BIOTERMS
|
Term |
Definition |
|
| |
|
Abiotic |
Not
Living. |
|
Acidophile |
Organism
that prefers acidic conditions (pH as low as 1 standard
unit). |
|
Acidotroph |
Microorganism that is able to flourish in very acidic (pH <3.5) conditions. Many are aerobic and function over
relatively narrow pH ranges. |
|
Activation
Energy |
Amount of
energy required to bring each molecule in one mole of a substance to
their reactive state at a given
temperature. |
|
Adaptability |
The
ability of microorganisms either as individual strains, or as a
consortium, to adapt to function in some way within a given
environment. Often there is a lag (induction) time before this
activity commences. |
|
Adaptation |
Change in
an organism or population of organisms by which they become better
suited to the environment. Adaptation can be genetic and/or
physiological. |
|
Advection |
The
process by which solutes are transported with the bulk motion of
flowing groundwater. |
|
Aerobe |
Organism
that grows in the presence of molecular
oxygen. |
|
Aerobic |
An
environment with a partial pressure of oxygen similar to normal
atmospheric conditions. |
|
Aggressivity |
The state
in which an organism is active and able to compete with other
strains for space, nutrients, water and
gases. |
|
Alkalophile |
Organism
that prefers alkaline conditions (pH as high as 10.5 standard
units). |
|
Alkane |
A
non-aromatic saturated hydrocarbon with the general formula CnH(2n+2). |
|
Alkene |
An
unsaturated, open chain hydrocarbon with one or more carbon-carbon
double bonds, having the general formula
CnH2n. |
|
ALS |
Advanced
Light Source. |
|
Anabolism |
The
process in which energy is used to build organic compounds (e.g.,
enzymes, nucleic acids) that are necessary for life functions.
Energy is derived from catabolism, stored in high-energy
intermediate compounds such as adenosine triphosphate (ATP), guanosine triphosphate
(GTP) and acetyl-coenzyme A, and used in anabolic reactions that
allow a cell to grow. |
|
Anaerobe |
An
organism that only grows in the absence of molecular
oxygen. |
|
Anaerobic |
An
environment lacking molecular oxygen. |
|
Anaerobic
Respiration |
Respiratory
process by which certain bacteria use inorganic TEAs other than molecular oxygen for
energy-yielding oxidative metabolism. Nitrate reduction is an
example of anaerobic respiration. |
|
Anoxic |
Habitat
devoid of molecular oxygen. |
|
Anthropogenic |
Derived
from human activities. |
|
APS |
Advanced
Photon Source. |
|
Aquiclude |
Very low
permeability hydrogeologic unit that
effectively stops groundwater flow. |
|
Aquifer |
Permeable
water-bearing formation capable of yielding exploitable quantities
of GROUNDWATER. |
|
Aquitard |
Low
permeability hydrogeologic unit that
retards groundwater flow. |
|
Assimilative
Capacity |
The
ability of in situ conditions to naturally attenuate contaminants in
a manner that protects SENSITIVE RECEPTORS (i.e., the greater the
assimilative capacity, the greater the ability to attenuate
contaminants and protect receptors). |
|
Autotroph |
An
organism that uses inorganic carbon such as carbon dioxide as its
carbon source for growth. (Compare with a HETEROTROPH, which obtains
carbon from organic carbon sources.) |
|
A group of
diverse and ubiquitous prokaryotic single-celled
microorganisms. | |
|
Bioaccumulation |
Intracellular
accumulation of contaminants such as heavy metals by living
organisms. |
|
Bioaugmentation |
The
process of amending contaminated media with microorganisms to
destroy/immobilize contaminants of concern. (Compare to
BIOSTIMULATION.) |
|
Bioavailability |
The
availability of contaminants to microorganisms that are capable of
biodegrading them. |
|
Biochemical
Oxygen Demand (BOD) |
The
empirically derived molecular oxygen requirement that a
biodegradable organic substance exerts upon water assuming an
oxidative biological degradation pathway. The BOD test measures the
molecular oxygen (in mg/L) consumed by seed microorganisms over 5
days at 20 degrees centigrade. |
|
Biodegradation |
The
breakdown of organic substances effected by
microorganisms. |
|
Biofilter |
Equipment
engineered to biodegrade VOCs in air by
passing VOC-contaminated air through media onto hich biodegrading microorganisms are attached. |
|
Biomass |
The amount
of biological matter present within a
habitat. |
|
Bioremediation |
The use of biological mechanisms to destroy,
transform, or immobilize environmental ontaminants to protect potential SENSITIVE
RECEPTORS. |
|
Biostimulation |
The
process of modifying environmental conditions to enhance natural
biological attenuation. For example, addition of electron
acceptors/donors and/or inorganic nutrients, pH adjustment, etc.
