Citizen's Guide to Bioremediation


      Citizen's  Guide
      DremediatioaJ
What Is Bioremediation?

Bioremediation is the use of microbes to  clean up
contaminated soil and groundwater. Microbes are very
small organisms, such as bacteria, that live naturally
in  the environment.  Bioremediation stimulates the
growth of certain microbes that use contaminants as
a source of food and energy. Contaminants treated
using bioremediation  include oil and other petroleum
products, solvents, and pesticides.

How Does It Work?

Some types of microbes eat and digest contaminants,
usually changing them into small amounts of water and
harmless gases like carbon dioxide and ethene. If soil and
groundwater do not have enough of the right  microbes,
they can be added in a process called "bioaugmentation."

For bioremediation to be effective, the right tempera-
ture, nutrients, and food also must be present. Proper
conditions  allow the  right microbes to grow and
multiply—and eat more contaminants. If conditions are
not right, microbes grow too slowly or die, and contami-
nants are not cleaned up. Conditions may be improved
by adding  "amendments." Amendments range  from
household items like molasses and vegetable oil, to air
and chemicals that produce oxygen. Amendments are
often pumped underground through wells to treat soil
and groundwater in situ (in place).
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The conditions necessary for bioremediation in soil
cannot always be achieved in situ, however. At some
sites, the climate may be too cold for microbes to be
active, or the soil might be too dense to allow amend-
ments to spread evenly underground. At such sites,
EPA might dig up the soil to clean it "ex situ" (above
ground) on a pad or in tanks. The soil  may then be
heated, stirred, or mixed with amendments to improve
conditions.
Sometimes mixing soil
can  cause  contami-
nants  to   evaporate
before the microbes can
eat them. To prevent the
vapors  from  contami-
nating the air, the soil
can be mixed inside a
special tank or building
where  vapors  from
chemicals that  evapo-
rate  may  be  collected
and treated.
Is Oxygen
Always Needed?

Some  contaminants  can
only be bioremediated in an
aerobic  environment—one
that contains oxygen. Others
can  only be  bioremediated
in an anaerobic environment
without  oxygen.  Anaero-
bic microbes do not need
oxygen to grow.
Microbe takes in oil, oxygen, and nutrients and releases
gases and water.
To clean up contaminated groundwater in situ, wells
are drilled  to pump  some of the groundwater into
above ground tanks. Here, the water is mixed with
amendments before it is pumped back into the ground.
The groundwater enriched with amendments allows
microbes to bioremediate the rest of the contaminated
groundwater underground. Groundwater also can be
pumped into a "bioreactor" for ex situ treatment. Biore-
actors are tanks in which groundwater is mixed with
microbes and amendments for treatment. Depending
on the site, the treated water may be pumped back
to the ground or discharged to surface water or to a
municipal wastewater system.

How Long Will It Take?

It may take a few months or even several years for
microbes to clean up a site, depending on several factors.
For example, bioremediation will take longer where:
 •  Contaminant concentrations are high, or contami-
    nants are trapped in hard-to-reach areas, like rock
    fractures and dense soil.
 •  The contaminated area is large or deep.

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• Conditions such as temperature, nutrients, and microbe population must
be modified.
• Cleanup occurs ex situ.

Is Bioremediation Safe?

Bioremediation relies on microbes that live naturally in soil and groundwater.
These microbes pose no threat to people at the site or in the community. Microbes
added to the site for bioaugmentation typically die off once contamination and the
conditions needed for bioremediation are gone. The chemicals added to stimu-
late bioremediation are safe. For example, the nutrients added to make microbes
grow are commonly used on lawns and gardens, and only enough nutrients to
promote bioremediation are added. To ensure that the treatment is working and to
measure progress, samples of soil and groundwater are tested regularly.
How Might It Affect Me?
Bioremediation often occurs underground and does not cause much disrup-
tion to the site or surrounding community. Contaminated soil and ground-
water stay onsite, reducing truck traffic, compared with some other cleanup
methods. However, area residents and businesses may hear the operation of
pumps, mixers, and other construction equipment used to add amendments
or improve site conditions to begin the bioremediation process. Excavation
and pumping also will occur for ex situ bioremediation. (See a Citizen's Guide
to Excavation of Contaminated Soil [EPA 542-F-12-007].)

Why Use Bioremediation?

Bioremediation has the advantage of using natural processes to clean up sites.
Because it may not require as much equipment, labor, or energy as some
cleanup methods, it can be cheaper. Another advantage is that contaminated
soil and groundwater are treated onsite without having to dig, pump, and trans-
port them elsewhere
for treatment. Because
microbes change the
harmful chemicals into
small amounts of water
and gases, few if any
waste byproducts are
created.

Bioremediation has
successfully cleaned
up many polluted sites
and has been selected
or is being used at over
100 Superfund Sites Injection of vegetable oil underground to improve conditions for
across the Country. bioremediation.
Example
Bioremediation is cleaning
up groundwater contami-
nated with dry cleaning
solvent at the Iceland Coin
Laundry Superfund site in
New Jersey. To improve the
conditions at the site for
bioremediation, amendments
were added. A solution of
vegetable oil and baking
soda was injected into the
groundwater in an area of
particularly high contami-
nant concentrations. Bacteria
also were added to increase
the existing population of
microbes. The treatment
area is about 1800 feet long,
500 feet wide and extends
40 feet below ground.

Preliminary testing of the
groundwater has shown that
bioremediation is working
and contaminant concentra-
tions are decreasing. The
objective is to continue to
reduce the concentration
of contaminants from 10 or
more parts per billion to less
than 1 part per billion.
For More Information
For more information on this
and other technologies in the
Citizen's Guide Series, contact:
U.S. EPA
Technology Innovation &
Field Services Division
Technology Assessment Branch
(703) 603-9910
Or visit:
www.cluin.org/biochlor
www.cluin.org/bioreactor
www.cluin.org/bioventing-
biosparging
NOTE: This fact sheet is intended solely as general information to the public. It is not intended, nor can it be relied upon, to create any
rights enforceable by any party in litigation with the United States, or to endorse the use of products or services provided by specific
vendors. The Agency also reserves the right to change this fact sheet at any time without public notice.
United States
Environmental Protection
Agency
Office of Solid Waste and
Emergency Response
(5102G)
EPA 542-F-12-003
September 2012
www.epa.gov/superfund/sites
www.cluin.org

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