient, and therefore asserts that
Congress intended the equivalence requirement to apply throughout the
nonattainment area. CBD interprets statements in the proposal that the
Sacramento Metro Area is NOX-limited to indicate that the
EPA agrees that equivalence must be demonstrated throughout the
nonattainment area and says that the EPA must confirm this
understanding in a final rule.
[[Page 58585]]
Response to Comment #1: The EPA disagrees that CAA section
182(c)(2)(C)'s use of the term ``ozone concentrations'' warrants the
commenter's narrow interpretation that equivalence must be specifically
demonstrated throughout a nonattainment area. As an initial matter, we
note that the Act commonly uses the term ``concentrations'' to refer
generally to ambient pollution levels at one or more (but not
necessarily multiple) monitors or locations.\27\ Moreover, CAA section
182(c)(2)(C) grants the EPA discretion to define the conditions under
which NOX reductions may be substituted for or combined with
VOC reductions ``in order to maximize the reduction in ozone air
pollution'' and does not further specify the conditions that represent
an ``equivalent'' reduction in ozone; for instance, it does not require
a specific concentration test at every monitor or at specific locations
within an area. No such requirement appears in the Act's other
provisions governing the RFP demonstration, which define specific
percentage reductions aimed at ensuring timely attainment of the
NAAQS,\28\ or in the EPA's 1993 NOX Substitution Guidance,
which describes a recommended procedure for states to utilize
NOX substitution.\29\ We interpret CAA 182(c)(2)(C) and
these supporting authorities as properly reflecting Congress' intent to
allow NOX reductions to be considered within an RFP
demonstration so long as these reductions are at least as effective in
reducing ozone consistent with the area's demonstration of timely
attainment.\30\
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\27\ E.g., CAA section 107(e)(2); CAA section 110(a)(5)(D).
\28\ E.g., CAA 182(b)(1) and (c)(2)(B); see also CAA 171(1)
(defining RFP as ``such annual incremental reductions in emissions
of the relevant air pollutant as are required by this part or may
reasonably be required by the Administrator for the purpose of
ensuring attainment of the applicable national ambient air quality
standard by the applicable date'').
\29\ NOX Substitution Guidance, Office of Air Quality
Planning and Standards, U.S. Environmental Protection Agency,
December 1993, available at https://archive.epa.gov/ttn/ozone/web/html/index-13.html.
\30\ See id. at 8, (quoting H. Rept. No. 490, 101st Cong., 2d
Sess. 239 (1990)), (``NOX reductions may not be
substituted for VOC reductions in a manner that delays attainment of
the ozone standard or that results in lesser annual reductions in
ozone concentration than provided for in the attainment
demonstration.'').
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Also, we disagree with the commenter's assertion that statements
from the proposed rule describing the Sacramento Metro Area as
NOX-limited convey the EPA's position that NOX
substitution requires a specific demonstration of equivalence
throughout all portions or monitors within a nonattainment area. As
described in our proposed rule and discussed further in our responses
below, NOX-limited conditions likely persist throughout the
Sacramento Metro Area, suggesting that NOX reductions will
generally be effective in reducing ozone concentrations; with these
statements, we intended no other suggestion regarding the demonstration
necessary to support NOX substitution. The EPA evaluates the
appropriateness of NOX substitution on a case-by-case
basis,\31\ considering the balance of available evidence to support the
efficacy of NOX reductions in reducing ambient ozone
concentrations as necessary for timely attainment, and consistent with
the requirements of CAA section 182(c)(2)(C).
---------------------------------------------------------------------------
\31\ NOX Substitution Guidance at 3 (``The EPA will
approve substitution proposals on a case-by-case basis. Generally
speaking, any reasonable substitution proposal will be approved.'');
also, id. at 1 (explaining that the Guidance's purpose is ``to
provide a procedure that can be applied to meet the post-1996
Section 182(c)(2)(B) RFP requirement as well as the Section
182(c)(2)(C) equivalency demonstration requirements'' (emphasis in
original).
---------------------------------------------------------------------------
In some areas, NOX emissions reductions may be needed
for attainment, even though it may not be possible to decrease ozone
concentrations simultaneously at all locations in the short term. For
example, in some NOX-limited areas, reducing NOX
emissions may represent the most effective or only approach to timely
attainment, but may nonetheless generate temporary ozone increases in
some locations due to NOX titration or local NOX-
saturated conditions. In these areas, we believe it is reasonable to
implement NOX reductions in lieu of some portion of the VOC
emissions reductions otherwise required for RFP as part of an area's
strategy for timely NAAQS attainment and notwithstanding limited short-
term increases, as an alternative to pursuing relatively ineffective
VOC controls. We discuss conditions for the Sacramento Metro Area in
detail below, including the relative importance and efficacy of
NOX reductions for attainment.
Comment #2: CBD comments that the Plan's evidence is equivocal and
insufficient to show that NOX substitution will result in
equivalent reductions in ozone concentrations throughout the
nonattainment area. According to the commenter, the Plan's analysis of
the ``weekend effect'' in the years 2000-2014 shows a shift to more
NOX-saturated conditions in the Western and Central
subregions of the Sacramento Metro Area and more transitional
conditions in the Eastern region, and this is not inconsistent with the
independent study of conditions in the years 2001-2007 cited by the
EPA. CBD says that this evidence is insufficient for the EPA to
rationally conclude that the entire nonattainment area is currently
NOX-limited, and that, at most, it can only be concluded
that the Eastern region is still NOX-limited. Furthermore,
CBD says that the EPA must consider changes in NOX emissions
occuring by 2024, such as the replacement of natural gas power plants
by less NOX-emitting sources, to determine whether the
entire Sacramento Metro Area will be NOX-limited through
2024.
