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UNITED STATES DISTRICT COURT
FOR THE DISTRICT OF MASSACHUSETTS
_______________________________
)
Conservation Law Foundation, Inc., )
) Case No. ______
Plaintiff,
)
)
COMPLAINT FOR
)
DECLARATORY AND INJUNCTIVE
)
RELIEF AND CIVIL PENALTIES
v.
)
)
ExxonMobil Corporation,
)
ExxonMobil Oil Corporation, and
)
ExxonMobil Pipeline Company,
)
)
Defendants.
)
_______________________________ )

Plaintiff Conservation Law Foundation, Inc. (“CLF”), by and through its counsel, hereby alleges:

INTRODUCTION
1.

This is a civil suit brought under the citizen suit enforcement provisions of the Solid

Waste Disposal Act, 42 U.S.C. § 6901, et seq. (“Resource Conservation and Recovery Act” or
“RCRA”), and the Federal Water Pollution Control Act, 33 U.S.C. § 1251, et seq. (“Clean Water
Act” or “CWA”). Plaintiff seeks declaratory and injunctive relief, civil penalties, and other relief
the Court deems proper to remedy Defendants ExxonMobil Corporation, ExxonMobil Oil
Corporation, and ExxonMobil Pipeline Company’s (hereinafter, collectively, “ExxonMobil”)
violations of federal law, which include: (1) that ExxonMobil has contributed and is contributing
to past and present handling, storage, treatment, transportation, or disposal of solid and

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hazardous wastes which may present an imminent and substantial endangerment to health or the
environment in violation of RCRA; (2) ExxonMobil’s past and ongoing failures to comply with
its National Pollutant Discharge Elimination System (“NPDES”) permit and the Clean Water
Act.
JURISDICTION AND VENUE
2.

Plaintiff brings this civil suit under the citizen suit enforcement provisions of Section

7002 of the Resource Conservation and Recovery Act, 42 U.S.C. § 6972, and Section 505 of the
Clean Water Act, 33 U.S.C. § 1365. This Court has subject matter jurisdiction over the parties
and this action pursuant to those statutes and 28 U.S.C. § 1331 (providing district courts with
original jurisdiction over an action arising under the Constitution and laws of the United States).
3.

Venue is proper in the U.S. District Court for the District of Massachusetts pursuant to

Section 7002(a) of RCRA, 42 U.S.C. § 6972(a), and Section 505(c)(1) of the CWA, 33 U.S.C.
§ 1365(c)(1), because the source of the violations is located within this judicial district.
4.

On May 17, 2016, Plaintiff notified Defendants of its intention to file suit for violations

of the Clean Water Act, in compliance with the statutory notice requirements set forth in 33
U.S.C. § 1365(a)(1), and the corresponding regulations at 40 C.F.R. § 135.2. Letter to R.
Tillerson, President, ExxonMobil Corp., from Z. Griefen, Envtl. Enf’t Litigator, CLF (May 17,
2016). In that May 17, 2016 notice letter, Plaintiff also notified Defendants of its intention to file
suit for violations of RCRA, in compliance with the statutory notice requirements set forth in 42
U.S.C. § 6972(b)(2)(A), and the corresponding regulations at 40 C.F.R. Part 254. Id. A true and
accurate copy of Plaintiff’s May 17, 2016 notice letter is appended hereto as Exhibit A.

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5.

On July 8, 2016, Plaintiff provided Defendants with an “Amended Notice of Violations

and Intent to File Suit under the Resource Conservation and Recovery Act and Clean Water
Act.” In that July 8, 2016 amended notice letter, Plaintiff notified Defendants that “[t]his letter
supersedes and replaces that portion of the Notice of Intent issued by CLF on May 17, 2016
regarding the Clean Water Act violations at the Everett Terminal. This letter does not amend or
alter those allegations associated with the Resource Conservation and Recovery Act (‘RCRA’)
claims contained in the May 17, 2016 Notice of Intent and that portion of the Notice of Intent is
included herein only for reference.” Letter to R. Tillerson, President, ExxonMobil Corp., from Z.
Griefen, Envtl. Enf’t Litigator, CLF, (July 8, 2016), at 2. A true and accurate copy of Plaintiff’s
July 8, 2016 amended notice letter is appended hereto as Exhibit B.
6.

More than 60 days have elapsed since Plaintiff served the July 8, 2016 amended notice

letter on Defendants, during which time neither the EPA nor the Commonwealth of
Massachusetts has commenced and diligently prosecuted a court action to redress the Clean
Water Act violations alleged in this complaint. 33 U.S.C. § 1365(b)(1)(B).
7.

More than 90 days have elapsed since Plaintiff served the May 17, 2016 notice letter on

Defendants, during which time neither the EPA nor the Commonwealth of Massachusetts has
commenced and diligently prosecuted a court action to redress the RCRA violations alleged in
this complaint. 42 U.S.C. § 6972(b).
PARTIES
8.

Plaintiff CLF is a nonprofit, member-supported organization dedicated to protecting New

England’s environment. It is incorporated under the laws of Massachusetts with its principal
place of business at 62 Summer Street, Boston, MA, 02110. CLF has over 4,000 members,
including more than 1,600 members in Massachusetts. CLF has long worked to protect the
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health of New England’s waterways, including addressing the significant water quality impacts
of industrial and stormwater pollution. CLF members use and enjoy New England’s waterways
for recreational and aesthetic purposes, including but not limited to boating, swimming, fishing,
hunting, and sightseeing. These waters of the United States include the waterways harmed and
threatened by ExxonMobil’s violations of federal environmental laws and regulations.
9.

CLF and its members are concerned about and have an interest in preventing

ExxonMobil’s pollutant discharges from the Everett Terminal in part because these discharges
contain toxic pollutants that are known to be harmful to humans and aquatic life and to persist in
the environment. These discharges of toxic pollutants result from ExxonMobil’s failure to
operate its pollutant treatment system in a manner that complies with its NPDES Permit,
meaning that much of this pollution would be avoidable if ExxonMobil operated its pollutant
treatment system as required by the Permit. CLF and its members are concerned that these toxic
pollutant discharges, which frequently exceed the limits in ExxonMobil’s NPDES permit, harm
the ecosystems and human use and enjoyment of the Island End and Mystic Rivers.
10.

CLF and its members are also concerned about, and have an interest in eliminating the

risk from, the toxic pollutants from the Everett Terminal that will wash into the Island End and
Mystic Rivers, as well as into and nearby communities, when the Terminal is flooded by a severe
storm and/or sea level rise, consistent with the following map:

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http://maps.massgis.state.ma.us/map_ol/oliver.php.
11.

Because ExxonMobil has not taken climate change impacts into account in its stormwater

pollution prevention plan (“SWPPP”), spill prevention, control and countermeasures plan
(“SPCC”) and facility response plan (“FRP”), CLF and its members are placed directly in harm’s
way and have no reasonable assurance that they will be protected from pollutants released and
discharged from the Everett Terminal.
12.

Defendant ExxonMobil Corporation is a multinational oil and gas corporation

incorporated in New Jersey and headquartered in Irving, Texas. It is the largest direct
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descendant of John D. Rockefeller’s Standard Oil Company and was formed on November 30,
1999 by the merger of Exxon (originally the Standard Oil Company of New Jersey) and Mobil
(originally the Standard Oil Company of New York).
13.

Defendant ExxonMobil Pipeline Company is a Delaware corporation headquartered in

Houston, Texas. ExxonMobil Pipeline Company, an indirectly wholly-owned subsidiary of
ExxonMobil Corporation, operates oil pipelines and provides the management and employees for
the operation of oil pipelines and oil terminals for ExxonMobil Corporation and its subsidiaries
and affiliates.
14.

ExxonMobil Pipeline currently provides the management and employees for operation of

the Everett Terminal.
15.

Defendant ExxonMobil Oil Corporation is a New York corporation headquartered in

Irving, Texas. ExxonMobil Oil Corporation, a subsidiary of ExxonMobil Corporation, refines,
markets, and transports petroleum and gas products.
16.

ExxonMobil Oil Corporation operates the Everett Terminal and holds the National

Pollutant Discharge Elimination System permit for the Terminal.
17.

Upon information and belief, ExxonMobil1 is the world’s fifth largest company by

revenue and the third largest publicly traded company by market capitalization. ExxonMobil
was ranked ninth globally on the Forbes Global 2000 list in 2016 and was the second most
profitable company in the Fortune 500 in 2016.

For ease of reference herein, “ExxonMobil” will be used herein to refer to ExxonMobil
Corporation, ExxonMobil Oil Corporation, ExxonMobil Pipeline Company, and their
predecessors collectively.
1

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18.

ExxonMobil is a large producer of oil and gas, producing, upon information and belief,

approximately 3.9 million BOE (barrels of oil equivalent) every day. ExxonMobil’s reserves
exceed, upon information and belief, 25 billion BOE. With 37 oil refineries in 21 countries
constituting a combined daily refining capacity of 6.3 million barrels, ExxonMobil is the largest
oil refiner in the world.
STATUTORY AND REGULATORY BACKGROUND
Resource Conservation and Recovery Act
19.

RCRA’s citizen suit provision, 42 U.S.C. § 6972, provides in relevant part:
[A]ny person may commence a civil action on his own behalf-(1)(A) against any person . . . who is alleged to be in violation of
any permit, standard, regulation, condition, requirement,
prohibition, or order which has become effective pursuant to this
chapter; or (B) against any person . . . including any past or present
generator, past or present transporter, or past or present owner or
operator of a treatment, storage, or disposal facility, who has
contributed or who is contributing to the past or present handling,
storage, treatment, transportation, or disposal of any solid or
hazardous waste which may present an imminent and substantial
endangerment to health or the environment[.]

42 U.S.C. § 6972(a)(1).
20.

“RCRA’s primary purpose . . . is to reduce the generation of hazardous waste and to

ensure the proper treatment, storage, and disposal of that waste which is nonetheless generated,
‘so as to minimize the present and future threat to human health and the environment.’” Meghrig
v. KFC W., Inc., 516 U.S. 479, 483 (1996) (quoting 42 U.S.C. § 6902(b)).
21.

RCRA’s citizen suit provision “allows citizen suits when there is a reasonable prospect

that a serious, near-term threat to human health or the environment exists.” Me. People’s All. &
Nat. Res. Def. Council v. Mallinckrodt, Inc., 471 F.3d 277, 279 (1st Cir. 2006).

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Clean Water Act
22.

Congress enacted the Clean Water Act to “restore and maintain the chemical, physical,

and biological integrity of the Nation’s waters.” 33 U.S.C. § 1251(a). To accomplish that
objective, Congress set as a national goal that “the discharge of pollutants into the navigable
waters be eliminated . . . .” Id.
23.

Accordingly, Section 301(a) of the Clean Water Act, 33 U.S.C. § 1311(a), prohibits the

discharge of any pollutant into waters of the United States from a point source, unless the
discharge complies with various enumerated sections of the Act.
24.

Among other things, Section 301(a) prohibits discharges not authorized by, or in

violation of, the terms of a valid NPDES permit issued pursuant to Section 402(p) of the CWA,
33 U.S.C. § 1342(p).
25.

Section 502(14) of the Clean Water Acts defines “point source” broadly to include “any

discernible, confined and discrete conveyance, including but not limited to any pipe, ditch,
channel, tunnel, conduit, well, discrete fissure, container, rolling stock, concentrated animal
feeding operation, or vessel or other floating craft, from which pollutants are or may be
discharged.” 33 U.S.C. § 1362(14).
26.

Under the regulations implementing the Clean Water Act, the definition of “discharge of

a pollutant” includes “additions of pollutants into waters of the United States from: surface
runoff which is collected or channelled by man.” 40 C.F.R. § 122.2.
27.

Dischargers of pollutants, including industrial wastewater, process water and stormwater

associated with industrial activity, must obtain and comply with the requirements of NPDES
permits issued under Section 402 of the Clean Water Act, 33 U.S.C. § 1342.

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28.

NPDES discharge permits contain pollutant sampling and monitoring requirements and

limits on the amount or concentration of allowable pollutants, in addition to requirements
regarding control measures, best management practices, and recordkeeping and reporting.
29.

The discharge of any pollutant in violation of a NPDES permit, the failure to conduct

required monitoring for pollutant discharges, and the failure to comply with other requirements
of a NPDES permit are all violations of the Clean Water Act, 33 U.S.C. §§ 1311(a), 1342.
30.