(Compare to BIOAUGMENTATION.) |
|
Biotic |
Living. |
|
Biotransformation |
Alteration
of the structure of a compound effected by
a living organism. |
|
Bioventing |
The
process of supplying molecular oxygen in situ to oxygen-limited soil
microbes by forcing air through unsaturated contaminated soil at low
flow rates. Forced aeration stimulates biodegradation and minimizes
stripping volatile organic compounds into the atmosphere. Frequently
used to remediate soil under structures since it is relatively
non-invasive. |
|
BOD |
Biochemical
oxygen demand. |
|
Brownfield |
An
abandoned, idled, or under-utilized industrial or commercial
facility where expansion or redevelopment is complicated by a real
or perceived environmental contamination
condition. |
|
BTEX |
Acronym
for the aromatic petroleum hydrocarbons benzene, toluene, ethylbenzene, and xylenes. |
|
Chlorinated
aliphatic hydrocarbon. | |
|
Carbolic
acid |
PHENOLS. |
|
Catabolism |
The
process by which energy is extracted from organic compounds by
breaking them down into their individual
components. |
|
CERCLA
(Superfund) |
Comprehensive
Environmental Response, Compensation, and Liability
Act. |
|
Chain-of-Custody |
Record
documenting name of individual having physical custody of samples,
the duration of that custody, and the nature of security conditions,
if any. |
|
Chemical
Oxidation |
Remediation
strategy in which strong chemical oxidizing agents are supplied to
contaminated soils/groundwater to oxidize contaminants. In the case
of CAHs, chemical oxidation yields carbon
dioxide, water, and inorganic chloride. |
|
Chemical
Oxygen Demand (COD) |
Measurement
of the molecular oxygen equivalent of chemically-reduced matter,
typically assumed to be organic carbon. COD includes only matter
susceptible to chemical oxidation by strong
oxidant. |
|
Chlorinated
Aliphatic Hydrocarbon (CAH) |
A straight
chain hydrocarbon containing at least one chlorine atom and either a
single or double carbon bond (i.e., alkane
or alkene,
respectively). |
|
CISB |
Committee
on In Situ ioremediation, Water Science
and Technology Board, Commission on Engineering and Technical
Systems, National Research Council. |
|
COD |
Chemical
oxygen demand. |
|
Cometabolism |
The
process by which a contaminant is fortuitously degraded by an enzyme
or cofactor produced during microbial metabolism of another
compound. Typically, there is no apparent benefit to the
microorganism involved. |
|
Consortium |
Two or
more members of a natural assemblage in which each organism benefits
from the other. The group may collectively carryout some process
that no single member can accomplish
independently. |
|
Creosote |
An
antifungal wood preservative often used for treating utility poles
and railroad ties. Creosote consists of coal tar distillation
products, including PHENOLS and PAHs. |
|
Chemical
products that result from the biochemical transformation of chemical
reactants. For example, cis-/trans-1,2-DCEs, 1,1-DCE, and VC may be daughters of PCE
and/or TCE under certain conditions. | |
|
DCA |
Dichloroethane. |
|
DCE |
Dichloroethene. |
|
Dehalorespiration |
Bacterial
growth-coupled utilization of a chlorinated compound as a TEA
(oxidant substitute) and molecular hydrogen, or simple organic
compound, as electron donors. DEHALORESPIRATION occurs only under
anaerobic, chemically reducing conditions, and the process is also
referred to as metabolic REDUCTIVE
DEHALOGENATION. |