The commenter characterizes the Plan's evidence as qualitative,
rather than quantitative. The commenter states that a qualitative
analysis does not address the possibility that NOX
reductions could change the characteristics of the area and argues that
the definition of the word ``equivalent'' as used in CAA section
182(c)(2)(C) requires a quantitative analysis, such as photochemical
grid modeling. The commenter notes that the Plan uses photochemical
grid modeling to analyze ozone sensitivity to NOX reductions
in the context of the attainment demonstration. CBD then states that
this modeling analysis is insufficient to support the Plan's conclusion
that the entire area is NOX-limited or to show equivalence
throughout the nonattainment area because the Plan includes one
isopleth diagram only for the Folsom monitoring site in the Eastern
subregion.\32\
---------------------------------------------------------------------------
\32\ An ``isopleth'' is a line connecting points having the same
value of a quantity, such as ozone concentration. Ozone isopleth
diagrams typically have a series of such lines to show the ozone
concentration for any combination of NOX and VOC
emissions, just as contour lines on a map show the elevation for any
combination of latitude and longitude.
---------------------------------------------------------------------------
According to the commenter, approving NOX substitution
based on a demonstration of equivalence at only one monitor or
subregion is arbitrary for two reasons, even if it does not cause other
monitors to exceed the 2008 ozone NAAQS. First, it may cause, or
interfere with resolving, violations of the more protective 2015 ozone
NAAQS in NOX-saturated areas (which the commenter says would
violate CAA section 110(l)). Second, increased ozone levels, even below
the NAAQS, may still result in injury to public health and welfare.
Response to Comment #2: The EPA disagrees that the Plan's evidence
is insufficient to support the use of NOX substitution under
CAA section 182(c)(2)(C). As discussed in our response to Comment 1,
use of NOX
[[Page 58586]]
substitution within an RFP demonstration does not require establishing
equivalent reductions in ozone concentrations throughout the
nonattainment area. As discussed in detail below, the Plan shows that,
overall, the area has transitioned from NOX-saturated to
NOX-limited as NOX emissions have declined, and
that NOX reductions are more effective than VOC reductions
on a percentage basis. Consistent with these conditions, the Sacramento
Metro Area has relied on, and continues to rely on, NOX
reductions to demonstrate attainment. While decreases in ozone
concentrations may have been delayed initially at some locations
because of the location-specific and complex behavior of NOX
in ozone formation, Sacramento Metro Area ozone design values have
shown a general downward trend at all monitors from 1990 to the
present, demonstrating that these locations have not experienced the
increased ozone design values of concern to the commenter, and that the
Plan demonstrates timely attainment of the NAAQS at all locations. For
these reasons and as addressed below, we find that the Plan provides
adequate evidence and justification for its use of NOX
substitution.
As we discussed in the proposed rule and our accompanying technical
support document, the State concludes that NOX reductions
are more effective than VOC reductions throughout the Sacramento Metro
Area.\33\ The State supports this conclusion with modeling and
monitoring of weekday-weekend differences in ozone formation and
citations to published research papers that study these differences and
the response to NOX reductions in detail, as described
below. The State estimates weekday-weekend differences in ozone
concentrations using the Community Multiscale Air Quality (CMAQ)
photochemical model as part of the air quality model's performance
evaluation for the 2012 base year, in conjunction with the attainment
demonstration. As described in the Plan, in the early 2000's the
western region of the Sacramento Metro Area exhibited a ``weekend
effect,'' in which weekend ozone concentrations were higher despite
having lower NOX emissions, suggesting a NOX
disbenefit at that time.\34\ The modeling results in the Plan show that
the average daily maximum ozone concentrations at all monitoring sites
are higher on weekdays, indicating that maximum ozone concentrations
are lower when NOX emissions are lower, and that peak ozone
formation is NOX-limited, at all monitoring sites. This is
illustrated in Figure 14 from Appendix B-4 of the 2017 Sacramento
Regional Ozone Plan, which shows average modeled 2012 weekday-weekend
ozone concentrations above a 1:1 line, i.e., higher weekday
concentrations, for all monitoring sites in each subregion in the
nonattainment area (Western, Central, and Eastern).
---------------------------------------------------------------------------
\33\ 85 FR 68509, 68520 (October 29, 2020); ``Modeling TSD--2017
Sacramento Regional Ozone Plan,'' September 14, 2020, Air and
Radiation Division, EPA Region IX, 25-26.
\34\ 2017 Sacramento Regional Ozone Plan, Appendix B-4, B-148;
CARB Staff Report B-33.
---------------------------------------------------------------------------
In addition, the modeled differences in ozone concentrations are
generally consistent with the monitored ambient concentrations.\35\
Monitored ozone concentrations included in the Plan for each year from
2000 to 2014 generally progressed from a NOX disbenefit,
i.e., higher weekend concentrations, to a NOX-limited or
transitional regime, i.e., weekend concentrations lower than or about
the same as weekday concentrations.\36\ The Eastern subregion has shown
higher concentration on weekdays than on weekends for the entire
period, i.e., no ``weekend effect''; this is evidence that ozone
formation is NOX-limited there. By 2014, the Western and
Central subregions of the Sacramento Metro Area show nearly identical
weekday and weekend concentrations, suggesting these areas had shifted
to a transitional regime by that time.\37\ For the Western subregion,
the Plan notes that the shift toward transitional conditions occurred
at ozone levels under 50 parts per billion (ppb), well below the 2008
ozone NAAQS of 75 ppb, meaning that these changes are not leading to
NAAQS exceedances. Indeed, monitoring sites in the Western subregion
have met the 75 ppb NAAQS from 2011 to the present day. Within the
Central subregion, ambient ozone data recorded for 2011-2014 show ozone
levels under 70 ppb.\38\
---------------------------------------------------------------------------
\35\ 2017 Sacramento Regional Ozone Plan, Appendix B-4, B-149,
Figure 14. For sites appearing just above the 1:1 line, modeled
weekday ozone is higher by only a small amount.
\36\ Id.
\37\ Id. The commenter has interpreted the presence of points
below the 1:1 line as evidence of NOX-saturated ozone
formation, but that interpretation would be supported only by points
much farther below the line.