Section 505(a)(1) of the Clean Water Act, 33 U.S.C. § 1365(a)(1), provides for citizen

enforcement actions against any “person” who is alleged to be in violation of an “effluent
standard or limitation . . . or an order issued by the Administrator or a State with respect to such
a standard or limitation.”
31.

Such enforcement action under Clean Water Act Section 505(a) includes an action

seeking remedies for unauthorized discharges in violation of Section 301 of the Clean Water Act,
33 U.S.C § 1311, as well as for failing to comply with one or more permit conditions in violation
of Sections 402 and 505(f) of the Act, 33 U.S.C. §§ 1342, 1365(f).
32.

Each separate violation of the Clean Water Act subjects the violator to a penalty of up to

$37,500 per day per violation for all violations occurring between January 12, 2009 and
November 2, 2015, and up to $51,570 per day per violation for all violations occurring after
November 2, 2015. See 33 U.S.C. §§ 1319(d), 1365(a); 40 C.F.R. §§ 19.1–19.4.

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FACTUAL BACKGROUND
ExxonMobil’s Everett Terminal
33.

ExxonMobil’s Everett Terminal, located in Everett, Massachusetts (“Everett Terminal”

or “Terminal”) is a petroleum products distribution and bulk storage terminal that has operated
since 1965. It had previously operated as a refinery from 1921 to 1964.
34.

The Terminal is composed of approximately 110 acres and consists of a light fuel

(gasoline, diesel and jet fuel) storage area known as the North Tank Farm; a heavy fuel oil and
asphalt storage area known as the South Tank Farm; and a marine bulk products receiving and
shipping facility known as the Marine Facilities.
35.

Sprague Energy is an asphalt storage and distribution facility located within the South

Tank Farm on property formerly owned by ExxonMobil.
36.

ExxonMobil’s Everett Terminal is engaged in the receipt, storage, and distribution of

petroleum products. The spectrum of fuels handled by this facility consists of gasoline, low
sulfur diesel, jet fuel, heavy oil, and fuel additives. Petroleum products are received in bulk
quantities at the Everett Terminal’s marine vessel dock and then transferred, via aboveground
piping, to aboveground storage tanks located within the facility’s “tank farm.” The “tank farm”
is comprised of a tank truck loading rack and twenty-nine storage tanks in which petroleum
products are stored. Final distribution of product is conducted at the Terminal’s truck loading
racks.
37.

ExxonMobil’s Everett Terminal generates, stores, handles, and disposes of toxic and

hazardous chemicals, metals, and compounds including but not limited to: Ignitable Waste,
Petroleum Hydrocarbons, Benzene, Toluene, Ethylbenzene, (m,p,o), Xylenes, tert-Butyl
Alcohol, Naphthalene, Phenols, Phthalates (Phthalate esthers), Polycyclic Aromatic
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Hydrocarbons (“PAHs”), Acenaphthene, Anthracene, Fluoranthene, Fluorene, Naphthalene,
Phenanthrene, Pyrene, Antimony, Arsenic, Cadmium, Copper, Lead, Nickel, Selenium, and Zinc.
38.

The Terminal’s marine transfer area is comprised of three berths (Berths 1, 3, and 4). At

active berths, barges and ships offload petroleum products that are piped to and stored in the
tanks within the tank farm. Those products are then piped to the Terminal’s truck loading rack,
where they are loaded onto trucks and distributed.
39.

The Terminal is typically operated by a regular staff of approximately fourteen

employees, who operate out of an office building located adjacent to the tank farm and just north
of the marine docking facility. The regular Terminal staff consists of a terminal superintendent,
a terminal supervisor, nine terminal operators who cover twenty-four hour operations of the
Terminal, an electrician, a mechanic, and an accountant. At any given time, at least two terminal
operators are on duty. Additional Terminal support is provided by a field operations specialist,
an area administrator, and an area engineer.
40.

ExxonMobil Pipeline is responsible for the proper operation and maintenance of the

facility. Those responsibilities entail, among other duties, monitoring the Terminal and, when
necessary, cleaning, repairing, and replacing, as appropriate, worn or damaged equipment,
including pipes, valves, docks and tanks. Likewise, ExxonMobil Pipeline was and is responsible
for monitoring the transfer of petroleum products at each point in the process, from delivery at
the marine transfer area through the receipt and storage of those products in the tanks in the tank
farm, to the transport of those products to the truck loading rack where they are loaded on trucks
for distribution.

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41.

The ExxonMobil Everett Terminal operations also include the collection and discharge of

stormwater from all areas of the Terminal, including from Sprague Energy.
42.

All of the stormwater discharged is collected by the Terminal’s stormwater collection

system which drains to a treatment works near the eastern edge of the North Tank Farm.
43.

Residential areas are located in close proximity to the Terminal.
Discharges to the Island End River & ExxonMobil’s NPDES Permit

44.

ExxonMobil operates the Everett Terminal pursuant to EPA NPDES Permit No.

MA0000833, as modified on October 12, 2011 (“the Permit”).
45.

The Permit authorizes ExxonMobil, subject to certain conditions, to discharge

stormwater, groundwater, steam condensate, tank bottoms, and potable water (used for garage
floor washing, hydrostatic testing, truck washing, fire testing, landscape watering, and safety
showers).
46.

The receiving water identified in ExxonMobil’s Permit is the Island End River (Boston

Harbor/Mystic River Watershed/Segment MA71-03), a small tributary to the Mystic River.
47.

The Island End River flows into the Mystic River, approximately half a mile west of the

Mystic River’s confluence with Boston Harbor.
48.

The Island End River is designated as a Class SB water body by the Commonwealth of

Massachusetts, meaning that it is “designated as a habitat for fish, other aquatic life and wildlife,
including for their reproduction, migration, growth and other critical functions, and for primary
and secondary contact recreation.” 314 Mass. Code Regs. 4.05.

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49.

Under Section 303(d) of the Clean Water Act, states are required to develop information

on the quality of their water resources and report this information to the EPA, the U.S. Congress,
and the public.
50.

In Massachusetts, the responsibility for identifying waters that are impaired, meaning that

they do not meet the Massachusetts Water Quality Standards, 314 CMR 4.0, resides with the
Massachusetts Department of Environmental Protection (“MassDEP”).
51.

The MassDEP’s most recent assessment of impaired waters was published in

Massachusetts Year 2014 Integrated List of Waters, MassDEP (Dec. 2015).
52.

The Massachusetts Year 2014 Integrated List of Waters identifies the lower reach of the

Mystic River (Segment ID No. MA71-03, which includes the Island End River) as one of the
waterways within Massachusetts that is impaired. The impairment, as identified by the
MassDEP, is related to the presence of the following pollutants, which were not considered to be
present due to natural causes: Ammonia (Un-ionized); Dissolved Oxygen; Foam/Flocs/Scum/Oil
Slicks; Petroleum Hydrocarbons; Taste and Odor; Fecal Coliform; PCB in Fish Tissue; Sediment
Screening Value (Exceedence); and Other.
53.

The Massachusetts Year 2010 Integrated List of Waters identified this section of the

Mystic River, including the Island End River, as impaired for the following pollutants: Ammonia
(Un-ionized); Dissolved Oxygen; Foam/Flocs/Scum/Oil Slicks; Petroleum Hydrocarbons; Taste
and Odor; Fecal Coliform; PCB in Fish Tissue; and Other. Massachusetts Year 2010 Integrated
List of Waters, MassDEP (Nov. 2011).

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54.

As required by statute, EPA has included conditions in the Permit to ensure that

discharges from the Terminal will not cause or contribute to a violation of the Massachusetts
Water Quality Standards.
55.

Stormwater discharges from the Everett Terminal are conveyed to the Island End River

by means of a 6-foot diameter, 1,500 foot long culvert. The downstream end of the culvert is
regularly submerged by, and its flow influenced by, the tidal influences of the Island End River.
56.

There are three discharge outfalls from the Everett Terminal that connect to the culvert:

Outfalls 01A, 01B, and 01C. The Permit includes mandatory permit conditions that specify the
required operation of the stormwater system, including specific conditions and limitations
governing the discharge from each outfall.
57.

The mandatory operational protocol in the permit was implemented pursuant to a

settlement agreement between ExxonMobil and EPA, whereby ExxonMobil “agreed to
extensively redesign its effluent treatment system in order to improve effluent quality under all
flow conditions, including through the use of a continuously operated advanced treatment
system, and a flow equalization tank to store storm water volume during periods of peak storm
water flow.” Response to Comments on Draft Modification of NPDES Permit No. MA0000833,
at 1-2 (attached to Permit).
58.

The Permit requires that all discharges up to and including a volume of 280 gpm must

occur through Outfall 01C.
59.

Discharges through Outfall 01C are treated by a continuously operated advanced

treatment system, which was implemented to improve effluent quality under all flow conditions.

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60.

The permit includes numeric effluent limitations for each outfall, including effluent

limitations for PAHs.
Spill Prevention and Response Measures Required at the Everett Terminal
61.

The Permit requires that ExxonMobil “develop, implement, and maintain a Storm Water

Pollution Prevention Plan (“SWPPP”) designed to reduce, or prevent, the discharge of pollutants
in storm water to the receiving waters.” Permit Part I.B.1, p. 13.
62.

The Permit requires that: “the SWPPP shall contain the elements listed below: A

description of all storm water controls, both structural and non-structural. [Best Management
Practices (“BMPs”)] must include . . . preventative maintenance programs, spill prevention and
response procedures, runoff management practices, and proper handling of deicing materials.
The SWPPP shall describe how the BMPs are appropriate for the facility. All BMPs shall be
properly maintained and be in effective operating conditions.” Permit Part I.B.4(e), p. 13-14.
63.

The Permit incorporates spill prevention and response procedures as a BMP in the

SWPPP.
64.

Applicable spill prevention and response procedures include a Spill Prevention, Control,

and Countermeasures (“SPCC”) Plan, which is required pursuant to 40 C.F.R. § 112, Subpart A.
65.

ExxonMobil is required to prepare an SPCC for the Everett Terminal because it is an

“owner or operator of a non-transportation-related onshore or offshore facility engaged in
drilling, producing, gathering, storing, processing, refining, transferring, distributing, using, or
consuming oil and oil products, which due to its location, could reasonably be expected to
discharge oil in quantities that may be harmful, as described in part 110 of this chapter, into or

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upon the navigable waters of the United States or adjoining shorelines . . .” 40 C.F.R.
§ 112.1(b).
66.

The SPCC must include “procedures, methods, equipment, and other requirements to

prevent the discharge of oil from non-transportation-related onshore and offshore facilities into
or upon the navigable waters of the United States or adjoining shorelines . . .” 40 C.F.R.
§ 112.1(a)(1).
67.

The SPCC regulations highlight the importance of SPCC Plans:
SPCC Plans are designed to complement existing laws, regulations,
rules, standards, policies, and procedures pertaining to safety
standards, fire prevention, and pollution prevention rules. The
purpose of an SPCC Plan is to form a comprehensive Federal/State
spill prevention program that minimizes the potential for discharges.
The SPCC Plan must address all relevant spill prevention, control,
and countermeasures necessary at the specific facility. Compliance
with this part does not in any way relieve the owner or operator of
an onshore or an offshore facility from compliance with other
Federal, State, or local laws.

40 C.F.R. § 112.1(e).
68.

The SPCC regulations state that:
Except as provided in §112.6, a licensed Professional Engineer must
review and certify a Plan for it to be effective to satisfy the
requirements of this part. (1) By means of this certification the
Professional Engineer attests: (i) That he is familiar with the
requirements of this part; (ii) That he or his agent has visited and
examined the facility; (iii) That the Plan has been prepared in
accordance with good engineering practice, including consideration
of applicable industry standards, and with the requirements of this
part; (iv) That procedures for required inspections and testing have
been established; and (v) That the Plan is adequate for the facility.
(vi) That, if applicable, for a produced water container subject to
§112.9(c)(6), any procedure to minimize the amount of free-phase
oil is designed to reduce the accumulation of free-phase oil and the
procedures and frequency for required inspections, maintenance and
testing have been established and are described in the Plan. (2) Such
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certification shall in no way relieve the owner or operator of a
facility of his duty to prepare and fully implement such Plan in
accordance with the requirements of this part.
40 C.F.R. § 112.3(d).
69.

Applicable spill prevention and response procedures include a Facility Response Plan

(“FRP”), which is required pursuant to 40 C.F.R. § 112, Subpart A.
Risks to the Everett Terminal
70.

