FILED
United States Court of Appeals
PUBLISH Tenth Circuit
UNITED STATES COURT OF APPEALS April 29, 2021
Christopher M. Wolpert
FOR THE TENTH CIRCUIT Clerk of Court
_________________________________
RIO HONDO LAND & CATTLE
COMPANY, L.P.,
Petitioner,
v. No. 19-9531
UNITED STATES ENVIRONMENTAL
PROTECTION AGENCY,
Respondent.
------------------------------
VILLAGE OF RUIDOSO; CITY OF
RUIDOSO DOWNS,
Intervenors.
_________________________________
On Petition for Review of Final Action by the Environmental
Protection Administration
(EPA No. 17-03)
_________________________________
Steven Sugarman, Cerrillos, New Mexico, appearing for Petitioner.
Phillip R. Dupré, Attorney (Jeffery Bossert Clark, Assistant Attorney General, Jonathan
D. Brightbill, Principal Deputy Assistant Attorney General; Pooja Parikh and David
Gillespie, Attorneys, United States Environmental Protection Agency, with him on the
briefs), United States Department of Justice, Environment and Natural Resources
Division, Washington, DC, appearing for Respondent.
Louis W. Rose and Kari E. Olson, Montgomery & Andrews, P.A., Santa Fe, New
Mexico, on the briefs for Intervenors Village of Ruidoso and City of Ruidoso Downs.
_________________________________
Before BACHARACH, BRISCOE, and EID, Circuit Judges.
_________________________________
BRISCOE, Circuit Judge.
_________________________________
In this petition for review, Petitioner-Appellant Rio Hondo asks us to review a
decision of the EPA’s Environmental Appeals Board (“EAB”). Rio Hondo seeks to
vacate relaxed pollutant limitations in a 2017 permit issued by the EPA to an upstream
waste water treatment plant. The waste water treatment plant serves the Village of
Ruidoso and City of Ruidoso Downs and is an identified point source of pollutants into
the Rio Ruidoso river. The Rio Ruidoso is classified under the Clean Water Act
(“CWA”) as marginally impaired for nutrients, such as nitrogen and phosphorus. The Rio
Hondo river is downstream from the Rio Ruidoso river, and the Rio Hondo river flows
adjacent to the Rio Hondo ranch. Rio Hondo has long contended that reduced river water
quality, including algae blooms, have harmed its ability to make critical use of the river
water.
Rio Hondo contends that two aspects of the EPA’s 2017 permit constitute
impermissible backsliding under the CWA. First, Rio Hondo objects to the 2017 permit
because it does not include concentration-based limitations that prior permits included.
Second, Rio Hondo objects because the 2017 permit increases the mass-based limitation
on nitrogen discharges. The 2017 permit relied on a 2016 Total Maximum Daily Load
(“TMDL”) report prepared by the New Mexico Environment Department and adopted by
the EPA. Rio Hondo previously challenged the 2016 TMDL in New Mexico state court
2
and lost. Rio Hondo presents no new information which would cast doubt on the 2016
TMDL, and its challenge to the 2017 permit boils down to a challenge of that underlying
2016 TMDL. The record demonstrates that the EPA reasonably relied on the 2016 TMDL
in issuing the 2017 permit, did not abuse its discretion in creating the permit limits, and
appropriately applied a statutory exception to the anti-backsliding provisions of the
CWA. Accordingly, we deny Rio Hondo’s petition.
We have jurisdiction to consider this petition under 33 U.S.C. § 1369(b)(1). Our
review of the EAB’s final ruling is governed by the Administrative Procedure Act
(“APA”). 5 U.S.C. § 706(2)(A).
I
a. Standing
As an initial matter, we address whether Rio Hondo has standing to seek review of
the EAB’s ruling. Rio Hondo has briefed this issue, Aplt. Br. at 37–38, and the EPA does
not challenge Rio Hondo’s standing. In support of its claimed standing, Rio Hondo
submitted an affidavit signed by Rio Hondo’s ranch manager, Kiley McComb, explaining
Rio Hondo’s interest in the water quality of the Rio Ruidoso. Aplt. Br. Att. A.
The CWA provides that “any interested person” may seek review of a final
decision “approving or promulgating any effluent limitation.” 33 U.S.C. § 1369(b). Even
with this provision, “a plaintiff must nevertheless satisfy the standing requirements of
Article III of the U.S. Constitution to bring such an action.” Am. Forest & Paper Ass’n v.
U.S. E.P.A., 154 F.3d 1155, 1158 (10th Cir. 1998). This test requires that plaintiffs show
3
(1) that they have suffered an injury in fact, (2) that the conduct complained of caused
their injury, and (3) that a favorable decision is likely to redress the injury. Id.
The affidavit of Rio Hondo’s ranch manager adequately demonstrates that Rio
Hondo has standing to file this petition. The affidavit explains that the Rio Hondo ranch
is adjacent to the Rio Hondo river, which is downstream from the Rio Ruidoso. Aplt. Br.
Att. A. at ¶ 1, 2. Rio Hondo owns surface water rights to the river and relies on clean
water from that river for use in its ranching operations. Id. at ¶ 3. The affidavit explains
that algal blooms, caused by increased nutrients in the Rio Ruidoso, can clog Rio
Hondo’s equipment and “injure [Rio Hondo’s] ability to make critical use of the water.”
Id. at ¶ 5, 6. Both the affidavit and Rio Hondo’s opening brief explain that Rio Hondo has
struggled with algae levels in the river for years and has sued the Village of Ruidoso and
the City of Ruidoso Downs (as owners of the Ruidoso Waste Water Treatment Plant
“WWTP”) concerning compliance with past permits. Aplt. Br. at 38.