\38\ 2017 Sacramento Regional Ozone Plan, Appendix B-4, B-148.
---------------------------------------------------------------------------
The Plan suggests that the shift to a transitional regime could be
explained by natural year-to-year variability in biogenic VOC emissions
and in local meteorology.\39\ This is consistent with the relatively
low level of biogenic VOC emissions during 2011-2014,\40\ which would
decrease the VOC:NOX ratio and shift the atmosphere toward a
transitional ozone formation regime (though not necessarily all the way
to NOX saturation). VOC emissions have also decreased
steadily from 2000 to the present day,\41\ and biogenic VOC emissions
in the Sacramento Metro Area, while variable, are about ten times
higher than those from anthropogenic sources.\42\ Accordingly, the
shift to smaller differences in weekday-weekend ozone concentrations
seen in 2014 could be the result of natural variability in biogenic VOC
emissions that causes some locations to be transitional or
NOX-saturated on some days.
---------------------------------------------------------------------------
\39\ Id.
\40\ 2017 Sacramento Regional Ozone Plan Appendix B-2, B-31 and
B-34.
\41\ CARB Staff Report, B-16.
\42\ CARB Staff Report, B-7.
---------------------------------------------------------------------------
The Plan also suggests variability in meteorology as a factor in
shifting ozone chemistry between NOX-limited and
NOX-disbenefit regimes.\43\ The Plan cites a research paper
that examined the effect of temperature and found that ``the average
O3 is higher on weekends than on weekdays only for the
lowest temperature days.'' \44\ Natural annual variability also applies
to the degree of pollutant carryover from one day to the next day; day-
to-day carryover can mix weekday and weekend pollutants, making
weekdays and weekends appear to be more similar. In addition, the
NOX emissions reductions that have occurred from 2000 to the
present day have decreased the difference between weekday and weekend
NOX emissions, which would also decrease the differences in
weekday and weekend ozone concentrations.
---------------------------------------------------------------------------
\43\ 2017 Sacramento Regional Ozone Plan Appendix B-4, B-148.
\44\ LaFranchi, B.W., Goldstein, A.H., and Cohen, R.C., 2011,
``Observations of the temperature dependent response of ozone to
NOX reductions in the Sacramento, CA urban plume,''
Atmospheric Chemistry and Physics, 11, 6945-6960, https://doi.org/10.5194/acp-11-6945-2011, 6954 (``LaFranchi et al. 2011'').
---------------------------------------------------------------------------
Although these plots of weekday-weekend ozone differences provide a
useful indicator, they are not a definitive description of the ozone
chemistry involved. The plots show only the resulting ozone
concentrations, not any ozone precursors or meteorology whose
interaction results in those concentrations. Furthermore, the weekday-
weekend plots show just a single point for each monitor-year
combination, the average over a year's summer days of daily maximum 8-
hour ozone concentrations, rather than a point for each day. Ozone
concentrations vary between the days of
[[Page 58587]]
a single year, not just between years. A data point near the 1:1 line
may indicate that weekday-weekend differences are small due to
transitional chemistry on every individual day. Alternatively, it could
indicate that positive differences balance out negative ones, due to a
mix of high-ozone NOX-limited days and low-ozone
NOX-saturated or transitional days. This would mean that
NOX-saturated days with lower ozone concentrations and less
regulatory and health significance would be masking NOX-
limited days with higher ozone concentrations and greater significance.
In the context of the analyses and evidence presented in the Plan, the
smaller weekday-weekend differences in ozone concentrations in 2014 do
not indicate a change in ozone chemistry that would suggest a control
strategy failure or an unknown phenomenon. As the State explains,
variability in biogenic VOC emissions and in meteorology provide an
explanation for some locations being transitional or NOX-
saturated on some days. We agree with the State that the weekday-
weekend analyses support the conclusion that ozone formation in the
Sacramento Metro Area is mainly in a NOX-limited regime,
with some periods in a NOX-transitional regime, and that
there is no disbenefit from NOX controls. Next, we review
and present additional research evidence from the Plan that further
supports our conclusion that the Sacramento Metro Area's ozone
chemistry is NOX-limited.
To supplement the analysis of weekday-weekend conditions, the Plan
cites several research and analysis papers examining daily and hourly
concentrations of ozone, NOX, and VOC in the years prior to
2011, which support the conclusion that ozone formation in the
Sacramento area is currently NOX-limited. Two related papers
by Murphy et al., from 2006 and 2007, examine monitored data from 1998-
2002 for the Central and Eastern subregions of the Sacramento Metro
Area.\45\ As described in these papers, the ``weekend effect,'' i.e.,
conditions in which ozone concentrations are higher on weekends, was
observed for monitoring sites in the Sacramento Valley (corresponding
to the Central subregion).\46\ The researchers attributed this largely
to NOX titration from mobile source emissions in urban
Sacramento.\47\ For the Mountain Counties of the Eastern subregion, the
researchers found that weekday ozone concentrations were higher,
consistent with NOX-limited conditions.\48\ The researchers'
analysis suggests that under conditions of high concentrations of ozone
and precursors flowing in from other urban areas, NOX
emission reductions of 50 percent or more would be needed to guarantee
lower rates of ozone production in the Sacramento Valley portions
studied, corresponding to the Central and Eastern subregions.\49\ In
comparison to this prospective analysis, NOX emissions in
the Sacramento Metro Area have decreased by 58 percent between 2000 and
2015. Thus, the work of Murphy et. al., along with subsequent
NOX emissions reductions, suggest that the full Sacramento
Metro Area should currently be NOX-limited.
---------------------------------------------------------------------------
\45\ Murphy, J.G., Day, D.A., Cleary, P.A., Wooldridge, P.J.,
Millet, D.B., Goldstein, A.H., and Cohen, R.C., 2007, ``The weekend
effect within and downwind of Sacramento--Part 1: Observations of
ozone, nitrogen oxides, and VOC reactivity,'' Atmos. Chem. Phys., 7,
5327-5339, https://doi.org/10.5194/acp-7-5327-2007 (``Murphy et al.