The Everett Terminal is vulnerable to sea level rise, increased precipitation, increased

magnitude and frequency of storm events, and increased magnitude and frequency of storm surges
due to its location, elevation, and lack of preventative infrastructure.
71.

ExxonMobil has not implemented needed actions to address and eliminate these

vulnerabilities at the Everett Terminal.
72.

For Everett, Massachusetts, the flood of record for storm surge risk occurred in February

1978 and had a flood elevation of 10.5 feet.
73.

Upon information and belief, the majority of the areas at the Everett Terminal are at or

below 10.5 feet.
74.

Preparation for spills and other releases of hazardous substances is especially important at

the Everett Terminal given its vulnerability to sea level rise, increased precipitation, increased
magnitude and frequency of storm events, and increased magnitude and frequency of storm surges.
75.

The Federal Emergency Management Agency (“FEMA”) flood maps for Boston, Chelsea,

Revere, and Winthrop were recently updated in part to reflect readily available information

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regarding climate change-induced sea level rise and storm surge predictions. The updated FEMA
maps for Chelsea include a substantial part of the city in the flood hazard zone.
76.

Applying the same data and information that were applied to Chelsea to Everett, places a

substantial part of ExxonMobil’s Everett Terminal in the flood hazard zone.
77.

The boundary between the cities of Everett and Chelsea is in close proximity to, and at the

same elevation as, the Everett Terminal and the area of Chelsea nearest the Everett Terminal is in
the flood hazard zone.
78.

Despite the extensive information and knowledge in ExxonMobil’s possession regarding

climate change-induced impacts, including knowledge and information about increased
precipitation, storm surge and sea level rise, ExxonMobil has not requested an update of the FEMA
flood hazard maps for the location of its Everett Terminal.
79.

A severe rainfall event in July 2010 (NRC Report No. 947252), together with

ExxonMobil’s failure to fortify its Terminal against increased risks from extreme weather events,
produced a failure of the Everett Terminal’s treatment system that resulted in a discharge of
untreated pollutants directly into the Island End River. In an August 15, 2010 letter to the
MassDEP, ExxonMobil explained that this failure and unpermitted, untreated discharge occurred
in part because:
On July 10th the facility experienced a severe rainfall event, noted in
the Boston and Cambridge area as a rainfall of 2-3.5” of rain in ~2
hrs. The sudden intense rainfall resulted in the flooding of the
facility oil water separator, compromising the function of the
system. Water continued to be pumped from the suction end of the
[Oil Water Separator].

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Letter from A. F. Powers, Terminal Superintendent, ExxonMobil Pipeline Co., to Water
Technical Unit, U.S. EPA, Submission of Discharge Monitoring Reports, Permit No.
MA0000833 (Aug. 15, 2010)
80.

As indicated in the “SLOSH” model (Sea, Lake, and Overland Surges from Hurricanes),

the majority of the Everett Terminal is included within a “Category 1” Hurricane Surge
Inundation Zone, which is indicated by the color light green as shown in the legend below the
map on this page:

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http://maps.massgis.state.ma.us/map_ol/oliver.php
81.

The threat of a rise in sea level at the Terminal is imminent, as indicated by the following

map, which shows that a four-foot or greater rise in sea level will inundate much of the Terminal:

http://maps.massgis.state.ma.us/map_ol/oliver.php

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82.

The Terminal is at risk of discharging oil and other pollutants due to climate change-

induced sea level rise.
83.

The Terminal is at risk of discharging oil and other pollutants due to climate change-

induced storm surge.
84.

The Terminal has discharged, and is at risk of discharging, oil and other pollutants due to

climate change-induced increased precipitation.
85.

The Terminal has discharged, and is at risk of discharging, oil and other pollutants due to

climate change-affected weather events.
86.

The Terminal has discharged, and is at risk of discharging, oil and other pollutants due to

climate change-affected severe weather events.
87.

The Terminal has discharged, and is at risk of discharging oil and other pollutants due to

climate change-affected extreme weather events.
88.

ExxonMobil is aware of these risks, yet has failed to design and implement protective

measures to fortify the Everett Terminal as required under federal law.
Climate Change Impacts
89.

The harms associated with climate change are serious and well recognized.

Massachusetts v. EPA, 549 U.S. 497, 521 (2007).
90.

“That global warming is taking place as a result of human emissions of carbon dioxide

and other greenhouse gases, and that its consequences are likely to be harmful, is widely
accepted in the scientific community.” Green Mountain Chrysler Plymouth Dodge Jeep v.
Crombie, 508 F. Supp. 2d 295, 341 (D. Vt. 2007).

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91.

In 2013, the President of the United States issued an Executive Order entitled “Preparing

the United States for the Impacts of Climate Change.” That Executive Order states that “[t]he
impacts of climate change—including an increase in prolonged periods of excessively high
temperatures, more heavy downpours, an increase in wildfires, more severe droughts, permafrost
thawing, ocean acidification, and sea-level rise—are already affecting communities, natural
resources, ecosystems, economies, and public health across the Nation.” Exec. Order No. 13653,
78 Fed. Reg. 66,819 (Nov. 6, 2013).
92.

According to the Third National Climate Assessment:
a.

“Global climate is changing and this is apparent across the U.S. in a wide range
of observations. The global warming of the past 50 years is primarily due to
human activities, predominantly the burning of fossil fuels.” Third National
Climate Assessment ((J. M. Melillo et al. eds., 2014) at 15, available at
http://nca2014.globalchange.gov/report).

b. “Some extreme weather and climate events have increased in recent decades, and
new and stronger evidence confirms that some of these increases are related to
human activities.” Id.
c. “Human-induced climate change is projected to continue, and it will accelerate
significantly if global emissions of heat-trapping gases continue to increase.” Id.
d. “Impacts related to climate change are already evident in many sectors and are
expected to become increasingly disruptive across the nation throughout this
century and beyond.” Id.

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e. “Climate change threatens human health and well-being in many ways, including
through more extreme weather events and wildfire, decreased air quality, and
diseases transmitted by insects, food, and water.” Id. at 16.
f. “Infrastructure is being damaged by sea level rise, heavy downpours, and extreme
heat; damages are projected to increase with continued climate change.” Id.
g. “Water quality and water supply reliability are jeopardized by climate change in a
variety of ways that affect ecosystems and livelihoods.” Id.
h. “Climate disruptions to agriculture have been increasing and are projected to
become more severe over this century.” Id.
i. “Ecosystems and the benefits they provide to society are being affected by climate
change. The capacity of ecosystems to buffer the impacts of extreme events like
fires, floods, and severe storms is being overwhelmed.” Id. at 17.
j. “Ocean waters are becoming warmer and more acidic, broadly affecting ocean
circulation, chemistry, ecosystems, and marine life.” Id.
k. “Planning for adaptation (to address and prepare for impacts) and mitigation (to
reduce future climate change, for example by cutting emissions) is becoming
more widespread, but current implementation efforts are insufficient to avoid
increasingly negative social, environmental, and economic consequences.” Id.
93.

According to the Massachusetts Climate Change Adaptation Report:
(a) “Massachusetts’ climate is already changing and will continue to do so over the
course of this century—ambient temperature has increased by approximately 1°C
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(1.8°F) since 1970 and sea surface temperature by 1.3°C (2.3°F) between 1970 and
2002. These warming trends have been associated with other observed changes,
including a rise in sea level of 22 centimeters (cms) between 1921 and 2006.”
Executive Office of Energy and Environmental Affairs, Massachusetts Climate
Change Adaptation Report (Sept. 2011), at 7.
(b) “Assuming that sea level continues to increase at its current rate, because land in
Massachusetts is naturally subsiding, by the end of the century, it is expected to rise
by another one foot (IPCC, 2007). In addition, the magnitude of sea level rise is
predicted to be compounded by thermal expansion of the oceans, the melting of ice
on land (such as Greenland) and the collapse of the West Antarctic Ice Sheet. By the
end of this century, under the IPCC high emissions scenario with ice melt, it has been
suggested that sea level rise resulting from all these factors could reach six feet.” Id.
at 8 (internal citations omitted).
(c) “Regarding infrastructure, the most significant vulnerability of existing structures
stems from the fact that they were built based on historic weather patterns, not taking
into account future predicted changes to sea level, precipitation, or flooding. This
puts the infrastructure at increased risk of future damage and economic costs.” Id. at
10.
(d) “There are several factors that contribute to sea level rise—expansion of the water as
its temperature rises, changing water currents, and melting of ice on land (such as
Greenland). In Massachusetts, these factors are further amplified by local subsidence
of land. Relative sea level rise in Massachusetts from 1921 to 2006 was 2.6
millimeters annually (0.10 inches/year)—an increase of approximately 26 centimeters
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or 10.2 inches per century. Over that same time period, the global rate of sea level
rise was about 1.7 mm/year (0.07 inches/year). Thus, there is about 1 mm/year (0.04
inches/ year) local land subsidence in the relative sea level record.” Id. at 21-22
(internal citations omitted).
(e) “The Massachusetts Climate Change Adaptation Advisory Committee relied on three
sources of projections for sea level rise by 2100 (Table 2 and Figure 4). First, the
2007 IPCC projections are widely viewed as conservative but are highly credible and
internationally recognized. Second, the Rahmstorf et al. (2007) approach uses a
relationship between global mean surface temperature and sea level and then projects
future changes using the IPCC Third Assessment Report (2001) temperature
scenarios. Third, Pfeffer et al. (2008) use the IPCC (2007) steric projection, and add
ice melt to it. Pfeffer et al. (2008) base this on physically plausible melt or
deterioration rates for Greenland, Antarctica, and other glaciers and ice caps related to
different rates of melting and discharge that are known from ice sheet and glacier
behavior.” Id. at 22.
(f) “Sea currents also play a role in sea level rise along the Massachusetts coast. The
northeastern U.S. may experience additional sea level rise above the global mean due
to changes in the strength of the Atlantic Meridional Overturning Circulation, of
which the Gulf Stream is a part. As the Atlantic Meridional Overturning Circulation
slows, the dynamic topography of the sea surface changes and sea-level rises along
the coast. Yin et al. (2009) suggest that there is the potential for an additional 15 to
27 cm (5.9 to 10.6 in.) sea level rise in Boston by 2100, while Hu et al. (2009)

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suggest that a sea level rise of 10 to 30 cm (3.9 to 11.8 in.) will occur in the
northeastern U.S. by 2100.” Id. (internal citations omitted).
(g) “Finally, Bamber et al. (2009) found that the collapse of the West Antarctic Ice Sheet
would not only add to sea level rise but, as it shrinks, would also cause a
redistribution of ocean mass due to the reduced gravitational attraction of the smaller
West Antarctic Ice Sheet. This would be a global effect, most pronounced in a band
at ~40° north latitude where the sea level rise is projected to be about 25 percent more
than elsewhere around the globe. Coastal Massachusetts extends from roughly
41°10'N to 42°53'N and would experience the full brunt of this impact. There is
presently high uncertainty regarding the potential for full West Antarctic Ice Sheet
collapse, but this effect also applies to a partial collapse. Overall, by 2100 sea level
rise in Massachusetts could range from 29 to 201 cm.” Id.
(h) “Current rates of sea level rise and projections for accelerated trends are all
significant threats to the coastal communities of the state. Sea level rise would
increase the height of storm surges and associated coastal flooding frequencies,
permanently inundate low-lying coastal areas, and amplify shore line erosion.
Extensive development and infrastructure, both public and private, would be affected
in these expanding vulnerable areas.” Id. at 22-23.
(i) “Analysis of five coastal sites in the Northeast, including Boston and Woods Hole,
indicates that future sea level rise would create significant increases in the frequency
of today’s 100-year flood events.” Id. at 23 (internal citations omitted).