|
Dehydrohalogenation |
Elimination
of a hydrogen ion and a halide ion that results in the formation of
an alkene. |
|
Denitrification |
The
formation of gaseous nitrogen and/or oxides of nitrogen from nitrate
or nitrite by certain bacteria during ANAEROBIC RESPIRATION. Denitrification only occurs in ANAEROBIC or
MICROAEROPHILIC conditions when there is sufficient organic carbon
to support reaction. Denitrification may
be used as a treatment technology to remove nitrogen oxides from
liquid waste streams. See DISSIMULATORY NITRATE
REDUCTION. |
|
Dihaloelimination |
Reductive
elimination of two halide substituents
that results in formation of an alkene. |
|
Dispersivity |
A property
quantifying mechanical dispersion in a
medium. |
|
DNA |
Deoxyribonucleic
acid. |
|
DNAPL |
Dense
non-aqueous phase liquid that is denser than water and therefore can
penetrate the water column. (Compare to
LNAPL.) |
|
DPTA |
Diethylenetriaminepentaacetic
acid. |
|
Ethylenediaminetetraacetic
acid. | |
|
Eh |
Redox
potential. |
|
Electron
Acceptor |
An oxidant
that accepts electrons during oxidation-reduction reactions.
Microorganisms obtain energy by transferring electrons from electron
donors such as organic compounds or reduced inorganic compounds to
an electron acceptor. Electron acceptors are chemically oxidized
compounds, including molecular oxygen, nitrate, iron (III),
manganese (IV), sulfate, carbon dioxide, or in some cases CAHs such as PCE and TCE, which become
chemically reduced during
transformation. |
|
Electron
Donor |
Compound
capable of supplying electrons during oxidation-reduction reactions.
Microorganisms obtain energy by transferring electrons from electron
donors such as organic compounds or reduced inorganic compounds to a
TEA. Electron donors are chemically reduced materials such as fuel
hydrocarbons or naturally occurring organic carbon, which become
chemically oxidized during
transformation. |
|
Elimination |
Reaction
in which two atoms such as chlorine and hydrogen are lost from
adjacent carbon atoms and a double bond is formed in their
place. |
|
Enhanced
Bioremediation |
Engineered
bioremediation performed to clean up, and eventually close, a
contaminated site. |
|
Enhanced
Rhizosphere
Biodegradation |
Enhanced
biodegradation of contaminants near plant roots where compounds
exuded by the roots increase biological activity. Other plant
processes such as water uptake by the plant roots can enhance
biodegradation by drawing contaminants into the root
zone. |
|
Enrichment |
Technique
for culturing microorganisms in a liquid medium that results in an
increase of that population relative to others. The liquid medium
frequently contains substances that encourage growth of the selected
microorganism (e.g., the contaminant for a metabolic degradation
pathway). |
|
Enzymes |
Proteins
acting as biological catalysts. |
|
Epoxidation |
The
reaction by which an oxygen molecule is inserted into a
carbon-carbon double bond to form an epoxide. For example, epoxidation is the mechanism by which
microorganisms cometabolize TCE in the
presence of a suitable primary substrate such as methane in aerobic,
chemically oxidizing settings. |
|
Equipment
Blank |
Sample of
distilled/de-ionized water rinseate that
is washed over sampling equipment and submitted to an analytical
laboratory to evaluate for potential contamination owing to improper
equipment decontamination procedures. |
|