Rio Hondo has satisfied the constitutional test for standing. It has suffered an
injury, which is the impairment of its ability to use water from the Rio Hondo river in its
ranching operations. Rio Hondo’s alleged injury is traceable to the EPA’s conduct (the
issuance of the 2017 permit), and a favorable decision would redress Rio Hondo’s injury
and improve its water access. Id. at 39.
b. Statutory Background
The CWA, passed in 1972, establishes a comprehensive regulatory program to
“maintain the chemical, physical, and biological integrity of the Nation’s waters” by
reducing and eliminating the discharge of pollutants. 33 U.S.C. § 1251(a). Under the
4
CWA, discharges of pollutants into navigable waters are prohibited unless the discharge
is authorized by permit. Id. § 1311(a). To this end, the CWA establishes the National
Pollutant Discharge Elimination System (“NPDES”) permitting program. Id. § 1342(a);
40 C.F.R. § 122.44(a). Although some states are authorized to administer their own
NPDES programs, the State of New Mexico has not received such authorization and as a
result the EPA issues NPDES permits for waterways in New Mexico.
Permits issued under NPDES control water pollution by employing two distinct
strategies: technology-based limits and water quality standards (“WQS”). It is the latter
strategy, water quality standard permitting, which is at issue in this petition. Under the
WQS system, states develop water quality standards for specific bodies of water.
33 U.S.C. § 1313. These standards, which are subject to federal approval, identify the
“designated uses” for a body of water (water supply, aquatic life environment,
recreational use, etc.) and create “water quality criteria” that must be met in order for the
body of water to fulfill its designated uses. Id. Water quality criterion can be expressed
either as a level of a pollutant-specific concentration (e.g. limiting the body of water to no
more than 1.0 milligram of nitrogen per liter) or a more general narrative statement (e.g.
“no pollutants in toxic amounts”).
Once a state has adopted and approved water quality standards, the state identifies
water-quality-limited segments (“WQLSs”), which are individual portions of a body of
water that are not expected to meet water quality standards even after technology-based
5
permit limitations have been implemented. 33 U.S.C. § 1313(d)(1).1 For each WQLS,
states must develop a Total Maximum Daily Load (“TMDL”) for every pollutant which
impairs that waterway. Id. To create a TMDL, states must identify the maximum amount
of a pollutant that a body of water can receive and still meet the applicable water quality
standard. Id. § 1313(d)(1)(C). Per EPA regulation, TMDLs are required to include
pollutant allocations for both point and non-point sources.2 When developing a TMDL,
states are to consider the impacts of background pollutants and seasonal variations, and
must also include a safety margin for pollutant levels. 40 C.F.R. § 130.7. The TMDL
drafting process also involves public participation through public comment. Id. States
submit finalized TMDLs to the EPA for approval.
Neither WQSs nor TMDLs are self-executing, and they have no regulatory force
on their own. Id. §§ 130.3, 130.7. Instead, TMDLs and WQSs are used by EPA permit
writers in the NPDES process to create allowable discharge levels, which are enforceable
limits on the amounts of discharge. 33 U.S.C. § 1342. The final NPDES permit must be
consistent with the assumptions and requirements of the applicable TMDL. 40 C.F.R.
§ 122.44(d)(1)(vii)(B) (requiring that permit levels “are consistent with the assumptions
and requirements of any available wasteload allocation for the discharge prepared by the
1
The Rio Ruidoso river has not met the standards outlined in its WQS and has
been identified by the state as a WQLS.
2
A point source refers to a single, identifiable place where pollutants enter a
body of water, such as the Ruidoso waste water treatment plant at issue in this
petition. A non-point source refers to diffuse release of chemicals into a body of
water, such as runoff from agricultural operations seeping into a nearby river. See
40 C.F.R. § 122.2.
6
State”). The final permit must also include pollutant limitations sufficiently stringent to
meet applicable WQSs. Id. § 122.4(d).
NPDES permits lay out “effluent limitations, standards, [and] prohibitions,” id.
§ 124.6, and are accompanied by a fact sheet that provides “the principal facts and the
significant factual, legal, methodological and policy questions considered” in the permit.
Id. § 124.8. Draft permits are open to public comment for at least thirty days. Id.
§ 124.10. Based on comments received, the EPA might alter the permit, extend the
comment period, or prepare a new draft permit or fact sheet altogether. Id. § 124.14.
After the draft period closes, the EPA issues a final permit, which includes a section
responding to significant public comments. Id. §§ 124.15, 124.17. Once issued, NPDES
permits are valid for up to five years. 33 U.S.C. §§ 1342(a)(3), (b)(1)(B). A party can
appeal a final permit decision to the EPA’s Environmental Appeals Board (“EAB”).
40 C.F.R. § 124.19.
The CWA contains an “anti-backsliding” provision that prohibits the EPA from
issuing a permit with less stringent pollutant limitations than the prior permit. 33 U.S.C.
§ 1342(o)(1). This “anti-backsliding” rule is laid out in 33 U.S.C. § 1342(o), and that
section contains three sub-sections.
First, § 1342(o)(1), titled “General prohibition,” announces the general rule that “a
permit may not be renewed, reissued, or modified . . . to contain effluent limitations
which are less stringent than the comparable effluent limitations in the previous
permit . . . except [for permits issued] in compliance with section 1313(d)(4) of this title.”
(emphasis added). Key to our ruling here is this exclusion from the anti-backsliding rule
7
for permits issued in compliance with § 1313(d)(4)(A), which governs permits reissued
for waterways that have failed to meet their standards or WQLSs. Id. In those cases,
§ 1313(d)(4) provides that pollutant limits “may be revised only if (i) the cumulative
effect of all such revised effluent limitations based on such [TMDL] or waste load
allocation will assure the attainment of such [WQS], or (ii) the designated use which is
not being attained is removed in accordance with regulations established under this
section.” Id. § 1313(d)(4)(A).