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(j) “Engineered structures, such as seawalls designed to stabilize shorelines, could be
overtopped.” Id.
(k) “It is forecast that the Northeast will experience a greater frequency of high
precipitation events . . . . Scientists predict an 8 percent increase in extreme
precipitation events in the northeastern U.S. by mid-century, and up to a 13 percent
rise by 2100. Rainfall during the wettest five-day period each year is projected to
increase by 10 percent by mid-century and by 20 percent by the end of the century.”
Id. at 25 (internal citations omitted).
(l) “By 2050, Boston could experience the current 100-year riverine flood every two to
three years on average and, by 2100, the current 100-year riverine flood is expected to
occur every one to two years under both the low- and high-emissions scenarios. In
the case of coastal storms, the frequency and timing of winter storms or nor’easters
could change. Under the low-emissions scenario, little change is predicted in the
number of nor’easters striking the Northeast, but it could experience approximately 5
to 15 percent more late-winter storms under the high-emissions scenario.” Id.
(internal citations omitted).
(m) “The energy sector’s three primary climate change concerns are flooding (due to
increased precipitation and storm surge), extreme events (such as hurricanes and
snow and ice storms), and increased temperature.” Id. at 62.
(n) “The following are the predicted impacts on energy infrastructure: . . .”
i. “Extreme and more frequent weather events, including flooding, may
damage energy production and delivery equipment such as generation
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plants (e.g. the Pilgrim nuclear power station), terminals, storage facilities
and above- and below-ground wires and pipes. Damaged infrastructure
will lead to interrupted service, degraded energy reliability, increased
equipment maintenance or replacement costs, and adverse impacts to
public safety.” Id.
ii. “Sea level rise and storm-related flooding may require relocating coastal
infrastructure, which would require new real estate acquisitions for
replacement sites.” Id.
iii. “Extreme temperature changes could result in an increased demand for
cooling in summer and a decreased demand for heating in winter. One
2005 study of changes in Boston’s heating and cooling demand indicates
that, ‘depending on the climate scenario, household electricity
consumption in peak summer months may be nearly three times that of the
1960-2000 average, with over 25 percent of the increase directly
attributable to climate change.’ Such changes also can shift energy
production and use. For example, high temperatures reduce thermal
efficiency of electric generation. This could challenge the ability of the
electric system operators to meet peak electricity demands.” Id. (internal
citations omitted).
iv. “There may be lengthened repair times and delays. Repair crews will find
it more difficult to work in protective gear for extended periods in high
temperatures, during prolonged rain or in extreme cold.” Id.

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(o) “Other entities that have the potential to generate hazardous waste in the event of a
natural disaster include waste generators such as retailers with hazardous materials
(e.g., pharmacies and chain retail stores), certain chemical handling businesses, fuel
tank farms, waste transporters, and residences equipped with heating oil tanks and
containing hazardous household products.” Id. at 69.
(p) “Potential Strategies identified in the Massachusetts Climate Change Adaptation
Report to address the serious harms threatened by large quantity hazardous waste
generators include: . . .”
a. “Ensure that contingency plans for hazardous waste treatment, storage, and
disposal facilities and large quantity generators include a description of
procedures, structures, or equipment used at the facilities to prevent flooding and
run-off from hazardous waste handling areas.” Id. at 69.
b. “Develop better mapping data to identify solid and hazardous waste facilities that
would be vulnerable to rising sea level and new, more frequent, or more severe
flooding.” Id.
c. “Consider requiring all solid and hazardous waste facilities operating in areas
prone to coastal or inland flooding to prepare adaptation plans. This could be
addressed through the permit renewal process.” Id.
d. “Evaluate modification of the siting and design requirements for new and
expanded waste management facilities to account for predicted site-specific
climate change impacts that could be expected during the life of the facility.” Id.
at 70.
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94.

Massachusetts coastal communities regularly face impacts associated with storm damage,

flooding, and erosion, which affect residential and commercial development, infrastructure and
critical facilities, and natural resources and ecosystems. Sea level rise will exacerbate these
problems, and as the rate of rise accelerates, not only will the impacts from coastal storm events
become more frequent and widespread, but even daily high tides will have adverse effects. Sea
Level Rise: Understanding and Applying Trends and Future Scenarios for Analysis and Planning
(2013) at 5 (available at http://www.mass.gov/eea/docs/czm/stormsmart/slr-guidance-2013.pdf).
95.

This unfortunate reality has been demonstrated recently in the context of severe weather

events, including Superstorm Sandy. As reported on November 14, 2012 in the New Jersey
news media outlet NJ.com:
[A]t the Sewaren terminal of Motiva Enterprises, a subsidiary of
Shell, the tidal surge damaged bulk fuel tanks, releasing
approximately 378,000 gallons of low-sulfur diesel, officials said.
Nearly three quarters of that amount escaped the containment area,
rushing into the Arthur Kill and its tributaries. That’s like 30 tanker
trucks pouring their contents into the water.
It represents the largest fuel or oil spill in New Jersey in perhaps a
decade or more, officials said.
‘That’s a major spill,’ said Larry Ragonese, a spokesman for the
state Department of Environmental Protection. ‘On a normal basis,
we would have had quite a bit of uproar and media attention.’
That, of course, did not happen as the region reeled amid death,
destruction and darkness. Quickly and quietly, though, Shell and the
other two oil companies that experienced leaks — at the Phillips 66
refinery in Linden and at the Kinder Morgan terminal in Carteret —
moved in to plug breached tanks and contain what had already been
released.
Within 24 hours, hundreds of workers had responded with oil
skimmers, vacuum trucks, water barges, work boats and thousands
of feet of containment boom, according to local, state and federal
officials who have provided oversight for the work.

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Ryan Hutchins, Oil Spills, Other Hurricane Sandy Damage Present N.J. with Potential Pollution
Headaches, NJ.com. (Nov. 14, 2012), available at:
http://www.nj.com/news/index.ssf/2012/11/hurricane_sandy_oil_spills.html.
96.

Harvard’s Daniel P. Schrag, Sturgis Hooper Professor of Geology in the Faculty of Arts

and Sciences stated in a news report regarding Superstorm Sandy that:
‘By midcentury, this will be the new normal,’ Schrag predicted.
‘How do you deal with extreme heat in the summer? It’s going to
be a challenge, but humans are adaptable. It’s not going to be easy,
just like a 13-foot storm surge will be the new norm on the Eastern
seaboard.’
Edward Mason, Hello Again, Climate Change: Sandy Prompts Renewed Interest and Concern,
and Schrag Says it Should, Harvard Gazette (Nov. 6, 2012) available at:
http://news.harvard.edu/gazette/story/2012/11/hello-again-climate-change/.
ExxonMobil has Long Been Aware of Climate Change and the Related Impacts
97.

ExxonMobil has long been well aware of the present impacts and risks of climate change.

98.

Despite knowing of the certainty of rising temperatures and rising sea levels since as

early as the 1970s, ExxonMobil did not use its findings to prepare its Everett Terminal for such
risks.
99.

ExxonMobil is a science and engineering based company that employs roughly 16,000

scientists and engineers who every day explore the boundaries of scientific knowledge in order to
develop the energy supplies that power the modern economy.
100.

ExxonMobil scientists have contributed climate research and related policy analysis to

more than fifty papers in peer reviewed publications from at least 1977 to the present.

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101.

ExxonMobil scientists and researchers were among the first to grapple with the fact that

there might be a connection between the carbon dioxide emissions from humanity’s use of fossil
fuels and climate fluctuations.
102.

In an October 31, 1977 ExxonMobil interoffice memorandum from H. Shaw to J.

Harrison, ExxonMobil acknowledged the rule of thumb that doubling the current level of CO2
from 330 ppm to about 700 ppm would cause a change of about 2ºC on average in temperature,
and that the “CO2 problem . . . is the most important man-made weather problem that we have to
contend with.” Inter Office Mem. from H. Shaw to J. Harrison on “Environmental Effect of
Carbon Dioxide” (Oct. 31, 1977), at 4.
103.

A May 18, 1978 transcript of a presentation delivered by ExxonMobil’s J.F. Black,

Scientific Advisor to Products Research Division of Exxon Research and Engineering Co., states
that, based on estimates of fossil fuel consumption that agree with ExxonMobil’s, “one recent
study predicts that in 2075 A.D., CO2 concentration will peak at a level about twice what could
be considered normal.” Letter from J.F. Black to F.G. Turpin, Vice President, Exxon Research
and Engineering Co. Petroleum Staff, (June 6, 1978), at 2 (attaching “Greenhouse Effect
Presentation Transcript of May 18, 1978”).
104.

Mr. Black’s presentation further concludes that “the best presently available climate

model for treating the Greenhouse Effect predicts that a doubling of the CO2 concentration in the
atmosphere would produce a mean temperature increase of about 2ºC to 3ºC over most of the
earth” and that “there is no guarantee that better knowledge will lessen rather than augment the
severity of the predictions.” Id. at 3.

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105.

According to Mr. Black, “[p]resent thinking holds that man has a time window of five to

ten years before the need for hard decisions regarding changes in energy strategies might become
critical.” Id. “Atmospheric scientists generally attribute this growth in CO2 to the combustion of
fossil fuel.” Id. at 5.
106.

The presentation further confirmed that “it is generally accepted by climatologists that a

doubling of the carbon dioxide concentration in the atmosphere would produce from 1.5ºC –
3.0ºC warming at the earth’s surface in the lower and mid-latitudes with about 2 to 3 times
greater effect at the poles,” and “that the expected temperature increase would be large even
compared to the temperatures at the time of the last interglacial.” Id. at 11.
107.

In December 1978, ExxonMobil’s H. Shaw of Government Research Labs of Exxon

Research and Engineering Co. wrote to E.E. David, General Administration, describing a
proposed ExxonMobil tanker research program to measure CO2 uptake by oceans and wine to
estimate relative contribution to atmospheric CO2 concentration of fossil fuel combustion and
forest clearing. One rationale for the research program, he explained, was to be able to “carry
bad news, if any, to the corporation.” Letter from Henry Shaw to r. Edward E. David, Jr. (Dec.
7, 1978), at 2.
108.

Soon thereafter, an ExxonMobil research memorandum entitled “Controlling the CO2

Concentration in the Atmosphere” recognized that CO2 concentrations were 15% higher than in
1850 and “appear[] to be doubling every 15 years.” Mem. on “Controlling Atmospheric CO2”
(Oct. 16, 1979), at 1.
109.

According to the memorandum, the most widely held theory was that the increase in CO2

concentrations was due to fossil fuel combustion, that it would cause a warming of the earth’s

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surface, and that the present trend of fossil fuel consumption would cause “dramatic
environmental effects before the year 2050.” Id.
110.

The memorandum goes on to state that “[t]he potential problem is great and urgent,” id.

at 2 (emphasis in original), and “[m]any models today predict that doubling the 1860
atmospheric CO2 concentration will cause a 1º to 5ºC global temperature increase,” id. at 3.
Such doubling would occur by about 2050. Id.
111.

The memorandum quotes a 1969 E.K. Peterson study regarding the effects of doubling

1860 CO2 concentration, including a temperature increase of 9ºF above 1950 levels and sea level
rise of 4 feet. See id. at Appendix A.
112.

The memorandum concludes in part that “[t]he present trends of fossil fuel combustion

with a coal emphasis will lead to dramatic world climate changes within the next 75 years”
according to many climate models. Id. at 1.
113.

Mr. Ferrall’s letter enclosing the memorandum cautioned that:
The major conclusion from this report is that, should it be deemed
necessary to maintain atmospheric CO2 levels in order to prevent
significant climatic changes, dramatic changes in patterns of energy
use would be required. World fossil fuel resources other than oil
and gas could never be used to an appreciable extent.

Mem. from W.L. Ferrall, to R.L. Hirsh on “Controlling Atmospheric CO2” (Oct. 16, 1979)
(enclosing October 16, 1979 Mem. on “Controlling Atmospheric CO2”).
114.

In December 1980, a research memo prepared by Exxon Research & Engineering

Company entitled CO2 Greenhouse Effect Technological Forecast expressed “[l]ittle doubt” that
atmospheric CO2 concentrations have been increasing since the 1950s. Mem. to T. K. Kett from

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Henry Shaw on “Exxon Research & Engineering Company Technological Forecast: CO2
Greenhouse Effect”, at 1 (attached to Mem. from H. Shaw to T. K. Kett (Dec. 18, 1980)).
115.

ExxonMobil’s December 1980 Technological Forecast further states that, based on

various energy projections, Exxon Research calculations indicated that the doubling of the CO2
concentration “can occur at about 2060. If synthetic fuels are not developed, and fossil fuel
needs are met by petroleum, then the atmospheric CO2 doubling time would be delayed by about
5 years to 2065.” Id. at 3.
116.

According to the December 1980 Technological Forecast, “[t]he most widely accepted

calculations carried on thus far on the potential impact of a doubling of carbon dioxide on
climate indicate that an increase in the global average temperature of 3±1.5ºC is most likely . . .
with greater warming occurring [sic] at the . . . polar regions.”

The forecast went on to say that

calculations projecting lower average temperature increases “are not held in high regard by the
scientific community.” Id.
117.

