Science in Action Developing Innovative Solutions for Oil Spill Cleanup


SEPA

science in ACTION

BUILDING A SCIENTIFIC FOUNDATION FOR SOUND ENVIRONMENTAL DECISIONS

www.epa.gov

LAND RESEARCH
PROGRAM

DEVELOPING INNOVATIVE SOLUTIONS FOR OIL SPILL CLEANUP

Issue:

The United States produces,
distributes, and consumes large
quantities of oil every year to fuel
our factories, power plants, and
homes and provide transportation.
From the production, storage,
transport, and use of oil, an
estimated 18,000-24,000 oil
spills are reported, and 10-25
million gallons of oil are spilled
annually. These oil releases
threaten public health and safety
by contaminating drinking water,
causing fire and explosion
hazards, diminishing air and
water quality, compromising
agriculture, destroying
recreational areas, and wasting
nonrenewable resources. Oil
spills also have a severe
environmental impact on
ecosystems by harming or killing
wildlife and plants, and
destroying habitats and food.

Scientific Objective:

The U.S. Environmental
Protection Agency's (EPA) Land

Research Program in the Office
of Research and Development
(ORD) is committed to providing
environmental managers with the
tools, models, and methods they
need to better understand the fate
and effects of oil spills on
ecosystems and to effectively
clean them up.

The Land Research Program
(LRP) conducts research on:

•	Bioremediation

•	Mitigation: chemical and
biological countermeasures for
oil spill cleanup

•	Fate and effects of non-
petroleum and biodiesel oils
in saltwater and freshwater
systems

•	Flow characteristics of oil spills

Application and Impact:

The research program has
improved the ability of
environmental managers to
predict, evaluate, and respond to

oil spills. Research contributions
include the following:

New Dispersant Protocol

Scientists developed a new
Baffled Flask Test (BFT) for
testing dispersant effectiveness
and representing more accurately
the over-and-under mixing energy
of breaking waves at sea. More
information can be found at:
www, epa. gov/nrmrl/lrpcd/rr/proi e
cts/56303.htm.

Bioremediation Guidelines

Scientists developed guidelines
for the bioremediation of marine
shorelines, freshwater wetlands,
and salt marshes for use by spill
responders. Guidance documents
can be found at:

www.epa.gov/oilspill/science.htm

New Treatment Approach

Researchers are developing a new
approach to treat vegetable oil
spills in freshwater environments.

continued on back

U.S. Environmental Protection Agency

Office of Research and Development

-------
vvEPA

www.epa.gov

science in ACTION

BUILDING A SCIENTIFIC FOUNDATION FOR SOUND ENVIRONMENTAL DECISIONS

LAND RESEARCH PROGRAM

continued from front

Oil Spill Simulation Model

Scientists developed the EPA
Research Object-Oriented Oil
Spill (ER03S) model for use by
on-scene coordinators and oil
spill response planners. The
objective of this model is to
develop a multicomponent mass
balance-based model for
simulating transport of spilled oils
with and without dispersant
treatments. More information can
be found at:

www.epa.gov/athens/research/pro
iects/eros/index.html.

Wave Tank Research

A wave tank at the Bedford
Institute of Oceanography in
Dartmouth, Nova Scotia, has been
used to improve international
scientific understanding and
responses to oil spills at sea.
ORD scientists are involved in
this international effort with
Fisheries and Oceans Canada.
Research has led to improved
scientific understanding of the
factors affecting dispersant
products used to mitigate the
effects of oil spills on open
waters. More information can be
found at: www.epa.gov/
oil spill/wavetank.htm.

Tidal Marsh Research

Lock Lake in East Patchogue,
New York, is a tidal marsh where
EPA scientists study the
waterway's natural processes,
such as water flow. The research
is being applied to understand the
impacts of oil spills on tidal
marshes. Research at the lake has
improved understanding of the
characteristics of flow to a marsh,
provided data to evaluate
subsurface and surface water
interactions, determined transport
characteristics of spilled and
dispersed oil, and led to the
development of simulation
models to reproduce and predict
transport of oil spills. More
information can be found at:
www.epa.gov/athens/research/fiel
d/1 ockl ake/index. html.

NCP Product Schedule Support

Research was key to the develop-
ment of a list of chemicals and
other products for use in oil spill
cleanup. The list, developed
under Subpart J (40 CFR Part
300.910) of the National Oil and
Hazardous Substances Pollution
Contingency Plan (NCP),
includes current dispersants,
surface washing agents,
bioremediation agents, and

miscellaneous oil spill control
agents. More information is
available at:

www.epa.gov/oilspill/ncp.

REFERENCES:

EPA's Oil Program Science and Research Web
site: www.epa.gov/oilspill/science.htm.

Haines, J.R., et al. Protocol for Laboratory Testing
Of Crude-Oil Bioremediation Products. Journal of
Industrial Microbiology & Biotechnology, 2003,
30, pp. 107-113.

Haines, J.R., et al. Laboratory Evaluation of Oil
Spill Bioremediation Products in Salt and
Freshwater Systems. Journal of Industrial
Microbiology & Biotechnology, 2005, 32,
pp. 171-185.

CONTACT:

Albert D. Venosa, Ph.D., EPA's Office of
Research and Development, U.S. Environmental
Protection Agency,

513-569-7668, venosa.albert@epa.gov

Jim Weaver, Ph.D., EPA's Office of Research and
Development, U.S. Environmental Protection
Agency, 706-355-8329, weaver.jim@epa.gov

SEPTEMBER 2007

U.S. Environmental Protection Agency

Office of Research and Development

-------