The second sub-part of the anti-backsliding rule, titled “Exceptions,” lists
situations where a permit may be issued notwithstanding the section’s general
prohibition. These exceptions apply to permits involving new information, the use of new
technology by the permittee, or the discovery of a technical error in the permitting
process. Id. § 1342(o)(2).
The third sub-part of the anti-backsliding rule, § 1342(o)(3), titled “Limitations,”
is a safety clause that limits the use of the exceptions mentioned in the previous
sub-section. The safety clause requires that if the general prohibition mentioned in
§ 1342(o)(1) applies to a permit, that permit may not “be renewed, reissued, or modified
to contain a less stringent effluent limitation if the implementation of such limitation
would result in a violation of a [WQS.]” Id. § 1342(o)(3). Or, put another way: when all
of the provisions of § 1342(o) are read together, if a permit is issued in compliance with
§ 1313(d)(4)(A), which is an exclusion from the backsliding rule found in § 1342(o)(1),
neither the exceptions in § 1342(o)(2) nor the safety clause in § 1342(o)(3) have any
applicability.
8
c. Factual Background
The Rio Ruidoso is a thirty-mile stretch of river located in central New Mexico.
Aplt. App. at 32. The Rio Ruidoso flows into the Rio Hondo. In 1998, the New Mexico
Environment Department (“NMED”) determined that the Rio Ruidoso had higher-than-
desirable levels of nitrogen and phosphorous. Id. at 397. Before NMED developed a full
TMDL to address nutrient levels in the Rio Ruidoso, the EPA issued an NPDES permit
for the Rio Ruidoso in 2001.3
NMED developed a TMDL for the Rio Ruidoso in 2006. The research for that
TMDL showed that a surplus of nitrogen and phosphorous allows algae to grow in a
waterway, and NMED sought to limit the amount of those pollutants to limit algal growth
by setting target values for each nutrient load. Id. at 32–38. Numeric standards were set
not only to limit algal growth but were also “necessary to establish targets for total
maximum daily loads (TMDLs) to develop water quality-based permit limits and source
control plans, and to support designated uses within the Rio Ruidoso.” Id. at 35. NMED
developed a TMDL for the Rio Ruidoso which included mass-based limitations for both
nutrients. Id. at 13 (setting a limit of 2.72 lbs/day for phosphorous and 27.2 lbs/day for
nitrogen). The TMDL explained that the nitrogen limit was set at ten times the
phosphorous limit, on the belief that “nitrogen is . . . driving the productivity of algae” in
3
The 2001 permit does not appear in the administrative record. However, the
EAB took “official notice” of this public information in its administrative hearing.
Aplt. App. at 548. The 2001 permit contained a concentration-based phosphorous
limit of 0.1 mg/L and a mass-based phosphorous limit of 2.2 lbs/day.
9
the Rio Ruidoso. Id. at 37. The TMDL recommended that limiting the ratio of nitrogen to
phosphorous to no more than 10:1 would therefore limit algal growth. Id. at 36–38.
In determining nutrient limits for the TMDL, NMED needed to determine the rate
at which water flows through the river. Id. at 38 (“The presence of plant nutrients in a
stream can vary as a function of flow.”). This analysis focuses on the “critical flow” of a
river, which identifies a worst-case scenario of river flow and calculates the concentration
of pollutant discharge which would allow the waterway to meet WQSs at this low flow
level. Id.
The 2006 TMDL used a technique called a “4Q3 regression model” to estimate the
lowest river flow rate. Id. “The 4Q3 is the minimum average four consecutive day flow
that occurs with a frequency of at least once every 3 years.” Id. The 2006 TMDL
incorporated this flow rate and other environmental information to create a “loading
capacity,” defined as “the maximum amount of pollutant loading that a waterbody can
receive while meeting its water quality objectives.” Id. at 40–44. NMED then subtracted
background levels of nitrogen and phosphorous, along with a margin of safety, from the
instream loading capacity. The remaining balance, called the waste load allocation
(WLA) was assigned to the WWTP, which is the sole point source discharging into this
portion of the river. The WLA assigned to WWTP is the amount of pollutant the WWTP
was permitted to discharge.
Following NMED’s creation of the TMDL, the EPA issued a revised NPDES
permit in 2007 for the WWTP. Id. at 579. The new permit included two types of limits—
mass-based limits and concentration-based limits—for both phosphorous and nitrogen.
10
The mass-based limits were 21.7 lbs/day for nitrogen and 2.2 lbs/day for phosphorous. Id.
The concentration-based limits were 1.0 mg/L for nitrogen and 0.1 mg/L for phosphorus.
Id. Both limits were in line with the limits issued in NMED’s 2006 TMDL and accorded
with the 10:1 nitrogen to phosphorous ratio in the TMDL.
In 2012 the EPA issued a revised permit for the WWTP. Id. at 159. The 2012
permit considered the fact that Ruidoso’s new waste water treatment facility had recently
come online in 2011. Id. at 161. Like the 2007 permit, the 2012 permit relied on the 2006
TMDL. Id. at 171–72. The 2012 permit included mass-based limitations of 18.9 lbs/day
for nitrogen and 2.16 lbs/day for phosphorous. Id. at 171. The permit included
concentration-based limits of 1.0 mg/L for nitrogen and 0.1 mg/L for phosphorous. Id.
at 172.
In addition to these final limits, the 2012 permit also created interim limits for
nitrogen (but not for phosphorous) that gave the new waste water treatment facility more
leeway as it ramped up and implemented new technologies. Id. The 2012 interim limits
were much higher than the final limits and, unlike the final limits, varied based on water
temperature. Id. The interim mass-based nitrogen limits were 90.1 lbs/day (for warm
temperatures) and 135.2 lbs/day (for cool temperatures). Id. The corresponding
concentration-based nitrogen limits were 4.0 mg/L (warm) and 6.0 mg/L (cool). Id. The
interim nitrogen limits were effective from the day the permit issued through “one day
prior to the expiration date” of the permit. Id. at 182–84. The 2012 permit was valid until
2017.