The Forecast predicted that “a general concensus [sic] will not be reached until such time

as a significant temperature increase can be detected above the natural random temperature
fluctuations in average global climate. The earliest that such discreet signals will be able to be
measured is after the year 2000.” Id. at 4.
118.

An August 18, 1981 memorandum from R.W. Cohen, Director, Theoretical and

Mathematical Laboratory of Exxon R & E Co., to W. Glass stated that:
it is distinctly possible that the CPD scenario will later produce
effects which will indeed be catastrophic (at least for a substantial
fraction of the earth’s population). This is because the global
ecosystem in 2030 might still be in a transient, headed for much
more significant effects after time lags perhaps of the order of
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decades. If this indeed turns out to be the case, it is very likely that
we will unambiguously recognize the threat by the year 2000
because of advances in climate modeling and the beginning of real
experimental confirmation of the CO2 effect.

Inter-Office Correspondence from R. W. Cohen to W. Glass (Aug. 18, 1991), at 1 (with
attachments).
119.

An April 1, 1982 Technical Review and accompanying summary on CO2 Greenhouse

Effect prepared by the Coordination and Planning Division of Exxon R & E Company (marked
“Proprietary Information, for Authorized Company Use Only”) updated the company’s “[b]est
estimate” of CO2 doubling, concluding that it would increase average global temperature from
1.3º to 3.1ºC, with 10ºC at the poles and very little at the equator. Summary of Technical
Review (April 1, 1982), at 1. While claiming that the problem might not be as significant as a
nuclear holocaust or world famine, the Technical Review acknowledged that “[a]t the high end,
some scientists suggest there could be considerable adverse impact including the flooding of
some coastal land masses as a result of a rise in sea level due to melting of the Antarctic ice
sheet,” id. at 1, and that “if the Antarctic ice sheet . . . should melt, then this could cause a rise in
sea level on the order of 5 meters.” Technical Review (April 1, 1982) at 12-13 (providing
estimates of time for melting range from hundreds to a thousand years).
120.

The Technical Review also advised ExxonMobil that a draft Massachusetts Institute of

Technology and Oak Ridge Laboratory report that considered CO2 concentration of 500-1000
ppm as the “assumed threshold for inducing great irreversible harm to our planet, such as causing
a large ocean level rise due to melting polar ice.” Id. at 18.

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121.

Despite knowing of the imminence of rising temperatures and rising sea levels,

ExxonMobil did not use its findings to better fortify its Everett Terminal against such risks.
122.

An August 24, 1982 slide presentation for a meeting with Exxon Corp. personnel

regarding the CO2 Greenhouse Effect indicated that “[w]arming could induce major changes in
climate,” including temperature, rainfall patterns and coastal sea levels. Slide presentation Re:
Basis for the CO2 Greenhouse Effect (Aug. 24, 1982), at 3. Graphs within the presentation
demonstrate estimates of changes in global average surface temperatures for different ranges of
CO2 concentration. For example, a CO2 concentration of 600 ppm shows increase in global
average surface temperature from 2ºC to over 3ºC. Id. at 6.
123.

Despite knowing of that warming global temperatures would result in changes to coastal

sea levels, ExxonMobil did not use its findings to better fortify its Everett Terminal from such
risks.
124.

On September 2, 1982, Roger Cohen, of Exxon Research and Engineering, wrote to A.

M. Natkin, in Exxon’s Office of Science and Technology that:
over the past several years a clear scientific consensus has emerged
regarding the expected climatic effects of increased atmospheric
CO2. The consensus is that a doubling of atmospheric CO2 from its
pre-industrial revolution value would result in an average global
temperature rise of (3.0 ± 1.5) ºC.
Letter from Roger W. Cohen, Director, Theoretical and Mathematical Sciences Laboratory, to A.
M. Natkin, Office of Science and Technology, Exxon Corporation (Sept. 2, 1982), at 1. Mr.
Cohen further stated that:
[t]here is unanimous agreement in the scientific community that a
temperature increase of this magnitude would bring about
significant changes in the earth’s climate, including rainfall
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distribution and alterations in the biosphere . . . . Current
projections indicate that doubling will occur sometime in the latter
half of the 21st century . . . . It is generally believed that the first
unambiguous CO2-induced temperature increase will not be
observable until around the year 2000.
Id. at 1-2. Mr. Cohen noted that ExxonMobil research results are consistent with most
researchers in the field, and notes that the company’s “ethical responsibility is to permit the
publication of our research in the scientific literature; indeed to do otherwise would be a breach
of Exxon’s public position and ethical credo on honesty and integrity.” Id. at 3.
125.

Despite knowing of the certainty of rising global temperatures and resulting changes to

the earth’s climate, ExxonMobil did not use its findings to better fortify its Everett Terminal
against such risks, nor did it share its findings to notify the public of related risks.
126.

A February 1984 slide presentation to ExxonMobil entitled “Corporate Research Program

in Climate/CO2-Greenhouse” likewise acknowledged that the climatic effect of CO2 doubling
includes mean surface temperature rise between 1.5ºC and 4.5ºC as well as a decrease in
coverage and thickness of sea ice and concurrent sea level rise. Corporate Research Program in
Climate/ CO2-Greenhouse (Feb. 2, 1984), presented by A. J. Callegari, at 9.
127.

Approximately five years later, a presentation to ExxonMobil’s Board of Directors on

“Potential Enhanced Greenhouse Effects” cited the 1983 National Research Council projections
of temperature increase of 1.5-4.5ºC (2-3 times greater in polar regions) and sea level rise of 70
cm over the next 100 years. The presentation acknowledged that data at that time confirmed
that: greenhouse gasses are increasing, fossil fuels contribute most of the CO2, and projections
suggest “significant climate change” and “sea level rise with generally negative consequences.”
Potential Enhanced Greenhouse Effects, Status and Outlook (Feb. 22, 1989), presented by Daune
G. Levine, at 23.
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128.

Despite knowing of rising sea levels resulting from rising global temperatures,

ExxonMobil did not use its findings to better fortify its Everett Terminal against such risks.
129.

ExxonMobil has continued to pursue climate change research since that initial discovery.

130.

As part of its work on climate science, ExxonMobil participated in the National Academy

of Sciences’ review of the third U.S. National Climate Assessment Report.
131.

ExxonMobil has pursued collaborative research with leading universities such as MIT

and Stanford.
132.

ExxonMobil has been acknowledged as a groundbreaking leader in scientific research

analyzing historic sea levels and sedimentary deposition at different sea levels over time.
133.

The discipline of sequence stratigraphy had its origin in the 1977 comprehensive

monograph of Payton, which first published the results of the extensive in-house stratigraphic
studies by Peter Vail and his colleagues within ExxonMobil.
134.

The Vail group drew their insights from the analysis of seismic profiles available to them

as part of ExxonMobil’s worldwide exploration efforts. Two quite distinct but intertwined
paradigms were encompassed by Payton’s original publication, and persisted in later summaries
by ExxonMobil researchers.
135.

The recognition of unconformity-bounded sequences was predicated upon the belief that

sequence deposition was controlled by sea level fluctuations, leading to the concept of systems
tracts and the development of what later writers have termed the “sequence stratigraphic model
(SSM).”

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136.

At the same time, it was asserted that an accurate sea level history could be reconstructed

from sequence analysis, leading to the concept of a global sea level curve, or global sea level
model (GSM), which could be applied to the interpretation of continental margin strata
worldwide.
137.

ExxonMobil scientists developed the GSM model of global sea level change, referred to

as the global eustasy model. The global eustasy model was developed by Peter Vail and his
coworkers at ExxonMobil during the 1960s. Vail’s contributions fundamentally altered the
techniques for reservoir mapping and prediction. Vail’s work was hailed as a theoretical and
technical breakthrough.
138.

The ExxonMobil global eustasy model was based on proprietary geophysical data also

developed through ExxonMobil’s scientific assessments. Articles about the new techniques
appeared in the journal “Science” commenting about the “staggering amount of data normally
denied to outsiders.” Most of these data have never been seen or published outside of
ExxonMobil.
139.

Publications and conference presentations by the Vail group appear as large volumes of

work accompanied by superb graphics, in which funding subsidies from ExxonMobil are
acknowledged.
140.

Despite the extensive research conducted by ExxonMobil scientists and knowledge of the

conclusive findings regarding climate change and its impacts, including sea level rise,
ExxonMobil has not taken reasonable and required measures to protect the Everett Terminal
against such risks.

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141.

Further, ExxonMobil did not share its findings with the people of the Commonwealth of

Massachusetts, the Massachusetts Department of Environmental Protection, or the EPA.
142.

Rather, ExxonMobil relied on its research and associated knowledge of climate change in

making business and investment decisions.
143.

ExxonMobil has recently acknowledged that action should be taken to address the risks

of climate change in general.
144.

ExxonMobil has agreed that the second assessment report of the Intergovernmental Panel

on Climate Change, published in 1995, reached the following conclusion: “The balance of
evidence suggests a discernible human influence on global climate.” Letter from Kenneth P.
Cohen, Vice President Public and Gov’t Affairs, ExxonMobil, to Mr. Lee Bollinger, President,
Columbia University (Nov. 20, 2015), at 3.
145.

In December 2015, Ken Cohen of ExxonMobil wrote of the COP21 climate change

conference in Paris that “[w]hen it comes to COP21, we are hopeful that an agreement will be
reached for meaningful action to address the risks surrounding climate change.” The official
statement released by ExxonMobil regarding COP21 similarly states that “ExxonMobil takes
global climate change seriously and the risks of rising greenhouse gas emissions warrant
thoughtful action.”
146.

In April 2016, Suzanne McCarron of ExxonMobil wrote that “[t]he risks of climate

change are real and those risks warrant constructive action by policymakers, the business
community, and everyone who uses energy.” She repeated that sentiment in May 2016, stating
that “[a]t ExxonMobil, we believe the risks of climate change are real,” and going on to say that
“[a]ll told, since 2000, ExxonMobil has spent approximately $7 billion to develop lower41

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emission energy solutions.” Most recently, in August 2016, she wrote that “[r]educing
greenhouse gas emissions in the coming decades amounts to one of society’s most important
challenges.”
147.

Despite acknowledging that the risks of climate change are real, ExxonMobil has not

taken reasonable and required measures to sufficiently fortify the Everett Terminal and protect it
from such risks.
148.

ExxonMobil’s CEO, Rex Tillerson, has been giving speeches emphasizing the

importance of reducing greenhouse gases and managing the risks of climate change since at least
2009.
149.

According to ExxonMobil’s disclosures to investors, “the Chairman of the Board and

Chief Executive Officer and the members of the Management Committee have responsibility for
climate change matters.” Investor CDP 2014 Information Request, Exxon Mobil Corporation, at
2.
150.

“The Board’s Public Issues and Contributions Committee is responsible for the oversight

of safety, health, and environmental performance, including climate change risk. This committee
reviews the effectiveness of the Corporation’s policies, programs, and practices on safety, health
and the environment, and social responsibility. The Committee hears reports from operating
units on safety and environmental activities and also visits operating sites to observe and
comment on current operating practices. All members of the Committee are independent within
the meaning of the NYSE listing standards.” Id.
151.

“The Committee’s charter is available on the Corporate Governance section of

ExxonMobil’s website. Corporate governance is managed with systems and standards for all
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aspects of our business. Specific to environmental issues including climate change, there are
timely interactions with members of the Management Committee as well as updates at least
annually with the ExxonMobil Board of Directors and the Public Issues and Contributions
Committee, which is comprised of non-employee directors.” Id.
152.

“On the subject of risks of climate change, the full ExxonMobil Board of Directors

receives in depth briefings at least annually that cover updates on public policy, scientific and
technical research, as well as company positions and actions in this area. In addition, the
Chairman of the Board and Chief Executive Officer and members of the Management
Committee are actively engaged in discussions relating to greenhouse gas emissions and climate
change on an ongoing basis.” Id.
153.

Despites the Board’s responsibilities and in-depth briefings on scientific and technical

updates concerning climate change, ExxonMobil has not taken reasonable and required actions
to sufficiently protect the Everett Terminal from climate change-related risks.
154.

ExxonMobil claims a strong commitment to robust engineering of its facilities in the face

of acknowledged risks of severe storm events and sea level rise.
155.