2007''); Murphy, J.G., Day, D.A., Cleary, P.A., Wooldridge, P.J.,
Millet, D.B., Goldstein, A.H., and Cohen, R.C., 2006, ``The weekend
effect within and downwind of Sacramento: Part 2. Observational
evidence for chemical and dynamical contributions,'' Atmos. Chem.
Phys. Discuss., 6, 11971-12019, https://doi.org/10.5194/acpd-6-11971-2006 (``Murphy et al. 2006'').
\46\ Murphy et al., 2007 at 5332.
\47\ Murphy et al., 2007 at 5336; Murphy et. al., 2006 at 11972.
\48\ Murphy et al., 2007 at 5336.
\49\ Murphy et al., 2006 at 11996.
---------------------------------------------------------------------------
LaFranchi et al., 2011 examines monitored data from 2001-2007 for
the Central and Eastern subregions.\50\ These researchers found
NOX-saturated conditions in the urban core, but mainly at
lower temperatures and lower ozone concentrations, and determined that
NOX emissions reductions were effective at reducing maximum
ozone concentrations.\51\ The researchers also found no evidence that
NOX reductions have been detrimental to air quality. For
example, the researchers found that the 30 percent decrease in
NOX and other nitrogen photochemical products from 2001 to
2007 was ``extremely effective in reducing the exceedance probability
at all locations during the hottest days of the year'' when increases
in biogenic emissions result in more NOX-limited
conditions.\52\ Furthermore, the researchers note that:
---------------------------------------------------------------------------
\50\ LaFranchi et al., 2011 at 6945-6960.
\51\ Id. at 6954.
\52\ Id.
It has been argued . . . that NOX decreases cause
O3 increases in the center of cities and are more
detrimental to health because of the larger number of people who
live in the urban core as opposed to the surrounding suburbs and
rural regions. . . . We find that between 2001 and 2007, the average
O3 is higher on weekends than on weekdays only for the
lowest temperature days . . . well below the exceedance limit
[California 1-hour standard of 90 ppb], increases in O3
with decreasing NOX are not likely to lead to additional
exceedances. Thus, we find no evidence that implementation of
NOX emission controls has been detrimental to air
quality, by any policy-relevant metric.\53\
---------------------------------------------------------------------------
\53\ Id. at 6954-6955.
Since NOX emissions examined in the Plan and today are
now lower \54\ than during the periods examined in these research
papers, ozone formation is now expected to be within a more
NOX-limited regime. As a result, current conditions are
consistent with and fit the predictions in LaFranchi et al., that
NOX emissions reductions decrease ozone concentrations in
the Eastern subregion and more recently in the Central subregion; the
possible exception being when ozone levels are already low, i.e., well
below the 2008 NAAQS.
---------------------------------------------------------------------------
\54\ Anthropogenic VOC emissions have also decreased, but
because biogenic emissions are so much greater, the overall effect
of the NOX and VOC reductions has been to increase the
VOC/NOX ratio, resulting in more NOX-limited
ozone chemistry.
---------------------------------------------------------------------------
Overall, the State's evidence presented in the Plan suggests that
NOX reductions are more effective than VOC reductions at
decreasing ozone concentrations in the Sacramento Metro Area. For
example, LaFranchi et al., observe that ``the intensity of biogenic VOC
emissions have made NOX emission reductions more effective
than anthropogenic VOC emission reductions in the region, at least
downwind of Del Paso [i.e., within the Central and Eastern
subregions].'' \55\ The Plan's ozone isopleth diagram for the Folsom
monitor \56\ also provides strong evidence that NOX emission
reductions are more effective than VOC reductions. The State generated
this diagram using photochemical grid modeling to simulate various
combinations of NOX and VOC emissions reductions and
plotting the resulting ozone concentrations for the Folsom monitor, the
ambient ozone monitor with the highest ozone design value in the
Sacramento Metro Area. The diagram shows a nearly horizontal slope of
the isopleth lines, indicating that ozone formation in the Folsom area
is much more responsive to NOX emission reductions than to
VOC reductions.\57\ As discussed in the proposed rule for this action,
the EPA estimated from the ozone isopleth diagram in the Plan that
ozone formation is about 14 times as
[[Page 58588]]
sensitive to NOX reductions than to VOC reductions on a
percentage basis, and about 24 times as sensitive on a tons-per-year
basis.\58\ Because the Plan demonstrates a shift to NOX-
limited conditions throughout all subregions in the area through its
review of relevant research and includes additional modeling evidence
at the Folsom monitor to support the Plan's reliance on NOX
emissions reductions to achieve attainment, we disagree with CBD that
additional evidence is needed to support the use of NOX
substitution under CAA section 182(c)(2)(C).
---------------------------------------------------------------------------
\55\ LaFranchi et al. 2011 at 6958. Id. at 6946-6947, which
notes that VOC reactivity is controlled primarily by biogenic
emissions, including the urban core. This suggests that reducing
anthropogenic VOC emissions may be relatively ineffective for
reducing ozone.
\56\ 2017 Sacramento Regional Ozone Plan Appendix B-4, B-158,
Figure 16.
\57\ Id.
\58\ 85 FR 68509, 68522 (October 29, 2020).
---------------------------------------------------------------------------
We also disagree with the commenter's assertion that our proposed
approval does not consider emissions changes through 2024. The Folsom
isopleth diagram that supports the Plan's comparison of pre-2015
monitored weekday-weekend data shows that NOX reductions are
far more effective than VOC emissions based on 2026 emissions and
including changes through and after 2024.\59\ Furthermore, the changes
in emissions through 2024 posited by the commenter would not alter the
EPA's conclusion that NOX substitution is appropriate.
Indeed, we anticipate that the replacement of NOX combustion
sources with wind and solar electricity generation, as well as
continuing mobile source NOX reductions through 2024 and
beyond, will make the Sacramento Metro Area even more NOX-
limited, thereby further strengthening the Plan's conclusions regarding
the efficacy of NOX emissions reductions compared to VOC
reductions.