11
In 2016, NMED issued a revised TMDL for the Rio Ruidoso. This new TMDL
incorporated data from a 2012 water quality survey and streamflow data collected from
2004–2015. Id. at 352–54. The underlying data used, and methods used to create that
data, varied in several ways from the 2006 TMDL. First, the 2016 TMDL used new
streamflow data to calculate the instream loading capacity for both nitrogen and
phosphorous. Id. at 350. Second, the 2016 TMDL used a new methodology for
calculating the critical flow of the Rio Ruidoso relating to nitrogen.4 Instead of the 4Q3
model (used in the 2006 TMDL), the 2016 TMDL used a measure called annual median
flow, which was calculated by averaging the median flow rates for each year from 2004
through 2015. Id. at 354. “The use of the median flow, rather than a 4Q3 flow, is
appropriate because of the long term growth cycle of algae in response to excess
nutrients, in contrast to protecting for acute toxicity.” Id. Third, the 2016 TMDL adopted
a “watershed approach” to managing the Rio Ruidoso. Id. at 350. This approach “allows
for calculation of a watershed-wide TMDL” and allows NMED to “account for
upstream” pollutants that flow into the Rio Ruidoso. Id. Because of these many changes,
the 2016 TMDL advised that any “comparison of the 2006 TMDL with this revised
TMDL should be done with caution.” Id. at 350.
In light of these methodological changes, NMED made an upward revision to the
instream loading capacity for nitrogen. Even though NMED used the same concentration-
based targets (1.0 mg/L for nitrogen and 0.1 mg/L for phosphorous) as the 2006 TMDL,
4
The 2016 TMDL continued to use the 4Q3 methodology to calculate the
critical flow for phosphorous. Aplt. App. at 354.
12
the increased flow numbers resulting from using annual median flow as opposed to the
4Q3 flow meant that the Rio Ruidoso could accommodate a higher amount of pollutants
and still meet that concentration-based target. Id. at 352 (noting “a 10:1 ratio of TN:TP
was determined to be appropriate”). Accordingly, the new maximum daily load for
nitrogen was calculated at 84.8 lbs/day (up from 27.2 lbs/day in the 2006 TMDL) and the
maximum load for phosphorous was calculated at 3.39 lbs/day (up from 2.72 lbs/day in
the 2006 TMDL). Id. at 356. The new TMDL explained that even though it “allocates a
larger waste load allocation and assigns less stringent permit limits,” it was “calculated
using the same protective, in-stream [pollutant concentration] targets from the original
[2006] TMDL.” Id. at 369. Therefore, “if the conditions in the TMDL are met, attainment
of the water quality standard is assured” because protective in-stream pollutant targets
would be met. Id. NMED also explained that in basing the proposed mass-based limits on
the 2016 TMDL it was relying on 33 U.S.C. § 1313(d)(4)(A) (section 303(d)(4)(A) of the
CWA) which allows relaxation of permit limits in certain circumstances so long as the
revised permit assures attainment of WQS. Id. The new TMDL also asked the EPA
permit writers to omit concentration-based limitations because those limitations would
necessarily vary based on how much water the WWTP discharged. Id. at 370.
The EPA approved NMED’s new TMDL in December 2016. Id. at 385. Rio
Hondo challenged the new TMDL in state court in New Mexico, arguing that the new
critical flow methodology used in the 2016 TMDL (annual median flow versus 4Q3
flow) violated New Mexico’s Administrative Code. Rio Hondo Land & Cattle Co v. N.M.
Water Quality Control Comm’n, No. A-1-CA-36039, 2019 WL 6728255 (N.M. Ct. App.
13
2019).5 The New Mexico Court of Appeals rejected the challenge and approved NMED’s
adoption of the 2016 TMDL, concluding that NMED “did not err as a matter of law in
approving the 2016 TMDL that calculated the daily nitrogen load based on annual
median flow, and not the 4Q3 flow.” Id. at *3. The court explained that while state
regulations required 4Q3 flow calculations for some nutrients, nitrogen was not one of
them. Id. The court ruled that NMED adequately explained “that using the median flow
to calculate total nitrogen was appropriate . . . given the long-term growth cycle of
algae.” Id. The New Mexico Supreme Court denied Rio Hondo’s request for certiorari on
the matter. Rio Hondo Land & Cattle Co. v. N.M. Water Quality Ctrl. Comm’n.,
No. A-1-CA-36039 (N.M. Sup. Ct. Mar 19, 2020).
While Rio Hondo’s state court action challenging the 2016 TMDL was pending,
the Village of Ruidoso and the City of Ruidoso Downs applied to the EPA for an updated
NPDES permit for the WWTP. Aplt. App. at 308. Rio Hondo submitted a comment on
the draft permit, objecting to the permit’s “incorporation of the [2016] TMDL’s mass
loading limits for nutrients” as arbitrary and capricious because “the TMDLs themselves
are arbitrary and capricious and present a purely fictional account of the receiving
stream’s assimilative capacity.” Id. at 456–57. Rio Hondo’s comment raised the same
objection about river flow calculation (annual median flow versus 4Q3 flow) raised in its
5
New Mexico’s Water Quality Act provides that individuals may challenge
water regulations by filing an appeal directly with the New Mexico Court of Appeals.
N.M. Stat. Ann. § 74-6-7 (West) (“[A] person who is adversely affected by a
regulation adopted by the commission. . . may appeal to the court of appeals for
further relief.”).
14
state court action. Id. (“Rio Hondo’s primary objections to the 2016 nutrient TMDLs are
that the TMDLs were calculated using an erroneous critical low flow value.”). Rio Hondo
also alleged that the new permit violated the CWA’s anti-backsliding provisions. Id.
at 460.