ExxonMobil has stated that the “company also engineers its facilities and operations

robustly with extreme weather considerations in mind. Fortification to existing facilities and
operations are addressed, where warranted due to climate or weather events, as part of
ExxonMobil’s Operations Integrity Management System.” Energy and Carbon – Managing the
Risks, 14, http://cdn.exxonmobil.com/~/media/global/files/energy-and-environment/report--energy-and-carbon---managing-the-risks.pdf (last visited Sept. 13, 2016).

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156.

In discussing the topic of “Engineer[ing] facilities resilient to extreme events,”

ExxonMobil has stated that:
ExxonMobil also employs robust engineering with regard to its
facilities. Local climate, as well as potential changes in local
conditions over the life of the investment (such as changes to sea
level or permafrost) are carefully assessed and considered. Given
the spatial and temporal uncertainties of many extreme weather
events, particularly with respect to future changes in climate,
facilities are generally engineered to be resilient to extreme event
“tails”, with the inclusion of additional safety factors. Some
jurisdictions, such as Singapore, have specific building standards
that are employed in our designs that consider potential climate
change impacts.
For existing facilities, processes and systems to manage extreme
weather events (such as Gulf Coast hurricanes) are considered along
with other factors in the company’s Operations Integrity
Management System (OIMS), both with regard to risk management
and extreme event response.
These processes are drilled
extensively, both internally and cooperatively with local authorities,
to ensure readiness when needed, and are systematically evaluated
and continuously improved as part of our ongoing OIMS system.
Energy and Climate, 20-21 http://cdn.exxonmobil.com/~/media/global/files/energy-andenvironment/report---energy-and-climate.pdf (last visited Sept. 13, 2016).
157.

Contrary to this statement, ExxonMobil has not engineered its Everett Terminal robustly

with extreme weather conditions in mind, nor has it ensured “readiness” with regard to risk
management and extreme event response.
158.

ExxonMobil’s operations around the world include both onshore and offshore activities

that can experience weather extremes and storms, large sea level variations and wave height, and
temperature and precipitation extremes.

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159.

ExxonMobil claims that, “[a]s a result, [the company] designs, constructs and operates

our facilities to withstand a variety of extreme weather conditions, much of the range of potential
outcomes.” Investor CDP 2014 Information Request, Exxon Mobil Corporation, at 10.
160.

ExxonMobil further asserts that “[a]t ExxonMobil, risks are mitigated with appropriate

contingency planning and the application of a comprehensive risk management system. Known
risks are mitigated first of all by factoring them into equipment and facility design, construction
and operations. Business continuity planning and emergency preparedness are two essential
elements to manage risks of business disruption, so that we can continue supplying fuels for
transportation and electrical power as well as chemicals for consumer products.” Id.
161.

Contrary to these statements, ExxonMobil has not designed, constructed or operated its

Everett Terminal to withstand a variety of extreme weather conditions, nor has it mitigated the
risks at the Terminal with appropriate planning.
162.

Engineers working in the oil and gas industry and other major infrastructure projects

along the coastal United States customarily take future climate change impacts into account
throughout their planning, decision-making, and project construction and design processes.
163.

Engineers exercising skill and judgment reasonably expected of similarly situated

professionals make planning and design decisions based on information regarding climate
change-induced impacts.
164.

For example, the U.S. Army Corps of Engineers issued a regulation in 2013 entitled

“Incorporating Sea Level Change in Civil Works Programs.” That regulation states that “[sea
level change (“SLC”)] can cause a number of impacts in coastal and estuarine zones, including
changes in shoreline erosion, inundation or exposure of low-lying coastal areas, changes in storm
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and flood damages, shifts in extent and distribution of wetlands and other coastal habitats,
changes to groundwater levels, and alterations to salinity intrusion into estuaries and
groundwater systems.” Department of the Army ER 1100-2-8162, U.S. Army Corps of
Engineers CECW-CE, CECW-P Regulation No. 1100-2-8162 (Dec. 31, 2013), at Appendix B.
165.

The U.S. Army Corps of Engineers acknowledges that sea level change is likely to

impact coastal projects, and “[a]s a result, managing, planning, engineering, designing,
operating, and maintaining for [sea level change] must consider how sensitive and adaptable 1)
natural and managed ecosystems and 2) human and engineered systems are to climate change
and other related global changes.” Id.
166.

The Army Corps’ regulation also states that “[h]istoric trends in local MSL [mean sea

level] are best determined from tide gauge records. The Center for Operational Oceanographic
Products and Services (CO-OPS), of the National Oceanographic and Atmospheric
Administration (NOAA), provides historic information and local MSL trends for tidal stations
operated by NOAA/NOS in the US.” Id. at B-2.
167.

The historic rate of relative sea level change at relevant local tide stations (as shown in

the graph below for the Boston Tide Gauge) should be used as the low rate for analysis, because
it is a linear extrapolation from historic tide gauge measurements and does not account for future
acceleration of sea level rise, ice sheet melt or sea level rise due to warmer water occupying a
greater volume.

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Mean Sea Level Trend Measured at the Boston Tide Gauge, Tides & Currents, NOAA, available
at: http://tidesandcurrents.noaa.gov/sltrends/sltrends_station.shtml?stnid=8443970 (last visited
Sept. 13, 2016).
168.

At the local level, municipalities also take climate change induced risks into account in

designing and constructing various infrastructure projects. For example, the Deer Island sewage
treatment plant in Boston, Massachusetts was designed and built taking future sea level rise into
consideration. Because of the level of the plant relative to the level of the ocean at the outfall is
critical to the amount of rainfall and sewage that can be treated, the plant was built 1.9 feet
higher than it would otherwise have been to accommodate the amount of sea level rise projected
to occur by 2050, the planned life of the facility. The planners recognized that the future would
be different from the past and they decided to plan for the future based on the best available
information.
169.

Unlike others involved in large-scale engineering projects, ExxonMobil has not taken

climate change information known to it into account in designing and constructing the Everett
Terminal to protect the Terminal and surrounding communities from catastrophic discharges that
will result in the event of sea level rise, increased precipitation or storm events, and storm surges.
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170.

ExxonMobil’s knowing disregard of the imminent risks of climate change that threaten

the Everett Terminal and its continuing failure to fortify the Terminal against such known risks
make ExxonMobil liable for violations of the CWA and RCRA, as described below.
CLAIMS FOR RELIEF
First Cause of Action
Violations of the Resource Conservation and Recovery Act – Imminent and Substantial
Endangerment to Human Health and the Environment
171.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
172.

At the Everett Terminal, ExxonMobil is regulated under RCRA as a “Large Quantity

Generator” of hazardous waste, Handler ID No. MAD000842427.
173.

As described above, ExxonMobil’s Everett Terminal generates, stores, handles, and

disposes of toxic and hazardous chemicals, metals, and compounds, including but not limited to:
Ignitable Waste, Petroleum Hydrocarbons, Benzene, Toluene, Ethylbenzene, (m,p,o), Xylenes,
tert-Butyl Alcohol, Naphthalene, Phenols, Phthalates (Phthalate esthers), Polycyclic Aromatic
Hydrocarbons (PAH), Acenaphthene, Anthracene, Fluoranthene, Fluorene, Naphthalene,
Phenanthrene, Pyrene, Antimony, Arsenic, Cadmium, Copper, Lead, Nickel, Selenium, and Zinc.
See supra, ¶ 37.
174.

As described above, large areas of the Everett Terminal are located at an elevation of less

than ten feet above sea level.
175.

As indicated in the “SLOSH” model (supra ¶ 80), the majority of the Everett Terminal is

included within a “Category 1” Hurricane Surge Inundation Zone.
176.

The threat of significant storm surge at the Terminal is imminent. See supra, ¶ 80.
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177.

The threat of sea level rise at the Terminal is imminent. See supra, ¶ 81.

178.

ExxonMobil’s Everett Terminal is at risk of being inundated and destroyed by storm

surge and sea level rise, because the facility has not been properly engineered, managed, and
fortified or, if necessary, relocated to protect from the impending threat of these climate changerelated impacts.
179.

ExxonMobil has not integrated climate change-induced risks into its systems for

handling, storage, or disposal of hazardous waste at the Everett Terminal facility.
180.

ExxonMobil has failed to address sea level rise, increased precipitation and flooding,

altered groundwater systems, and increased magnitude and frequency of severe weather events in
its RCRA and other compliance and permitting filings.
181.

ExxonMobil has not meaningfully modified the Everett Terminal to protect the facility

from climate change-induced risks.
182.

The design of the Everett Terminal facility, and any regulatory filing based thereon, is

based on standards for spill containment, drainage, and resistance to weather events that do not
integrate information related to climate change and its related impacts.
183.

ExxonMobil’s failure to adapt the Everett Terminal to increased precipitation, rising sea

levels and storm surges of increasing frequency and magnitude puts the facility, the public
health, and the environment at great risk because a significant storm surge, rise in sea level,
and/or extreme rainfall event may flood the facility and release solid and hazardous wastes into
the Island End River, Mystic River, and directly onto the city streets of Everett.

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184.

The resulting harm to the Terminal, the public health and the environment would be

significant, due to the magnitude of waste hazardous waste managed by the Terminal:

Exxon Mobil Corp Everett Terminal Total Waste Managed (Pounds), 13 Chemicals Reported
between 1998 and 2015, available at:
http://iaspub.epa.gov/triexplorer/facility_profile_charts?p_tri=02149XXNCS52BEA&p_VAR=
WST_PROD&p_LABEL=Total+Waste+Managed%20(Pounds) (last visited Sept. 28, 2016).
185.

ExxonMobil’s operation of its Everett Terminal presents an “imminent and substantial

endangerment to health or the environment” because sea level rise, increased precipitation and
flooding and severe storm impacts (including wind, storm surge and pounding surf) will result in
releases of solid and/or hazardous wastes into the environment and surrounding residential
communities.

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186.

Due to its failure to adapt to these risks, ExxonMobil has contributed and is contributing

to the past or present handling, storage, treatment, transportation, or disposal of solid and
hazardous wastes which may present an imminent and substantial endangerment to health or the
environment under 42 U.S.C. § 6972(a)(1)(B), in violation of RCRA.
Second Cause of Action
Violations of the Clean Water Act – Failure to Comply with Permit’s Operational
Requirements for Discharges
187.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
188.

ExxonMobil’s NPDES Permit contains operational requirements that define the

circumstances under which ExxonMobil may discharge through each of its three outfalls.
189.

The Permit provides, in relevant part:
Wastewater Treatment System Flow
a.
The continuous treatment system shall be designed,
constructed, maintained and operated to treat the volume of storm
water, groundwater and other associated wastewaters up to and
including 280 gpm through outfall 01C.
b.
The collection, storage and treatment systems shall be
designed, constructed, maintained and operated to treat the total
equivalent volume of storm water, groundwater, hydrostatic test
water, boiler condensate, fire testing water, truck was water, effluent
pond water and continuous treatment system filter backwash water
which would result from a 10-year 24-hour precipitation event,
which volume shall be discharged through outfall 01C and outfall
01A. All wet weather and dry weather discharges less than or equal
to the design capacity of the continuous treatment system [280 gpm]
shall be treated through the continuous treatment system and
discharged at outfall 01C. The flow through the corrugated plate
separator shall not exceed 4,000 gpm.

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Permit Part I.A.23(a)–(b), p. 10-11.
190.

The Permit further specifies that discharges from Outfall 01B shall be limited to

situations when the combined capacity of the facility to collect and treat through outfalls 01A
and 01C is exceeded and are expected only in extreme weather events. See Permit Part
I.A.23(c), p. 11.
191.

The Terminal Operator’s Guide (“TOG”) similarly provides that:
All dry weather flow, 0–280 gpm, is treated by the OWS followed
by dry weather treatment system (DWTS; also known as the CTS)
and discharged to outfall 01C.
Moderate storm event flow, 280–4,000 gpm, is treated by the OWS
and discharged to outfall 01A without treatment by the DWTS.
Heavy storm event flow, 4,000–13,600 gpm, is pumped to tank 140
for treatment by the OWS or DWTS following the storm event. Up
to 1.3 million gallons will be transferred to tank 140.

TOG Oil Water Separator § 6.2.
192.

Outfall 01C is designated as the primary outfall because its discharges are treated through

the continuously operated advanced treatment system.
193.

Discharges from Outfalls 01A and 01B receive lower levels of treatment, if any, and are

thus only authorized when total flow exceeds the designated levels for Outfall 01C.
194.

Contrary to the express terms of the Permit, discharges from Outfall 01A frequently

occur even when Outfall 01C has not reached its 280 gpm capacity.
195.