---------------------------------------------------------------------------
\59\ Plan Appendix B-4, B-158.
---------------------------------------------------------------------------
The EPA also disagrees that an equivalence demonstration requires a
quantitative analysis. Depending on the facts and circumstances of a
given nonattainment area, analytical information that establishes
equivalence may be quantitative or qualitative, or both. In this
instance, some of the evidence relied upon could be termed qualitative,
such as the shape of curves in the isopleth diagram.\60\ The Plan's
modeling and monitoring analyses, and the analyses used in the cited
research papers, are predominantly quantitative, with qualitative
aspects and some qualitative conclusions. Qualitative evidence can be
just as useful as quantitative evidence. For NOX
substitution to yield an equivalent ozone decrease, as required in CAA
section 182(c)(2)(C), a demonstration is adequate if it shows that
NOX reductions are more effective than VOC reductions--it
does not need to quantify an exact amount by which these reductions are
more effective.
---------------------------------------------------------------------------
\60\ These curves are partly quantified by the proposed rule's
estimate that NOX emissions reductions are 14 times as
effective as VOC reductions.
---------------------------------------------------------------------------
We also disagree with CBD's suggestion that the overall geographic
distribution of NOX and VOC emissions would be significantly
affected by realistic and incremental changes in these emissions.
Incremental changes resulting from the construction or closing of
NOX point sources would not affect the preponderance of
NOX emissions from mobile sources in the developed urban
area, when compared to the lower NOX emissions in suburban
and rural areas. These changes would also not significantly affect the
reverse pattern of relatively more VOC emissions (from biogenic
sources) in rural areas compared to urban areas. Such small changes in
overall NOX or VOC emissions would merely affect the degree
and amount by which NOX reductions are shown to be more
effective than VOC reductions. Consequently, the EPA's overall
conclusion that NOX substitution within the Plan meets the
requirements of CAA section 182(c)(2)(C) remains unchanged.
Regarding CBD's concern that ambient ozone data from a single
monitoring site is inadequate to demonstrate equivalency, we agree that
this could be problematic in some circumstances but disagree that this
is a problem for the Sacramento Metro Area, for two reasons. First, as
discussed previously, in concluding that NOX emissions
reductions are more effective than VOC reductions at reducing ozone,
the State considered studies of ozone response at monitoring sites
throughout the nonattainment area as part of the Plan. Second, the Plan
demonstrates attainment at all monitoring sites, and its conclusion
that NOX reductions are more effective than VOC for the site
with the highest design value, i.e., the Folsom monitoring site, the
``controlling'' site for determining whether or not the NAAQS is
attained in the Sacramento Metro Area, therefore ensures that
NOX reductions will be effective in achieving ozone
reductions that will help the nonattainment area toward attainment in
all sub-regions. We anticipate that any increase in ozone
concentrations that might result from NOX emission
reductions would be only small, transient, and affect locations with
ozone concentrations well below the NAAQS. These ozone increases would
typically occur under low temperature conditions, with corresponding
low ozone concentrations well below the NAAQS, not at elevated ozone
concentrations that could affect public health or interfere with
attainment of the 2015 ozone NAAQS. As noted above, ambient ozone data
recorded in the Central subregion of the Sacramento Metro Area between
2011 and 2014 already show ozone levels under 70 ppb, the concentration
that the EPA has established as the 2015 ozone NAAQS.
Concerning future air quality planning for the 2015 ozone NAAQS,
the State has requested that the EPA reclassify the Sacramento Metro
nonattainment area as a Serious nonattainment area, and the attainment
plan for Serious areas is not yet due. The EPA has proposed to require
that the State submit an attainment plan for the 2015 ozone NAAQS for
the Sacramento Metro Area by August 3, 2022.\61\ As proposed, this plan
will be required to demonstrate, through photochemical grid modeling
and other demonstrations, that all portions of the Sacramento Metro
Area will attain the 2015 NAAQS by no later than August 3, 2027. Based
on conditions in this area as described above and in the proposed rule
and the Plan, we anticipate that NOX reductions, including
those used to demonstrate attainment of the 2008 ozone NAAQS, will
remain a critical piece of the State's control strategy to meet the
2015 ozone NAAQS. Accordingly, we disagree with CBD's assertion that
the Plan's use of NOX substitution will interfere with
attainment of the newer and more stringent ozone standards in the
Sacramento Metro Area or violate CAA section 110(l).
---------------------------------------------------------------------------
\61\ 86 FR 44677, 44678 (August 13, 2021).
---------------------------------------------------------------------------
Comment #3: CBD states that an equivalence demonstration should be
as rigorous as an attainment demonstration; as such, an equivalence
demonstration should be based on photochemical modeling or another
equally rigorous technique. The commenter suggests that the State could
compare modeled relative response factors (RRFs) for each RFP milestone
year for the 3 percent per year VOC reductions to corresponding RRFs
from the control strategy, or the State could use ozone isopleth
diagrams together with conservative assumptions about the amount of
allowable NOX substitution. The commenter acknowledges that
section 182(c)(2)(C) does not explicitly prescribe the use of
photochemical grid modeling or an equally rigorous method and argues
that this does not mean that section 182(c)(2)(C) is worthy of a less
rigorous demonstration. The commenter argues that Congress added the
RFP provisions to the CAA in response to the EPA's failure to address
ozone pollution under
[[Page 58589]]
the general requirements for attainment demonstrations in subpart 1 of
the CAA. The commenter states that, in any case, it would be arbitrary
for the EPA to ignore the entire nonattainment area except for the
isopleths at the Folsom monitor and the Eastern region weekend effect
in assessing the equivalence demonstration.