The EPA responded to Rio Hondo’s comments, writing that applicable regulations
required the agency to implement the current TMDL in the new permit. Id. at 472 (citing
40 C.F.R. § 122.44(d)(1)(vii)(B) (requiring that permit limits “be consistent with the
assumptions and requirements of any available [wasteload allocation]” in a TMDL)). The
EPA noted that nothing in the draft permit was changed as a result of Rio Hondo’s
comment. Id.
The EPA issued a final permit on July 25, 2017 with an effective date of
September 1, 2017. That 2017 permit, which is valid for up to five years, is the subject of
this petition. The 2017 permit did not include concentration-based limits for either
nitrogen or phosphorous. Id. at 476. The new permit did, however, include mass-based
limits for nitrogen (37.8 lbs/day) and phosphorous (1.67 lbs/day) in accordance with the
revised TMDL. Id. The fact sheet accompanying the draft permit explained that the
CWA’s anti-backsliding provision did not apply because the permit was issued pursuant
to a TMDL. Id. at 409 (“For non-attainment waters, 303(d)(4) [of the CWA] allows
backsliding only where the existing permit limit sought to be revised is based on a TMDL
or other WLA, and the revised permit limit assures attainment of the water quality
standard at issue.”).
d. Procedural History
15
Rio Hondo filed a petition for review of the final permit with the EAB in August
2017. Rio Hondo argued (1) that the 2017 permit constituted backsliding under the CWA,
particularly because of the removal of concentration-based limits for both nitrogen and
phosphorous and revising upward the mass-based nitrogen limit, (2) that the EPA could
not rely on any exclusion from the anti-backsliding rule, and (3) that the 2017 permit
limits “will not assure attainment of the applicable water quality standards.” Id. at 533. In
ruling on Rio Hondo’s petition, the EAB noted that the EPA made a “highly technical”
judgment in setting pollutant levels in the 2017 permit and that Rio Hondo “must
overcome a high bar to successfully challenge the [EPA’s] technical decision.” Id. at 574.
The EAB also observed that although Rio Hondo framed its petition as a challenge to the
2017 permit, it was really seeking review of the 2016 TMDL. Id. at 554 (“Rio Hondo’s
objection to the Permit’s limits is difficult to separate from its objection to the underlying
2016 TMDL.”). The EAB denied the petition for review after concluding that the EPA’s
reliance on the 2016 TMDL was rational and that the EPA did not clearly err or abuse its
discretion in issuing the 2017 permit. Id. at 574–75. Specifically, the EAB concluded that
Rio Hondo had not met its burden to demonstrate that the EPA clearly erred or abused its
discretion in relying on the 2016 TMDL in determining the nutrient limits for both
nitrogen and phosphorous for the 2017 permit, or in determining that those limits “assure
attainment” and do not violate New Mexico’s water quality standards. Id. at 574.
16
In May 2019, Rio Hondo filed a petition for review of the EAB’s decision with
this court.6 On June 6, 2019, the Village of Ruidoso and the City of Ruidoso Downs
intervened in this case.7
II
a. Standard of review
The EPA’s decision to issue a permit is subject to the “arbitrary and capricious”
standard of review established by the APA. 5 U.S.C. § 706(2)(A). Under that standard,
we are required to set aside an agency action where that action is found to be “arbitrary,
capricious, an abuse of discretion, or otherwise not in accordance with law.” Id.; New
Mexico Health Connections v. U.S. Dep’t of Health & Human Servs., 946 F.3d 1138,
1161 (10th Cir. 2019). “Our inquiry under the APA must be thorough, but the standard of
review is very deferential to the agency.” W. Watersheds Project v. Bureau of Land
Mgmt., 721 F.3d 1264, 1273 (10th Cir. 2013). When reviewing agency action under the
APA, we will generally uphold the agency action unless the agency
(1) entirely fails to consider an important aspect of the problem,
(2) offers an explanation for its decision that runs counter to the
evidence before the agency, or is so implausible that it could not be
ascribed to a difference in view of the product of agency expertise,
6
The panel’s delay in addressing this case is the result, in large part, of
attempted but unsuccessful mediation efforts by the parties.
7
The Village and City intervened to defend the EPA’s decision to issue the
2017 permit. Intervenor’s Br. at 10. Intervenors argue, inter alia, that the 2017 permit
does not constitute backsliding due to the 2012 permit’s higher interim limits, that
the EPA appropriately relied on the exclusion to the anti-backsliding rule, and that
the City and Village are committed to reducing non-point source pollution in the Rio
Ruidoso. Id. at 12–20.
17
(3) fails to base its decision on consideration of the relevant factors,
or (4) makes a clear error of judgment.
New Mexico Health Connections, 946 F.3d at 1162 (alterations omitted).
b. Merits Analysis
Rio Hondo objects to two aspects of the 2017 permit which it contends violate the
CWA’s anti-backsliding rule: (1) the increased mass-based nitrogen limit and (2) the
elimination of concentration-based limits for both nitrogen and phosphorous.8 Although
these are distinct challenges, both objections involve the same basic question: Does the
EPA’s reliance on the 2016 TMDL in issuing the 2017 permit exclude the 2017 permit
from the CWA’s anti-backsliding rule?
i. The increased mass-based limit for nitrogen does not violate the
CWA.
Rio Hondo’s first argument is that the increased mass-based nitrogen limit in the
2017 permit violates the CWA’s anti-backsliding rule. Aplt. Br. at 44.
As discussed above, the CWA’s anti-backsliding rule includes a general
prohibition on issuing permits that “contain effluent limitations which are less stringent
than the comparable effluent limitations in the previous permit.” 33 U.S.C. § 1342(o)(1).