Eutrophic |
Natural
waters enriched with inorganic nutrients such as nitrogen and
phosphorus. (Compare with OLIGOTROPHIC.) |
|
Eutrophication |
The
process by which natural waters become enriched of with inorganic
nutrients such as nitrogen and
phosphorous. |
|
Ex
Situ |
Out of the
original position, such as a stockpile of excavated
soil. |
|
Facultative
aerobes are microorganisms that are only VIABLE in anoxic
environments if alternative TEAs, such as
nitrate and sulfate, are present (i.e., they use nitrate and sulfate
as TEAs for respiration once oxygen has
become depleted). | |
|
Fermentation |
An
energy-yielding metabolic pathway that involves a series of
oxidation-reduction reactions in which the substrate and TEA are
organic compounds. Fermentation occurs within a wide variety of
bacteria and fungi. |
|
FST |
Fractionation
separation technology. |
|
Fungi |
A group of
diverse and widespread unicellular and multi-cellular eukaryotic
organisms. Some species are important in the natural decomposition
of plant litter. |
|
Gas
chromatography/mass spectroscopy. | |
|
GEMS |
Genetically
engineered microorganisms
. |
|
Groundwater |
Subsurface
water occupying the saturated zone. |
|
Groundwater
System |
Water-bearing
formation capable of transmitting and storing
GROUNDWATER. |
|
Organisms
that prefer elevated salt concentrations in excess of other
organisms. | |
|
Heterotroph |
An
organism that obtains carbon and energy from growth-coupled
metabolism of organic carbon. (Compare with an AUTOTROPH, which
obtains carbon from inorganic carbon.) |
|
HPLC/MS |
High-pressure
liquid chromatography/mass spectroscopy. |
|
Hydraulic
Conductivity |
A
measurement of the ability of a given volume of soil, sediment, or
rock to transmit water. |
|
Hydraulic
Gradient |
The
maximum change in hydraulic head per unit
distance. |
|
Hydraulic
Head |
The height
above a datum plane of the surface of a column of water. In
groundwater flow systems, hydraulic head has two components
consisting of elevation head and pressure
head. |
|
Hydrodynamic
Dispersion |
The
natural process that mixes contaminants with the fluid phase in
porous media. Hydrodynamic dispersion is due to both mechanical
dispersion (i.e., mechanical mixing due to the presence of soil
grains and interstitial space between grains) and molecular
diffusion (e.g., physical-chemical mixing due to concentration
gradients that spread contaminants in the absence of fluid
motion). |
|
Hydrogenolysis |
A
reductive reaction where a carbon-halogen bond is broken, and hydrogen replaces the halogen substituent. |
|
Hydroxylation |
Addition
of a hydroxyl group to a CAH. |
|
In place,
the natural or original position. | |
|
Inoculum |
Material
used to introduce a microorganism into a suitable situation for
growth. |
|
Intrinsic
Bioremediation |
The
natural attenuation of contaminants of concern mediated by native
microorganisms, typically bacteria. |
|
Isoenzyme |
An enzyme
that can occur in more than one form within a given species. Also
called an ISOZYME. |
|
Isozyme |
An enzyme
that can occur in more than one form within a given species. Also
called an ISOENZYME. |
|
A complex
polymer that occurs in the woody material of higher plants. It is
highly resistant to chemical and enzymatic degradation. The WHITE
ROT FUNGI are known for their lignin-degrading
capability. | |
|
LNAPL |
Liquid
that is lighter than water and floats on top of the water column.