Response to Comment #3: The EPA disagrees that an equivalence
demonstration for purposes of CAA section 182(c)(2)(C) must be as
technically rigorous as a NAAQS attainment demonstration. As the
commenter notes, CAA section 182(c)(2)(C) does not require the use of
photochemical grid modeling to demonstrate the relative effectiveness
of NOX and VOC emissions reductions in reducing ozone
concentrations, whereas CAA section 182(c)(2)(A) explicitly requires
photochemical grid modeling or another equivalent analytical method as
part of the attainment demonstration. Instead, Congress provided the
EPA with discretion to evaluate state demonstrations supporting
NOX substitution, and to define the conditions under which
NOX substitution is appropriate ``in order to maximize the
reduction in ozone air pollution.'' \62\ We believe that this approach
reflects an appropriate balance in the level of analysis required for
demonstrating attainment by the attainment date, and for the supporting
evaluation of the relative effectiveness of potential measures and
reductions used to meet RFP milestones. Consequently, we disagree that
a NOX equivalence demonstration for RFP purposes must
reflect the same or equally rigorous analytical methods as used in the
attainment demonstration. As discussed previously, a qualitative
analysis may show that NOX reductions are more effective
than VOC reductions and be adequate for purposes of allowing
NOX substitution under section 182(c)(2)(C). As described
above, we proposed to approve the RFP demonstration and its use of
NOX substitution based on our analyses of the photochemical
modeling results included in the attainment demonstration and the
Folsom isopleth diagram, the other monitoring data from the Plan, and
the research papers and analyses cited within. Collectively, these
analyses and data show that NOX emissions reductions are
effective at reducing ozone throughout the Sacramento Metro Area and
are more effective than VOC reductions at bringing the area into
attainment of the NAAQS. Accordingly, we support the Plan's use of
NOX substitution.
---------------------------------------------------------------------------
\62\ CAA section 182(c)(2)(C).
---------------------------------------------------------------------------
Comment #4: CBD comments that the EPA has not demonstrated that the
approval of NOX substitution complies with Executive Order
12898, which expresses the EPA's obligation to identify and address
disproportionate impacts of its actions on minority populations and
low-income populations, i.e., environmental justice (EJ) communities.
The commenter asserts that because the EPA is not applying the
NOX Substitution Guidance in evaluating the Plan's use of
NOX substitution, it is exercising discretion, and should
use this discretion to require the State to demonstrate equivalence at
each monitoring site through photochemical modeling of the relevant
scenarios. Furthermore, the commenter says that because the record does
not support the EPA's conclusion that NOX substitution will
result in equivalent reductions in ozone concentrations throughout the
area, EJ communities may be disproportionately and adversely impacted
by the EPA's action by experiencing fewer reductions in ozone than
would be achieved through VOC reductions alone, or even ozone
increases. The commenter suggests that the EPA could exercise
discretion to disapprove the Plan on this basis, and that this
disapproval could result in the EPA issuing a Federal implementation
plan requiring additional emissions reductions to ensure equivalent
reductions in ozone concentrations. The commenter states that it is not
a sufficient response to say that approving the Plan will have no
adverse impact to EJ communities because it improves the status quo by
making State law federally enforceable. The commenter provides a map
generated using CalEnviroScreen, showing EJ communities concentrated in
the Central subregion where the commenter asserts that the Plan does
not demonstrate equivalence.
Response to Comment #4: As explained in our previous responses, the
EPA and the State have determined that NOX reductions are
critical to the Sacramento Metro Area's attainment of the 2008 ozone
NAAQS and we anticipate that any localized increase in ozone
concentrations resulting from these NOX reductions would be
minor, transitory, and occur well below the limits established by the
NAAQS. Furthermore, we find that the Plan appropriately focuses on
ozone reductions in the regions subject to the highest ozone
concentrations, e.g., the eastern region and design value monitor at
Folsom, where adverse health impacts are most likely to occur. In this
context, we disagree that the use of NOX substitution is
inappropriate even if it may generate disproportionate reductions in
ozone concentrations within high ozone and NOX-limited
areas.
Executive Order 12898, ``Federal Actions To Address Environmental
Justice in Minority Populations and Low-Income Populations,'' directs
Federal agencies to identify and address ``disproportionately high and
adverse human health or environmental effects'' of their actions on
minority populations and low-income populations to the greatest extent
practicable and permitted by law.\63\ Given our conclusion that the
Plan satisfies all applicable CAA requirements related to demonstrating
expeditious attainment of the ozone NAAQS, including the requirements
for RFP and NOX substitution,\64\ we have no basis to
conclude that this action will cause disproportionately high or adverse
human health or environmental effects on any population, including any
minority, low-income, or indigenous population. Under the CAA, the EPA
is required to approve a SIP submission that satisfies the requirements
of the Act and applicable Federal regulations,\65\ and Executive Order
12898 does not provide an independent basis for disapproving such a SIP
submission. The EPA remains committed, however, to working with CARB
and the local air districts in the Sacramento Metro Area to ensure that
the ozone attainment plans for this area satisfy CAA requirements for
attainment and RFP and thereby protect all populations in the area,
including minority, low-income, and indigenous populations, from
disproportionately high or adverse air pollution impacts.
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\63\ 59 FR 7629 (February 16, 1994).
\64\ Our response to Comment #7 discusses our reasons for
deferring action on the State's contingency measures revision.
\65\ CAA section 110(k); 40 CFR 52.02(a).
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Comment #5: CBD comments that the proposed rule fails to
acknowledge the EPA's NOX Substitution Guidance, and that
the EPA should explicitly disavow the guidance and its justifications.
The commenter says that there is no basis for this guidance and
suggests that the EPA's prior use of the guidance may have caused
increases in asthma, hospital and emergency room visits, and premature
mortality. An appendix to the comments provides numerous comments
directed at the NOX Substitution Guidance, asserting
generally that this guidance contradicts CAA section 182(c)(2)(C) by
recommending a procedure that fails to
[[Page 58590]]
demonstrate any equivalence between VOC and NOX reductions,
relies on incorrect policy assumptions, and gives legal justifications
that are without merit.