But this prohibition does not apply to permits issued in compliance with § 1313(d)(4),
8
In its opening brief, Rio Hondo also includes a brief section explaining that
the anti-backsliding rule’s exception for “new information” does not apply in this
case. Aplt. Br. at 55–56. The EPA dropped its reliance on this theory before the EAB
and does not pursue that theory here. Because this theory is neither relied on by the
EPA nor necessary to decide this case, we do not address it.
18
which governs CWA permits issued for waterways which have not met applicable water
quality standards. Section 1313(d)(1)(A) and 1313(d)(4)(A) provide:
(d) Identification of areas with insufficient controls; maximum daily
load; certain effluent limitations revision.
(1)(A) Each State shall identify those waters within its boundaries
for which the effluent limitations required by section 1311(b)(1)(A)
and section 1311(b)(1)(B) of this title are not stringent enough to
implement any water quality standard applicable to such waters. The
State shall establish a priority ranking for such waters, taking into
account the severity of the pollution and the uses to be made of such
waters.
...
(4) Limitations on revision of certain effluent limitations.
(A) Standard not attained. For waters identified under paragraph
(1)(A) where the applicable water quality standard has not yet been
attained, any effluent limitation based on a total maximum daily load
or other waste load allocation established under this section may be
revised only if (i) the cumulative effect of all such revised effluent
limitations based on such total maximum daily load or waste load
allocation will assure the attainment of such water quality standard,
or (ii) the designated use which is not being attained is removed in
accordance with regulations established under this section.
33 U.S.C. §§ 1313(d)(1)(A), 1313(d)(4)(A).
Because the Rio Ruidoso river, which flows into the Rio Hondo river, has not met
the standards outlined in its WQS, the exclusion from the backsliding rule in
§ 1313(d)(4)(A) applies. Pursuant to that section, the EPA can issue a revised permit (and
escape application of the anti-backsliding rule’s general prohibition) if the revised
pollutant limitations are (1) based on a TMDL or WLA, and (2) if those revised
limitations will assure the attainment of the applicable WQS by requiring that protective
19
in-stream pollutant targets are met. Id. § 1313(d)(4)(A). The 2017 permit satisfies both of
these criteria.
First, the 2017 permit was based on a TMDL. The fact sheet accompanying the
permit explained that the permit relied on the 2016 TMDL and adopted the assumptions
and requirements for plant nutrients contained in that TMDL. Aplt. App. at 408–09
(explaining that “[a] revised TMDL for nutrients was approved by the EPA on December
12, 2016” and recounting the waste load allocations for phosphorous and nitrogen
contained in that TMDL). The fact sheet explained that the limits in the 2017 permit were
“consistent with the TMDL” and provide that “if the conditions in the TMDL (i.e.,
WLAs) are met, attainment of the water quality standard is assured.” Id. at 409.9 Rio
Hondo acknowledges that the 2017 permit adopted the 2016 TMDL. Aplt. Br. at 33, n.8.
Thus, the 2017 permit contained revised effluent limitations that were based on a TMDL,
in accordance with the requirements of § 1313(d)(4)(A).10
The 2017 permit also satisfied § 1313(d)(4)(A)’s second requirement, because the
permit assures attainment of the applicable water quality standards. The 2017 permit
adopted the limitations in the 2016 TMDL. The 2016 TMDL acknowledged that it
contained “less stringent permit limits for plant nutrients than the original 2006 TMDL.”
Aplt. App. at 369. But the 2016 TMDL explained that these limits reflected “revised
9
Indeed, as noted earlier, the 2017 permit was required to be “consistent with
the assumptions and requirements of” the TMDL. 40 C.F.R. § 122.44(d)(1)(vii)(B).
10
The parties appear to agree that the limitations must be based on any TMDL,
not necessarily the original TMDL on which the limitations were based. We therefore
do not address this issue.
20
waste load allocations” based on new data and a change in nitrogen modeling. Id. Thus,
the 2016 TMDL explained, “if the [new, less stringent] conditions in the TMDL are met,
attainment of the water quality standard is assured” because the TMDL used protective
in-stream pollutant targets designed to meet those water quality standards, and those were
the same in-stream targets used in the prior TMDL. Id. The permit limits were
“developed in accordance with the revised 2016 TMDL” and therefore assured
attainment of the applicable water quality standards. Id. at 409.
Both of the requirements of § 1313(d)(4)(A)(i) are met by the 2017 permit (and
the 2016 TMDL). As a result, the general prohibition on backsliding in § 1342(o)(1) does
not apply. The 2017 permit therefore does not violate the anti-backsliding rule.11 The
parties dispute, however, whether the permit nonetheless violates the safety clause
contained in § 1342(o)(3). Aplt. Br. at 53 (arguing that this “backsliding would still be
prohibited because of the safety clause”).
The 2017 permit does not violate the safety clause for the simple reason that the
§ 1342(o)(3) safety clause does not apply to the 2017 permit. First, because the 2017
permit was issued pursuant to an exclusion to the general prohibition on backsliding
[specifically § 1313(d)(4)], the safety clause does not apply to the 2017 permit. Second,
even if the safety clause were to apply to the 2017 permit, the permit does not violate the
11
This conclusion applies with equal force to the permit’s increased
mass-based nitrogen limitation as well as its removal of concentration-based
limitations for both nitrogen and phosphorous. However, the removal of the
concentration-based limitations raises some additional issues which we proceed to
address.
21
clause because the permit would not “result in a violation of a water quality standard.”
33 U.S.C. § 1342(o)(3).
The safety clause does not apply to permits issued pursuant to § 1313(d)(4)
because such permits do not come within § 1342(o)(1)’s general prohibition on
backsliding. As discussed previously, § 1342(o) contains three parts: a general
prohibition on backsliding, exceptions to that prohibition, and a safety clause that limits
applications of those exceptions. On its face, the general prohibition in § 1342(o)(1) does
not apply to permits issued in compliance with § 1313(d)(4): the general prohibition
applies “except [for permits issued] in compliance with section 1313(d)(4) of this title.”