(Compare to DNAPL.) |
|
LNAPL |
LIGHT
NON-AQUEOUS PHASE LIQUID. |
|
A physical
process of mixing along a groundwater flow path resulting solely
from differences in path length and pore
velocity. | |
|
Medium |
Material
that is supportive of biological growth. |
|
Mesophile |
An
organism that prefers temperature ranges of about 20 – 45 degrees
centigrade. (Compare with THERMOPHILE and
PSYCHROPHILE.) |
|
Metabolism |
Growth-coupled
reaction in which microorganisms use electron donor for organic
carbon and energy and electron acceptor to collect electrons
released during the reaction. |
|
Methane-Producing
Bacteria |
METHANOGEN. |
|
Methanogen |
Bacteria
that oxidize hydrogen to methane and water using carbon dioxide as
the TERMINAL ELECTRON ACCEPTOR under anaerobic conditions. These
bacteria may occur in anaerobic muds,
ponds, sewage sludge, and other similar environmental
settings. |
|
Methanotrophs |
Obligate
aerobic bacteria that use methane as electron donor and typically
molecular oxygen as the TEA. Methanotrophs
are responsible for the co-oxidation of certain chlorinated solvents
at the expense of methane. |
|
Microaerophilic |
An
environment with low molecular oxygen content, but which is not
anaerobic. |
|
Microbe |
Microorganism. |
|
Microcosm |
A smaller
unit representative of a larger one. |
|
Microflora |
The
microorganisms associated with a given
environment. |
|
Micronutrient |
Chemical
element necessary for biological activity found in trace amounts,
including boron, chlorine, copper, iron, manganese, molybdenum, and
zinc. |
|
Microorganisms |
Very small
organisms consisting of bacteria, algae, fungi, and
viruses. |
|
Mineralization |
The
breakdown of organic matter to inorganic materials (e.g., carbon
dioxide and water) by bacteria and
fungi. |
|
Minimal
Medium |
Culture
media lacking certain growth factors so that it can support growth
of only a certain type of microorganisms (These are often used for
ENRICHMENT). |
|
Molecular
Diffusion |
The
process that controls molecular movement from a higher concentration
gradient to a lower one as a function of Brownian
motion. |
|
Monooxygenase |
A
microbial enzyme that catalyzes reactions in which one atom of the
oxygen molecule is incorporated into a product and the other atom in
water. |
|
Most
Probable Number (MPN) |
A method
for estimating the population density of microorganisms in a given
sample. A volume of liquid or suspension is inoculated into each of
a certain number of test tubes (typically five) containing growth
media. Decreasing volumes are inoculated into successive sets of
test tubes. After an incubation period, the test tubes are scored
for growth. Those tubes in which growth occurred are assumed to have
contained at least one VIABLE organism in the inoculant. The concentration of VIABLE
microorganisms in the original liquid or suspension is calculated
using a statistical table. |
|
MPN |
Most
probable number. |
|
Mycelium
(plural, mycelia) |
Hyphae that form
the vegetative body of many fungal
organisms. |
|
Mycobacterium |
A genus of
aerobic bacteria found in soil and water capable of biologically
degrading multi-ring organic compounds such as PAHs. |
|
Mycorrhiza |
A
symbiotic (mutually beneficial) association between a fungus and a
plant root which occurs in a wide range of plants including trees,
shrubs, and herbaceous plants. |
|
Nonaqueous phase
liquid. Compare to DNAPL and LNAPL. | |
|
NIST |
National
Institute of Standards and Technology
Division. |
|
Nitrate
Reducer |
Bacteria
that effects NITRATE
REDUCTION. |
|
Nitrate
Reduction |
The use of
nitrate as a TEA for ANAEROBIC RESPIRATION. This process occurs
under ANAEROBIC or MICROAEROPHILIC conditions. Not all bacteria are
capable of this form of metabolism and the nitrate may not be
reduced completely to nitrogen gas (terminating at nitrite, for
example). When nitrate is reduced to gaseous forms the process is
called DENITRIFICATION, or dissimilatory
nitrate reduction. |
|
Nitrate
Respiration |
See
NITRATE REDUCTION. |
|
Nitrification |
The
oxidation of ammonia to nitrite and then nitrate by bacterial
species such as Nitrosomonas and Nitrobacter, respectively, under aerobic
conditions. |
|
NMR |
Nuclear
magnetic resonance spectroscopy. |
|
NOAA |
National
Oceanic and Atmospheric Administration. |
|
Non-Aqueous
Phase Liquid (NAPL) |
Separate
phase product that can be either an LNAPL (lighter than water) or
DNAPL (denser than water), depending on NAPL
composition. |
|
NSLS |
National
Synchrotron Light Source. |
|
NTA |
Nitrilotriacetic
acid. |
|
Nucleophile |
A chemical
reagent that reacts by forming covalent bonds with electronegative
atoms or compounds. |