As a result, the entire discharge system, including Outfalls 01A and 01C, is being

operated in violation of the Permit.
196.

Through such unlawful operation, ExxonMobil is routinely failing to comply with its

Permit and ensure that all of its discharges receive the highest level of treatment possible.
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197.

Each and every day that the discharge system was or is operated in violation of the Permit

constitutes a separate and distinct violation of the Clean Water Act.
Third Cause of Action
Violations of the Clean Water Act – Violations of Permitted Effluent Limits
198.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
199.

ExxonMobil’s NPDES Permit for the Everett Facility includes numeric effluent

limitations for each outfall.
200.

ExxonMobil has repeatedly discharged pollutants from the Facility into the Island End

River and Mystic River, from and through point sources, in concentrations and amounts that
exceed the numeric effluent limits set out in its NPDES Permit.
201.

ExxonMobil discharged pollutants in amounts exceeding the maximum allowable levels

set by the numeric effluent limits in the Permit at least 164 times since 2010.
202.

The pollutants discharged by ExxonMobil in excess of the permitted levels include, but

are not limited to: Anthracene; Acenaphthene; Acenaphthylene; Benzo(a)anthracene;
Benzo(b)fluoranthene; Benzo(k)fluoranthene; Benzo(ghi)perylene; Benzo(a)pyrene; Chrysene;
Dibenz(a,h)anthracene; Fluoranthene; Fluorene; Indeno(1,2,3-cd)pyrene; Naphthalene;
Phenanthrene; Pyrene; and Total Suspended Solids.
203.

Each and every violation of the effluent limitations in the Permit is a separate and distinct

violation of ExxonMobil’s NPDES Permit and Section 301(a) of the CWA, 33 U.S.C. § 1311(a).
204.

Further, each and every day that there is discharge from Outfall 01A when Outfall 01C is

below its maximum capacity of 280 gpm constitutes a separate and distinct violation for each
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and every pollutant present in the discharge, since no pollutants may be discharged from Outfall
01A if Outfall 01C has not reached maximum capacity.
205.

These violations are ongoing and continuous, and barring a change at the Terminal and

full compliance with the permitting requirements of the Clean Water Act, these violations will
continue indefinitely.
Fourth Cause of Action
Violations of the Clean Water Act – Violations of State Water Quality Standards
206.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
207.

The Permit requires ExxonMobil to ensure that its discharges do not cause violations of

State Water Quality Standards, that pollutants are not discharged in concentrations or
combinations that would be hazardous or toxic to human or aquatic life, and that its discharges
do not impair the uses designated for the Island End and Mystic Rivers.2
208.

Massachusetts Surface Water Quality Standards provide in relevant part that “[a]ll

surface waters shall be free from pollutants in concentrations or combinations that are toxic to
humans, aquatic life or wildlife.” 314 Code Mass. Regs. § 4.05(5)(e).

2

See Permit Part I.A.2, p. 3; Part I.A.3, p. 5; Part I.A.4, p. 6 (stating that for each outfall, any
discharge must be “limited and monitored by the permittee as specified” and “not cause a violation
of the State Water Quality Standards of the receiving water”); Part I.A.5, p. 9 (“The discharges
either individually or in combination shall not cause or contribute to a violation of State Water
Quality Standards of the receiving waters.”); Part I.A.9, p. 9 (“The discharge shall not contain
materials in concentrations or combinations which are hazardous or toxic to human health, aquatic
life of the receiving surface waters or which would impair the uses designate by its
classification.”); Part 1.A.24, p. 11 (“The permittee shall not discharge any pollutant or
combination of pollutants in toxic amounts.”; “Any toxic components of the effluent shall not
result in any demonstrable harm to aquatic life or violate any state or federal water quality standard
which has been or may be promulgated.”).
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209.

Under the Massachusetts Surface Water Quality Standards, the National Recommended

Water Quality Criteria published by EPA in 2002 are the allowable receiving water
concentrations unless otherwise specified. See id.
210.

Many of ExxonMobil’s discharges violate applicable State Water Quality Standards, and

as such, constitute violations of the Permit and the Clean Water Act.
Fifth Cause of Action
Violation of the Clean Water Act – Failure to Develop, Implement, and Maintain a SWPPP
Designed to Reduce or Prevent Discharge of Pollutants
211.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
212.

The Permit states that “[t]he permittee shall develop, implement, and maintain a Storm

Water Pollution Prevention Plan (SWPPP) designed to reduce, or prevent, the discharge of
pollutants in storm water to the receiving waters identified in this permit. The SWPPP shall be a
written document and consistent with the terms of this permit. The permittee shall comply with
the terms of its SWPPP.” Permit Part I.B.1, p. 13.
213.

ExxonMobil’s application for coverage under NPDES permits, including the currently

applicable NPDES permit, as well as its SWPPP developed pursuant to the Permit, failed to
include information documenting, or plans to address, climate change induced risks such as sea
level rise, increased precipitation, increased magnitude and frequency of storm events, and
increased frequency and magnitude of storm surges that threaten the Everett Terminal.
214.

By failing to address sea level rise, ExxonMobil has not developed and is not

implementing a SWPPP designed to prevent or reduce the discharge of pollutants in storm water
to the receiving waters identified in the permit.
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215.

By failing to address increased magnitude and frequency of storm events, ExxonMobil

has not developed and is not implementing a SWPPP designed to prevent or reduce the discharge
of pollutants in storm water to the receiving waters identified in the permit.
216.

By failing to address increased magnitude and frequency of storm surge, ExxonMobil has

not developed and is not implementing a SWPPP designed to prevent or reduce the discharge of
pollutants in storm water to the receiving waters identified in the permit.
217.

By failing to address increased precipitation, ExxonMobil has not developed and is not

implementing a SWPPP designed to prevent or reduce the discharge of pollutants in storm water
to the receiving waters identified in the permit.
218.

For all of these reasons, ExxonMobil has failed to develop and implement a SWPPP

designed to prevent the discharge of pollutants in storm water to the receiving waters, in
violation of the Permit and the Clean Water Act.
Sixth Cause of Action
Violation of the Clean Water Act – Unlawful Certification of SWPPP
219.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
220.

The Permit requires that: “[t]he SWPPP shall be completed or updated and signed by the

Permittee within 90 days after the effective date of this Permit. The Permittee shall certify that
the SWPPP has been completed or updated and that it meets the requirements of the permit. The
certification shall be signed in accordance with the requirements identified in 40 C.F.R. §
122.22.” Permit Part I.B.2, p. 13.

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221.

40 C.F.R. § 122.22(a)(1) requires that a permit application submitted by a corporation be

signed by a responsible corporate officer:
For the purpose of this section, a responsible corporate officer
means: (i) A president, secretary, treasurer, or vice-president of the
corporation in charge of a principal business function, or any other
person who performs similar policy- or decision-making functions
for the corporation, or (ii) the manager of one or more
manufacturing, production, or operating facilities, provided, the
manager is authorized to make management decisions which govern
the operation of the regulated facility including having the explicit
or implicit duty of making major capital investment
recommendations, and initiating and directing other comprehensive
measures to assure long term environmental compliance with
environmental laws and regulations; the manager can ensure that the
necessary systems are established or actions taken to gather
complete and accurate information for permit application
requirements; and where authority to sign documents has been
assigned or delegated to the manager in accordance with corporate
procedures.
Id. Section 122.22(a)(1) also notes that:
EPA does not require specific assignments or delegations of
authority to responsible corporate officers identified in §
122.22(a)(1)(i). The Agency will presume that these responsible
corporate officers have the requisite authority to sign permit
applications unless the corporation has notified the Director to the
contrary. Corporate procedures governing authority to sign permit
applications may provide for assignment or delegation to applicable
corporate positions under § 122.22(a)(1)(ii) rather than to specific
individuals.
Id.
222.

40 C.F.R. § 122.22 required ExxonMobil to submit the following certification:
I certify under penalty of law that this document and all
attachments were prepared under my direction or supervision
in accordance with a system designed to assure that qualified
personnel properly gather and evaluate the information
submitted. Based on my inquiry of the person or persons who
manage the system, or those persons directly responsible for
gathering the information, the information submitted is, to the
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best of my knowledge and belief, true, accurate, and complete.
I am aware that there are significant penalties for submitting
false information, including the possibility of fine and
imprisonment for knowing violations.
40 C.F.R. § 122.22(d).
223.

ExxonMobil signed and submitted the required certification at the time of submittal of

each of its NPDES permit applications.
224.

ExxonMobil signed and submitted the required certification at the time of development

and certification of its SWPPP.
225.

ExxonMobil signed these certifications without disclosing information in its possession

and relied on by the company in its business decision-making regarding climate change-induced
factors such as sea level rise, increased precipitation, increased magnitude and frequency of
storm events, and increased magnitude and frequency of storm surge.
226.

ExxonMobil signed these certifications without developing and implementing a SWPPP

based on information in its possession and relied on by the company in its business decisionmaking regarding climate changed-induced factors such as sea level rise, increased precipitation,
increased magnitude and frequency of storm events, and increased magnitude and frequency of
storm surge.
227.

ExxonMobil signed these certifications without developing and implementing a Spill

Prevention, Control, and Countermeasures based on information in its possession and relied on
by the company in its business decision-making regarding climate changed-induced factors such
as sea level rise, increased precipitation, increased magnitude and frequency of storm events, and
increased magnitude and frequency of storm surge.

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228.

ExxonMobil’s failure to disclose and consider climate changed-induced factors such as

sea level rise, increased precipitation, increased magnitude and frequency of storm events, and
storm surge renders its SWPPP certification to not be true, accurate, and complete, and is
therefore unlawful under 40 C.F.R. § 122.22.
229.

Failure to prepare the SWPPP in accordance with the requirements identified in 40 C.F.R.

§ 122.22 to which ExxonMobil certified that it had complied with is a violation of the Permit and
the Clean Water Act.
Seventh Cause of Action
Violation of the Clean Water Act – Failure to Prepare SWPPP in Accordance with Good
Engineering Practices
230.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
231.

The Permit requires that: “[t]he SWPPP shall be prepared in accordance with good

engineering practices.” Permit Part I.B.4, p. 13.
232.

ExxonMobil’s SWPPP for the Everett Terminal was not prepared in accordance with

good engineering practices because the SWPPP was not based on information consistent with the
duty of care applicable to engineers.
233.

The SWPPP was not prepared based on information regarding climate change-induced

impacts known to reasonably prudent engineers.
234.

The SWPPP was not prepared based on information regarding climate change-induced

impacts known to ExxonMobil.

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235.

For these reasons, ExxonMobil has failed to prepare a SWPPP in accordance with good

engineering practices, in violation of the Permit and the Clean Water Act.
Eighth Cause of Action
Violation of the Clean Water Act – Failure to Identify Sources of Pollution Reasonably
Expected to Affect the Quality of Stormwater Discharges
236.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
237.

The Permit requires that: “The SWPPP shall . . . identify potential sources of pollution

that may reasonably be expected to affect the quality of the storm water discharges.” Permit Part
I.B.4, p. 13.
238.

This condition of the Permit uses the term “pollution” as opposed to the term “pollutant.”

239.

ExxonMobil has failed to identify sources of pollution resulting from climate change-

induced sea level rise, increased magnitude and frequency of storm surge, and increased
magnitude and severity of storms as sources of pollution reasonably expected to affect the
quality of the storm water discharges from the Everett Terminal, in violation of the Permit and
the Clean Water Act.
Ninth Cause of Action
Violation of the Clean Water Act – Failure to Describe and Implement Practices to Reduce
Pollutants and Assure Permit Compliance
240.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.

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241.

The Permit requires that: “The SWPPP shall . . . describe and ensure implementation of

practices which will be used to reduce the pollutants and assure compliance with this permit.”
Permit Part I.B.4, p. 13.
242.

The SWPPP fails to describe or ensure implementation of practices which will be used to

prevent and address pollutant discharges resulting from climate change-induced effects, in
violation of the Permit and the Clean Water Act.
243.

ExxonMobil has failed to properly maintain its waste water treatment system in violation

of the Permit and the Clean Water Act.
Tenth Cause of Action
Violation of the Clean Water Act – Failure to Identify Sources, Spill Areas, and Drainage
244.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
245.

The Permit requires that: “The SWPPP shall contain the elements listed below: A

summary of all pollutant sources which includes all areas where spills have occurred or could
occur. For each source, identify the expected drainage and the corresponding pollutant.” Permit
Part I.B.4(c), p. 13.
246.