33 U.S.C. § 1342(o)(1) (emphasis added). The safety clause, in turn, applies only to
permits “to which paragraph (1) [the general prohibition] applies.” Id. § 1342(o)(3).12
Even if the safety clause were to apply, the 2017 permit still satisfies its strictures.
The safety clause requires that a permit may not be issued “if the implementation of such
limitation would result in a violation of a water quality standard.” Id. In this case, the
permit writer concluded that the limits contained in the permit would assure the Rio
Ruidoso would meet its WQS. Aplt. App. at 409. This conclusion was consistent with the
12
The EAB noted that any comparison of the 2012 limits to the 2017 limits is
complicated by the fact that the 2017 permit no longer contains concentration limits
for nutrients, and the mass-based limit for nitrogen is calculated using the same
numeric in-stream target, but is based on more recent streamflow data and a revised
method of determining critical flow. Aplt. App. at 556. The EAB assumed, without
deciding, that the 2017 permit constituted backsliding, but concluded that even if
backsliding is assumed the 2017 permit falls within the § 1313(d)(4) exclusion. Id.
at 555–56, n. 27. After reaching that conclusion, the EAB did not proceed to consider
the applicability of the safety clause. Id.
22
2016 TMDL, which the EPA relied on in drafting the 2017 permit. Id. at 369 (“[T]he
revised TMDL is calculated using the same protective, in-stream targets from the original
TMDL.”). EPA regulations require that permits be “consistent with the assumptions and
requirements” of applicable TMDLs. 40 C.F.R. § 122.44(d)(1)(vii)(B). And there is little
argument here that the EPA’s reliance on NMED’s TMDL was unreasonable or
represented an abuse of discretion.
In support of its claim that the permit violates the safety clause (and thus the
anti-backsliding rule), Rio Hondo points to a Ninth Circuit decision that concerned a
separate question involving the issuance of a permit for a new polluter. Friends of Pinto
Creek v. U.S. E.P.A., 504 F.3d 1007 (9th Cir. 2007). Rio Hondo cites Friends of Pinto
Creek to argue that a TMDL cannot serve as the basis for an NPDES permit if “there are
no plans or compliance schedules” to effectuate the changes contemplated in the TMDL.
Id. at 1014. But that case involved EPA regulations applicable to a permit sought by a
new point source, 40 C.F.R. § 122.4(i), and not the anti-backsliding provisions at issue in
this case. Id. That regulation requires that before a permit is issued to a new point source,
“existing dischargers . . . are subject to compliance schedules” that will assure WQS
attainment. 40 C.F.R. § 122.4(i)(2). It was this separate requirement, which is not at issue
in this petition, that led the court in Friends of Pinto Creek to vacate the EPA’s permit.
504 F.3d at 1014 (finding “there are no plans or compliance schedules to bring the Pinto
Creek segment ‘into compliance with applicable water quality standards,’ as required by
§ 122.4(i)(2)”). Friends of Pinto Creek therefore does not bear on the questions presented
here.
23
Rio Hondo also contends that the permit writer’s statement in the fact sheet for the
2017 permit that “[t]he revised 2016 nutrient TMDL is calculated using the same
protective, in-stream targets from the original TMDL” was in error. Aplt. Br. at 46
(quoting Aplt. App. at 409). This must be so, Rio Hondo reasons, because the original
TMDL required in-stream concentrations of nitrogen and phosphorous be maintained at a
10:1 level and the revised TMDL includes a discharge limit for the nutrients at a 25:1
ratio. Id. at 46–47. This argument confuses in-stream targets with discharge limits. The
2016 TMDL, as the 2017 permit writer notes, does indeed contemplate a 10:1 ratio as an
in-stream target for the nutrients. Aplt. App. at 356 (2016 TMDL noting in-stream target
of 1.0 mg/L for nitrogen and 0.1 mg/L for phosphorous). But the 2016 TMDL, unlike the
2006 TMDL, used a new critical flow calculation for nitrogen, meaning that (under the
assumptions in the TMDL), nitrogen and phosphorous did not need to be discharged at
the 10:1 ratio in order to achieve the 10:1 ratio designated as the in-stream target. Id.
at 356–57 (showing that the difference in critical flow for the two nutrients corresponds
to a different waste load allocation for each). The 2016 TMDL did use the same in-stream
targets, and the 2017 permit writer’s statement to that effect was not erroneous.
Rio Hondo argues that, as “a simple matter of common sense and the laws of
physics,” the 2017 permit cannot possibly hope to attain water quality standards. Aplt.
Br. at 48, 51 (faulting the EPA’s permit writer for failing to “consider[] the physics of
how an increase in the discharge of a pollutant into a receiving water . . . can conceivably
decrease the concentration of the pollutant”). This is so, Rio Hondo contends, because the
river is already in non-attainment status and the 2017 permit represents an increase in
24
nutrient flow into the river. Id. But Rio Hondo fails to mention in its opening brief that
2012 interim limits, and not the final limits in the 2012 permit, were in effect prior to the
2017 permit. Aplt. App. at 172. The interim 2012 limits, as seen in the chart below,
contained much higher mass-based limitations for nitrogen than the 2017 permit. Rio
Hondo’s argument that the 2017 permit levels increased the discharge of pollutants is
based on a comparison with the 2012 permit limits and not the 2012 interim limits. Rio
Hondo therefore relies on the wrong comparator when arguing the 2017 permit increased
nitrogen limits.
The following chart captures the pollutant levels allowed by various iterations of
permits in this case.