Response to Comment #5: Our proposed approval of the Plan's use of
NOX substitution is compatible with the NOX
Substitution Guidance, which, while non-binding and not having the
force of regulation, provides a recommended procedure for substituting
NOX emission reductions for VOC reductions on a percentage
basis, consistent with a state's ozone attainment plan, control
strategy, modeled attainment demonstration, and RFP milestones and
requirements. The NOX Substitution Guidance specifies that
the EPA will review NOX substitution on a case-by-case basis
and will generally approve reasonable NOX substitution
proposals.\66\ As noted in our proposed rule and described above, our
approval of the State's reasonable use of NOX substitution
is supported by local conditions and needs as documented in the
modeling and analyses included in the Sacramento Metro Ozone SIP and is
consistent with the requirements in CAA section 182(c)(2)(C).\67\
---------------------------------------------------------------------------
\66\ NOX Substitution Guidance at 3 (``The EPA will
approve substitution proposals on a case-by-case basis. Generally
speaking, any reasonable substitution proposal will be approved.'').
\67\ See id. at 1 (recognizing that ``NOX controls
may effectively reduce ozone in many areas, and that the design of
strategies is more efficient when the characteristic properties
responsible for ozone formation and control are evaluated for each
area'').
---------------------------------------------------------------------------
To be clear, our action on the Plan is not intended to disavow or
rescind any portion of the NOX Substitution Guidance.
Comments relating solely to the NOX Substitution Guidance
are outside the scope of this rulemaking action.
Comment #6: CBD argues that, because the Plan does not meet the
requirements for RFP, the EPA cannot determine that the MVEBs are
allowable as a portion of the total allowable emissions for
demonstrating RFP. The commenter asserts that because there is no
measure of total allowable emissions for RFP in the absence of an
approvable plan, the EPA has no basis for approval of the MVEBs.
Response to Comment #6: For the reasons described above in our
previous responses to comments, we have determined that the State's use
of NOX substitution is appropriate and adequately supported
within the Plan, consistent with the RFP and attainment demonstrations,
and that the Plan's RFP demonstration is approvable. Consequently, we
disagree with the commenter and their rationale suggesting that our
approval of the MVEBs is inappropriate.
Comment #7: CBD challenges the EPA's proposed conditional approval
of the contingency measures as arbitrary and capricious and contrary to
law, based on CAA requirements and interpreting case law. The commenter
asserts that the EPA must disapprove the contingency measures.
Response to Comment #7: As explained in the proposed rule, our
proposed conditional approval of the State's RFP and attainment
contingency measures was based on commitments from the State and
Districts in the context of additional emissions reductions in the RFP
milestone years and in the year following the attainment year.
Following publication of the proposed rule, the Ninth Circuit Court of
Appeals issued a decision in Association of Irritated Residents v. U.S.
Environmental Protection Agency, which remanded the EPA's conditional
approval of contingency measures for another California nonattainment
area.\68\ Based on this decision, we are not finalizing our proposed
conditional approval of the Plan's contingency measures at this time.
Consequently, CBD's comments on this issue are outside the scope of
this final action and we are not providing specific responses to these
comments.
---------------------------------------------------------------------------
\68\ Association of Irritated Residents v. U.S. Environmental
Protection Agency, No. 19-71223 (9th Cir. Aug. 26, 2021).
---------------------------------------------------------------------------
III. Final Action
For the reasons discussed in detail in the proposed rule and
summarized herein, under CAA section 110(k)(3), the EPA is taking final
action to approve as a revision to the California SIP the following
portions of the Sacramento Metro Area Ozone SIP, as provided within the
2017 Sacramento Regional Ozone Plan and the Sacramento Metro portion of
CARB's 2018 SIP Update:
The base year emissions inventory element in the 2017
Sacramento Regional Ozone Plan meets the requirements of CAA sections
172(c)(3) and 182(a)(1) and 40 CFR 51.1115 for the 2008 ozone NAAQS;
The RACM demonstration element in the 2017 Sacramento
Regional Ozone Plan meets the requirements of CAA section 172(c)(1) and
40 CFR 51.1112(c) for the 2008 ozone NAAQS;
The attainment demonstration element for the 2008 ozone
NAAQS in the 2017 Sacramento Regional Ozone Plan meets the requirements
of CAA section 182(c)(2)(A) and 40 CFR 51.1108;
The ROP demonstration element in the 2017 Sacramento
Regional Ozone Plan meets the requirements of CAA 182(b)(1) and 40 CFR
51.1110(a)(2) for the 2008 ozone NAAQS;
The RFP demonstration element in Section V--SIP Elements
for the Sacramento Metropolitan Area of the 2018 SIP Update (as
clarified) meets the requirements of CAA sections 172(c)(2), 182(b)(1),
and 182(c)(2)(B), and 40 CFR 51.1110(a)(2)(ii) for the 2008 ozone
NAAQS;
The VMT emissions offset demonstration element in the 2017
Sacramento Regional Ozone Plan meets the requirements of CAA section
182(d)(1)(A) and 40 CFR 51.1102 for the 2008 ozone NAAQS; and
The motor vehicle emissions budgets in Section V--SIP
Elements for the Sacramento Metropolitan Area of the 2018 SIP Update
for the RFP milestone year of 2023, and the attainment year of 2024 are
consistent with the RFP and attainment demonstrations for the 2008
ozone NAAQS, and the budgets meet the other criteria in 40 CFR
93.118(e). In approving the budgets, we are also finding them adequate
for use in transportation conformity determinations, consistent with 40
CFR 93.118(f)(2).
Table 1--Transportation Conformity Motor Vehicle Emissions Budgets for
the 2008 Ozone NAAQS in the Sacramento Metro Area
[Summer planning inventory, tons per day]
------------------------------------------------------------------------
Budget year VOC NOX
------------------------------------------------------------------------
2023.................................... 15 22
2024.................................... 15 21
------------------------------------------------------------------------
Source: 85 FR 68509; Id. at 68530, Table 9; and 2018 SIP Update, Table V-
4.