|
Any
condition that is an essential attribute of a given
organism. | |
|
Obligate
Aerobes |
Microorganisms
that are VIABLE only in the presence of molecular oxygen (i.e., they
use molecular oxygen as a TEA for
respiration). |
|
Obligate
Anaerobes |
Microorganisms
that are only VIABLE in the absence of
molecular oxygen. Note that obligate anaerobes have varying degrees
of oxygen sensitivity. For example, while both METHANOGENS and
sulfate reducers are typically not VIABLE in the presence of
molecular oxygen, METHANOGENS do not survive whereas sulfate
reducers remain VIABLE, but inactive. |
|
Oligotrophic |
Water body
containing minimal nutrients that can support growth of aerobic
photosynthetic organisms. (Compare with
EUTROPHIC). |
|
Organic
Pump |
Uptake of
large quantities of water by plant (trees) roots and translocation
into the atmosphere to reduce a flow of water. Used to keep
contaminated groundwater from reaching a body of water, or to keep
surface water from seeping into a capped landfill and forming leachate. |
|
ORP |
REDOX
POTENTIAL. |
|
Overburden |
Unconsolidated
surficial geologic materials overlying
bedrock. |
|
Oxic |
Habitat
containing molecular oxygen. |
|
Oxidase |
An enzyme
that catalyses a reaction by which electrons
are removed from a substrate and donated to molecular
oxygen. |
|
Oxidation |
Tendancy to accept
electrons. |
|
Oxygenase |
Enzyme
that catalyses a reaction by which one (monooxygenase) or both (dioxygenase) atoms of molecular oxygen are
incorporated into one molecule of substrate. Oxygenase catalyzes the first step in
biodegradation of straight-chained and aromatic
hydrocarbons. |
|
POLYNUCLEAR
AROMATIC HYDROCARBONS. | |
|
Parent |
Assumed
chemically reactant species. For example, PCE, TCE, and TCA can be
parents of DCE and VC under anaerobic, chemically reducing
conditions. |
|
Parent
Ratio |
Ratio, in
percent (%), of the total parent (reactant) concentration to the sum
of the parent plus daughter (product) concentration (e.g., reductive
dehalogenation of CAHs yields decreasing parent ratios with time
as parents are preferentially destroyed in relation to
daughters.) |
|
Pathogen |
Organism
capable of causing disease. |
|
PCB |
POLYCHLORINATED
BIPHENYL. |
|
PCE (Perchloroethylene) |
Tetrachloroethene. |
|
PCP |
Pentachlorophenol. |
|
PCR |
Polymerase
chain reaction. |
|
Perched
Water |
Groundwater
body, generally of moderate dimensions, supported by a relatively
impermeable stratum and which is located below ground surface, but
above the WATER TABLE. |
|
PHB |
Polyhydroxy
butyrate. |
|
Phenols
(Carbolic acid, C6H5OH) |
Caustic,
poisonous, white crystalline compounds, C6H5OH, derived from benzene
and used in resins, plastics, and pharmaceuticals and in dilute form
as disinfectants and antiseptics. Also called carbolic acid. Any of
a class of aromatic compounds having at least one hydroxyl group
attached directly to the benzene ring. PHENOLS and substituted
PHENOLS are used as antimicrobial agents at high
concentrations. |
|
Phytoaccumulation |
PHYTOEXTRACTION. |
|
Phytodegradation |
Process by
which plants degrade organic pollutants through metabolic
processes. |
|
Phytoextraction |
Use of
plants to extract contaminants such as metals from environmental
media, especially soil. When plants become saturated with
contaminants, they are harvested and the remains disposed as
waste. |
|
Phytomining |
Use of
plants to extract inorganic substances of economic value (precious
metals, etc.) |
|
Phytoremediation |
Use of
plants to remediate contaminated soil or
groundwater. |
|
Phytostabilization |
Use of
soil amendments and plants to limit bioavailability and restrict
offsite contaminant migration. |
|
Phytovolatilization |
Use of
plants to volatilize contaminants from soil or
water. |
|
Plasmid |
Extra DNA
within a cell that is usually dispensable, but may confer an
advantage, such as the ability to biodegrade certain
compounds. |
|
PLFA |
Phospholipid
ester-lined fatty acids. |
|
PNA |
POLYNUCLEAR
AROMATIC HYDROCARBONS. |
|
Polychlorinated
Biphenyl (PCB). |
Family of
industrial compounds produced by chlorinating biphenyls, which can
accumulate in animal tissue with resultant pathogenic and
TERATOGENIC effects |
|
Polynuclear Aromatic
Hydrocarbons |
Class of
stable, multi-ring organic molecules composed of carbon and
hydrogen. These molecules are flat, and each carbon has three
neighboring atoms. These multi-ring compounds are relatively common,
but highly carcinogenic constituents of fuels, oils, and creosote,
and can also be combustion products. |
|
Psychrophile |
Organism
that prefers temperatures of less than about 20 degrees centigrade.