The SWPPP does not address climate change-induced effects as pollutant sources.

247.

The SWPPP does not identify areas where spills associated with climate change-induced

effects could occur.
248.

The SWPP fails to identify expected drainage paths associated with climate change-

induced effects such as storm surge and sea level rise.

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249.

For these reasons, the SWPPP fails to contain the elements required under Permit Part

I.B.4(c), in violation of the Permit and the Clean Water Act.
Eleventh Cause of Action
Violation of the Clean Water Act – Failure to Implement Adequate Spill Prevention and
Response Procedures
250.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
251.

Climate change-induced and affected factors such as sea level rise, storm surge,

precipitation, and weather events (including severe and extreme weather events) can reasonably
be expected to cause or contribute to the discharge of oil in quantities that may be harmful to
receiving waters in violation of the SPCC regulations, the SWPPP, and the Permit.
252.

Due to its location, the Terminal is at risk of discharging oil due to climate change-

induced sea level rise.
253.

Due to its location, the Terminal is at risk of discharging oil due to climate change-

induced storm surge.
254.

Due to its location, the Terminal has discharged, and is at risk of discharging, oil and

other pollutants due to climate change-induced increased precipitation.
255.

Due to its location, the Terminal has discharged, and is at risk of discharging, oil and

other pollutants due to climate change-affected weather events.
256.

Due to its location, the Terminal has discharged, and is at risk of discharging, oil and

other pollutants due to climate change-affected severe weather events.

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257.

Due to its location, the Terminal has discharged, and is at risk of discharging oil and

other pollutants due to climate change-affected extreme weather events.
258.

The SPCC Plan for the Everett Terminal was not prepared in accordance with good

engineering practices because it is not based on consideration of climate change information
known to ExxonMobil, the petroleum industry, and to practicing engineers in Massachusetts.
259.

The SPCC Plan for the Everett Terminal was not prepared in accordance with good

engineering practices because it is not based on consideration of climate change-induced and
affected sea level rise that is reasonably expected to affect the Terminal.
260.

The SPCC Plan for the Everett Terminal was not prepared in accordance with good

engineering practices because it is not based on consideration of climate change-induced and
affected storm surge that is reasonably expected to affect the Terminal.
261.

The SPCC Plan for the Everett Terminal was not prepared in accordance with good

engineering practices because it is not based on consideration of climate change-induced and
affected precipitation that is reasonably expected to affect the Terminal.
262.

The SPCC Plan for the Everett Terminal was not prepared in accordance with good

engineering practices because it is not based on consideration of climate change-induced and
affected weather events that are reasonably expected to affect the Terminal.
263.

The SPCC Plan for the Everett Terminal was not prepared in accordance with good

engineering practices because it is not based on consideration of climate change-induced and
affected severe weather events that is reasonably expected to affect the Terminal.

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264.

The SPCC Plan for the Everett Terminal was not prepared in accordance with good

engineering practices because it is not based on consideration of climate change-induced and
affected extreme weather events that are reasonably expected to affect the Terminal.
265.

Due to ExxonMobil’s failure to consider climate change information, including

information known to ExxonMobil, the SPCC fails to include necessary discharge prevention
measures including procedures for routine handling of products (e.g., loading, unloading, and
facility transfers, etc.).
266.

Due to ExxonMobil’s failure to consider climate change information, including

information known to ExxonMobil, the SPCC fails to include necessary discharge or drainage
controls such as secondary containment around containers and other structures, equipment, and
procedures for the control of a discharge.
267.

Due to ExxonMobil’s failure to consider climate change information, including

information known to ExxonMobil, the SPCC fails to include to identify where experience
indicates a reasonable potential for equipment failure (such as loading or unloading equipment,
tank overflow, rupture, or leakage, or any other equipment known to be a source of a discharge).
268.

Due to ExxonMobil’s failure to consider climate change information, including

information known to ExxonMobil, the SPCC fails to include a prediction of the direction, rate
of flow, and total quantity of oil which could be discharged from the facility as a result of each
type of major equipment failure.
269.

Due to ExxonMobil’s failure to consider climate change information, including

information known to ExxonMobil, the SPCC fails to provide appropriate containment and/or
diversionary structures or equipment to prevent a discharge as described in 40 C.F.R. § 112.1(b).
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270.

Due to ExxonMobil’s failure to consider climate change information, including

information known to ExxonMobil, the SPCC fails to assure that the entire containment system,
including walls and floor, is capable of containing oil and is constructed so that any discharge
from a primary containment system, such as a tank, will not escape the containment system
before cleanup occurs.
271.

Due to ExxonMobil’s failure to consider climate change information, including

information known to ExxonMobil, the SPCC fails to address the typical failure mode associated
with climate change-induced or affected factors and the most likely quantity of oil that would be
discharged.
272.

Due to ExxonMobil’s failure to consider climate change information, including

information known to ExxonMobil, the SPCC fails to include appropriately designed (i) Dikes,
berms, or retaining walls sufficiently impervious to contain oil; (ii) Curbing or drip pans; (iii)
Sumps and collection systems; (iv) Culverting, gutters, or other drainage systems; (v) Weirs,
booms, or other barriers; (vi) Spill diversion ponds; (vii) Retention ponds; or (viii) Sorbent
materials. (2) For offshore facilities: (i) Curbing or drip pans; or (ii) Sumps and collection
systems.
273.

For all of these reasons, ExxonMobil has failed to implement adequate spill prevention

and response procedures, in violation of the Permit and the Clean Water Act.
Twelfth Cause of Action
Violation of the Clean Water Act – Failure to Amend or Update the SWPPP
274.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.

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275.

The Permit requires that:
The permittee shall amend and update the SWPPP within 30 days
for any changes at the facility affecting the SWPPP. Changes which
may affect the SWPPP include, but are not limited to, the following
activities: a change in design, construction, operation, or
maintenance, which has a significant effect on the potential for the
discharge of pollutants to the waters of the United States . . . . Any
amended or new versions of the SWPPP shall be re-certified by the
Permittee. Such re-certifications also shall be signed in accordance
with the requirements identified in 40 CFR § 122.22.

Permit Part I.B.6, p. 14.
276.

ExxonMobil has not amended or updated its SWPPP based on information regarding

climate change known to ExxonMobil, in violation of the Permit and the Clean Water Act.
277.

ExxonMobil has not amended or updated its SPCC, including an engineer’s certification

based on information regarding climate change known to ExxonMobil. 40 C.F.R. § 112.5.
278.

40 C.F.R. § 122. 41(e) requires that under all permits, including the Terminal’s Permit,

“the permittee shall at all times properly operate and maintain all facilities and systems of
treatment and control (and related appurtenances) which are installed or used by the permittee to
achieve compliance with the conditions of [the] permit” and with the requirements of storm
water pollution prevention plans. “Proper operation and maintenance also includes adequate
laboratory controls and appropriate quality assurance procedures. This provision requires the
operation of back-up or auxiliary facilities or similar systems only when the operation is
necessary to achieve compliance with the conditions of the permit.” Id.
279.

ExxonMobil has failed to properly operate and maintain the Terminal due to its failure to

consider and act upon climate change related information, including information known to
ExxonMobil.

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280.

40 C.F.R. § 122. 41(d) requires that under all permits, including the Terminal’s Permit,

that “[t]he permittee shall take all reasonable steps to minimize or prevent any discharge which
has a reasonable likelihood of adversely affecting human health or the environment.” 40 C.F.R.
§ 122.41(d).
281.

ExxonMobil has failed take all reasonable steps to minimize or prevent any discharge

which has a reasonable likelihood of adversely affecting human health or the environment due to
its failure to consider and act upon climate change related information, including information
known to ExxonMobil.
282.

For these reasons, ExxonMobil has failed to properly amend or update its SWPPP, in

violation of the Permit and the Clean Water Act.
Thirteenth Cause of Action
Violation of the Clean Water Act – Violation of Permit Prohibition on Visible Oil Sheen,
Foam, or Floating Solids
283.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
284.

The Permit provides that a “discharge shall not cause a visible oil sheen, foam, or floating

solids.” Permit Part I.A.8, p. 9.
285.

There have been at least four instances in which discharges associated with the

ExxonMobil Everett Terminal and/or the Sprague Energy facility were reported to the National
Incident Command. All four of these incidents, which occurred in 2011, 2014, and 2015,
resulted in a discharge that reached the water, identified as the Mystic River and/or the Island
End River.
286.

These discharges constitute violations of the Permit and the Clean Water Act.
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Fourteenth Cause of Action
Violation of the Clean Water Act – Unpermitted Discharges to the Half-Moon Shaped
Pond
287.

Plaintiff incorporates the allegations contained in the above paragraphs as though fully

set forth herein.
288.

The half-moon shaped pond within the Everett Terminal facility that is incorporated into

the facility’s stormwater treatment system has existed since time immemorial and was a part of
the Island End River until, upon information and belief, ExxonMobil (or its predecessors in
interest) filled in the surface water connection between the half-moon shaped pond and the Island
End River sometime in the early 1900s.
289.

The half-moon shaped pond is connected to the Island End River via surface water flows,

subsurface hydrological connections, and man-made conduits. The half-moon shaped pond, the
Island End River, and the Mystic River are all “waters of the United States” as defined in 40
C.F.R. § 122.2, and, therefore, “navigable waters” as defined in 33 U.S.C. § 1362(7).
290.

Upon information and belief, the half-moon shaped pond has existed in its current

location since at least the early 1900s and flowed into the Island End River until ExxonMobil (or
its predecessors in interest) impounded and appropriated it in the early 1900s.
291.

The half-moon shaped pond was part of the traditionally navigable Island End River or,

alternatively, a navigable tributary to the traditionally navigable Island End River, and therefore
was and is a water of the United States.
292.

A man-made structure cannot eliminate the Clean Water Act’s jurisdiction over a water

of the United States.

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293.

A man-made diversion, however long ago undertaken, cannot change a water of the

United States into something else.
294.

ExxonMobil’s discharges of pollutants into the half-moon shaped pond are unpermitted

and therefore violate the Clean Water Act.
RELIEF REQUESTED
295.

Wherefore, Plaintiff respectfully requests that this Court grant the following relief:
a. injunctive relief pursuant to § 7002 of RCRA, 42 U.S.C. § 6972, ordering
ExxonMobil to perform and pay for such work as may be required to respond to
the hazardous waste and solid waste present at the Everett Terminal and
restraining ExxonMobil from further violating RCRA;
b. declaratory and injunctive relief to prevent further violations of the Clean Water
Act pursuant to §§ 505(a) and (d) of the CWA, 33 U.S.C. § 1365(a);
c. civil penalties of up to $37,500 per day per day per violation for all Clean Water
Act violations occurring between January 12, 2009 and November 2, 2015, and
up to $51,570 per day per violation for all CWA violations occurring after
November 2, 2015 pursuant to § 309(d) of the CWA, 33 U.S.C. § 1319(d), and
the regulations governing the Adjustment of Civil Monetary Penalties for
Inflation, 40 C.F.R. §§ 19.2, 19.4;
d. and an award of the costs of litigation, including reasonable attorney and expert
witness fees, under § 7002 of RCRA, 42 U.S.C. § 6972, and § 505(d) of the
CWA, 33 U.S.C. § 1365(d); and
e. all other relief as permitted by law.
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JURY DEMAND
Plaintiff requests a jury trial on the issue of liability and any other issue cognizable by a
jury.
Respectfully submitted,

Dated: September 29, 2016

CONSERVATION LAW
FOUNDATION, INC.
By its attorneys:
/s/ Zachary K. Griefen
Zachary K. Griefen, Esq., BBO# 665521
Conservation Law Foundation
15 East State Street, Suite 4
Montpelier, VT 05602
(802) 223-5992 x4011
zgriefen@clf.org
/s/ Christopher M. Kilian
Christopher M. Kilian, Esq.*
Conservation Law Foundation
15 East State Street, Suite 4
Montpelier, VT 05602
(802) 223-5992 x4015
ckilian@clf.org
*Pro Hac Vice Application Filed Concurrently
with Complaint

70

/s/ Allan Kanner
Allan Kanner*
Elizabeth B. Petersen*
Allison S. Brouk*
Kanner & Whiteley, LLC
701 Camp Street
New Orleans, LA 70130
(504) 524-5777
a.kanner@kanner-law.com
e.petersen@kanner-law.com
a.brouk@kanner-law.com
*Pro Hac Vice Applications Filed Concurrently
with Complaint