[[Page 58591]]
We also find that the:
Emissions statement element of the 2017 Sacramento
Regional Ozone Plan satisfies the requirements under CAA section
182(a)(3)(B) based on our prior approval of the Districts' emissions
statement rules;
Enhanced vehicle inspection and maintenance program in the
Sacramento Metro Area meets the requirements of CAA section 182(c)(3)
and 40 CFR 51.1102 for the 2008 ozone NAAQS;
California SIP revision to opt out of the Federal Clean
Fuels Fleet Program meets the requirements of CAA sections 182(c)(4)(A)
and 246 and 40 CFR 51.1102 for the 2008 ozone NAAQS with respect to the
Sacramento Metro Area; and
Enhanced monitoring in the Sacramento Metro Area meets the
requirements of CAA section 182(c)(1) and 40 CFR 51.1102 for the 2008
ozone NAAQS.
To conclude, we are deferring final action on the contingency
measures element of the Sacramento Metro Area Ozone SIP as meeting the
requirements of CAA sections 172(c)(9) and 182(c)(9).
IV. Statutory and Executive Order Reviews
Under the Clean Air Act, the Administrator is required to approve a
SIP submission that complies with the provisions of the Act and
applicable Federal regulations. 42 U.S.C. 7410(k); 40 CFR 52.02(a).
Thus, in reviewing SIP submissions, the EPA's role is to approve state
choices provided they meet the criteria of the Clean Air Act.
Accordingly, this action merely approves state plans as meeting Federal
requirements and does not impose additional requirements beyond those
imposed by state law. For that reason, this action:
Is not a ``significant regulatory action'' subject to
review by the Office of Management and Budget under Executive Orders
12866 (58 FR 51735, October 4, 1993) and 13563 (76 FR 3821, January 21,
2011);
Does not impose an information collection burden under the
provisions of the Paperwork Reduction Act (44 U.S.C. 3501 et seq.);
Is certified as not having a significant economic impact
on a substantial number of small entities under the Regulatory
Flexibility Act (5 U.S.C. 601 et seq.);
Does not contain any unfunded mandate or significantly or
uniquely affect small governments, as described in the Unfunded
Mandates Reform Act of 1995 (Pub. L. 104-4);
Does not have federalism implications as specified in
Executive Order 13132 (64 FR 43255, August 10, 1999);
Is not an economically significant regulatory action based
on health or safety risks subject to Executive Order 13045 (62 FR
19885, April 23, 1997);
Is not a significant regulatory action subject to
Executive Order 13211 (66 FR 28355, May 22, 2001);
Is not subject to requirements of Section 12(d) of the
National Technology Transfer and Advancement Act of 1995 (15 U.S.C. 272
note) because application of those requirements would be inconsistent
with the Clean Air Act; and
Does not provide the EPA with the discretionary authority
to address disproportionate human health or environmental effects with
practical, appropriate, and legally permissible methods under Executive
Order 12898 (59 FR 7629, February 16, 1994).
In addition, the SIP is not approved to apply on any Indian
reservation land or in any other area where the EPA or an Indian tribe
has demonstrated that a tribe has jurisdiction. Four Indian tribes have
areas of Indian country located within the boundaries of the Sacramento
Metro ozone nonattainment area. In those areas of Indian country, the
rule does not have tribal implications and will not impose substantial
direct costs on tribal governments or preempt tribal law as specified
by Executive Order 13175 (65 FR 67249, November 9, 2000).
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. The EPA will submit a report containing this action 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).
Under section 307(b)(1) of the Clean Air Act, petitions for
judicial review of this action must be filed in the United States Court
of Appeals for the appropriate circuit by December 21, 2021. Filing a
petition for reconsideration by the Administrator of this final rule
does not affect the finality of this action for the purposes of
judicial review nor does it extend the time within which a petition for
judicial review may be filed, and shall not postpone the effectiveness
of such rule or action. This action may not be challenged later in
proceedings to enforce its requirements. (See section 307(b)(2)).
List of Subjects in 40 CFR Part 52
Environmental protection, Air pollution control, Incorporation by
reference, Intergovernmental relations, Nitrogen dioxide, Ozone,
Reporting and recordkeeping requirements, Volatile organic compounds.
Authority: 42 U.S.C. 7401 et seq.
Dated: October 9, 2021.
Deborah Jordan,
Acting Regional Administrator, Region IX.
Chapter I, title 40 of the Code of Federal Regulations is amended
as follows:
PART 52--APPROVAL AND PROMULGATION OF IMPLEMENTATION PLANS
0
1. The authority citation for part 52 continues to read as follows:
Authority: 42 U.S.C. 7401 et seq.
Subpart F--California
0
2. Section 52.220 is amended by adding paragraphs (c)(514)(ii)(A)(10)
and (c)(566) to read as follows:
Sec. 52.220 Identification of plan--in part.
* * * * *
(c) * * *
(514) * * *
(ii) * * *
(A) * * *
(10) 2018 Updates to the California State Implementation Plan,
adopted on October 25, 2018, chapter V (``SIP Elements for the
Sacramento Metropolitan Area''), excluding section V.D (``Contingency
Measures''); and pages A-15 through A-18 of Appendix A (``Nonattainment
Area Inventories'').
* * * * *
(566) The following plan was submitted on December 18, 2017 by the
Governor's designee.
(i) [Reserved]
(ii) Additional materials. (A) Sacramento Metropolitan Area 2008 8-
Hour Ozone National Ambient Air Quality Standard Planning Area.
(1) Sacramento Regional 2008 NAAQS 8-Hour Ozone Attainment and
Reasonable Further Progress Plan, dated July 24, 2017, excluding the
following portions: Subchapter 7.9, ``Contingency Measures'';
subchapter 10.5, ``Proposed New Motor Vehicle Emissions Budgets''; and
chapter 12 (regarding reasonable further progress).
[[Page 58592]]
(2) [Reserved]
(B) [Reserved]
[FR Doc. 2021-22661 Filed 10-21-21; 8:45 am]
BILLING CODE 6560-50-P