Permit Year Phosphorous Limits Nitrogen Limits
Concentration Mass Concentration Mass
2001 0.1 mg/L 2.2 lbs/day none none
2007 0.1 mg/L 2.2 lbs/day 1.0 mg/L 21.7 lbs/day
2012 0.1 mg/L 2.16 lbs/day 1.0 mg/L 18.9 lbs/day
2012 (interim) 0.1 mg/L 2.16 lbs/day 4 – 6 mg/L 90 – 135 lbs/day
2017 none 1.67 lbs/day none 37.8 lbs/day
Even setting aside the issue of the interim 2012 limits, neither the CWA nor
applicable EPA regulations require the agency to conduct the detailed reconsideration of
a state’s TMDL that Rio Hondo urges. As the EAB explained, “the 2016 TMDL was
extensive, including technical, policy, and scientific judgments on a number of modeling
and calculation issues.” Aplt. App. at 569. The EAB also explained that Rio Hondo
“identified nothing that requires [EPA] permit writers to supplant the analysis of a
recently approved TMDL with their own analysis.” Id. Rio Hondo’s challenge takes issue
with the facts, assumptions, and analysis in the 2016 TMDL, not with the EPA’s reliance
25
on that TMDL in issuing the 2017 permit. But it is the 2017 permit, and not the 2016
TMDL, that Rio Hondo is challenging in the petition before us.
As previously stated, Rio Hondo has already sought judicial review of the 2016
TMDL and lost in New Mexico state court. Rio Hondo, No. A-1-CA-36039. Rio Hondo
acknowledged before the EAB that “the Board is not the proper venue in which to raise
objections to the 2016 TMDL.” Aplt. App. at 554. But its attacks on the 2017 permit are
in substance attacks on the science underlying the 2016 TMDL. And as the EAB noted in
its order, Rio Hondo has presented no new evidence or information which would cast
doubt on the facts and assumptions included in the 2016 TMDL. Id. at 569–75.
ii. The elimination of concentration-based limitations for nitrogen and
phosphorous does not violate the CWA.
Rio Hondo also contends that the omission of concentration-based limitations for
nitrogen and phosphorous constituted impermissible backsliding under the CWA. As
with the increased nitrogen limit in the 2017 permit, however, the omission of these
limitations was in line with the 2016 TMDL. Rio Hondo acknowledges that its argument
about the concentration-based limitations relies on many of the same grounds as its
arguments about the mass-based limitation for nitrogen. Aplt. Br. at 54 (noting that the
omission of concentration-based limitations violates the anti-backsliding rule “for the
reasons set out above”). Its argument regarding concentration-based limitations therefore
fares no better and fails for the same reasons.
The 2016 TMDL explicitly encouraged the EPA “to include only loading [i.e.
mass] (and not concentrations) in future permits.” Aplt. App at 370. The TMDL made
26
this request because concentration-based limitations would necessarily vary as the
WWTP varied its daily discharge amount. Id. (“For example, as discharge volume [from
the WWTP] increases, the effluent concentrations would need to decrease in order to
meet the WLA.”). Again, the 2016 TMDL focused on the resulting water quality and
concluded that “if the conditions in the TMDL are met, attainment of the water quality
standard is assured” because protective in-stream pollutant targets would be met. Id.
at 369. Thus, the EPA’s reliance on the 2016 TMDL was reasonable and the exclusion to
the CWA’s anti-backsliding rule found in 33 U.S.C. § 1313(d)(4) applies.
Rio Hondo raises one additional argument specific to the omission of
concentration-based limitations. Aplt. Br. at 54–55. Rio Hondo notes that the exclusion to
the anti-backsliding rule outlined in § 1313(d)(4)(A) requires that the relaxed limitations
be “based on a [TMDL] or [WLA].” Id. at 54. Rio Hondo argues that because the
concentration-based limitations first appeared in the 2001 permit, which was issued prior
to any TMDL, the 2017 permit limitations were not based on a TMDL and are not
covered by § 1313(d)(4)(A). Rio Hondo notes that the concentration-based limits from
the 2001 permit were copied in the 2008 and 2012 permits, suggesting that neither of
these permits relied on a TMDL to create the concentration-based limits. Id.
Rio Hondo is correct that the concentration-based phosphorous limit in the 2001
permit was not based on a TMDL13. But the present petition concerns the 2012 and 2017
13
Rio Hondo contends that the 2001 permit also included a concentration-
based nitrogen limit, Aplt. Br. at 54, but the record shows that the 2001 permit did
not contain any nitrogen limits. Aplt. App. at 548, n.18. The 2012 permit’s
concentration-based nitrogen limit could not possibly have originated from the 2001
27
permits, not the 2001 permit. The record shows that the concentration-based limits in the
2012 permit were based on information from NMED’s 2006 TMDL. The fact sheet
accompanying the 2012 permit explicitly refers to the 2006 TMDL and relied on that
TMDL in setting concentration-based limits for nitrogen and phosphorous. Aplt. App.
at 172 (“The aforementioned TMDL establishes target concentration values and WLAs
for both total nitrogen and total phosphorus based on both numeric and narrative
standards.”). EPA regulations required the EPA to impose concentration-based limits
consistent with the 2006 TMDL when the agency issued the 2012 permit. See 40 C.F.R.
§ 122.44(d)(1)(vii)(B). There is ample evidence to conclude that the 2012 permit did rely
on the 2006 TMDL in determining the concentration-based limitations for nitrogen and
phosphorous. The EPA’s decision to omit those concentration-based limitations from the
2017 permit, which relied in turn on the 2016 TMDL, fell squarely within the exclusion
outlined in § 1313(d)(4)(A). The EPA therefore did not abuse its discretion in omitting
the concentration-based limitations from the 2017 permit.
III
For the foregoing reasons, we DENY Rio Hondo’s petition for review.
permit. Rio Hondo’s argument that the concentration-based nitrogen limit stems from
the 2001 permit is therefore mistaken.
28