|
|
Resource
Conservation and Recovery Act. | |
|
Recalcitrant |
Property
of being resistant to biological
degradation. |
|
Redox Potential
(Eh or ORP) |
The
oxidation-reduction potential of an environment. REDOX POTENTIAL
measures the tendency of the environment to be chemically reducing
(donate electrons) or oxidizing (accept
electrons). |
|
Reduction |
Tendancy to donate
electrons. |
|
Reductive
Dehalogenation |
The
biologically-mediated replacement of chlorine (as chloride) on a
chlorinated organic compound with elemental hydrogen in the presence
of a suitable ELECTRON DONOR, followed by subsequent transformation
of the chemical reactant to a less chlorinated product. For example,
REDUCTIVE DEHALOGENATION of CAHs typically
occurs sequentially from PCE to TCE, TCE to 1,2-DCEs, 1,2-DCEs to VC, and VC to ethene and chloride, and ultimately ethene to carbon dioxide and water. REDUCTIVE
DEHALOGENATION may occur metabolically or cometabolically. During metabolic dehalogenation, microorganisms derive benefit
from mediating this reaction in growth-coupled DEHALORESPIRATION.
During cometabolic dehalogenation, microorganisms derive no such
benefit and the reaction may be entirely
serendipitous. |
|
Respiration |
The
energy-yielding process of coupling chemical oxidation of organic
compounds with chemical reduction of inorganic compounds, such as
oxygen, nitrate, iron (III), manganese (IV), sulfate, or carbon
dioxide. |
|
Rhizofiltration |
Uptake of
contaminants by plant roots in communication with either true
GROUNDWATER or PERCHED WATER. The roots are harvested once they
become saturated with contaminants. |
|
Rhizoplane |
Plant root
surfaces. |
|
Rhizosphere |
Soil near
the plant roots that is influenced by those roots. Typically
includes an area no larger than a few millimeters or at most
centimeters from the plant roots. This is an important area because
it is nutrient rich and contains a very active microbial
population. |
|
RNA |
Ribonucleic
acid. |
|
Water-bearing
material in which all voids, large and small, are filled with
water. | |
|
Sensitive
Receptors |
Human/environmental
users of contaminated groundwater that may be adversely affected by
contamination. Receptors may include current or potential future
users of contaminated groundwater. |
|
Septage |
Liquid
and/or solid waste material removed from holding tanks. Domestic
septage is derived from private
residential properties whereas industrial septage is derived from industrial/commercial
properties. |
|
Signature |
The types
of contaminants present (e.g., parent CAHs
such as PCE and TCE or daughter CAHs such
as DCEs and VC) and their respective
concentrations in mass per unit volume. |
|
SLB |
Signature
lipid biomarker analysis. |
|
Solvolysis |
A reaction
where the solvent serves as the
NUCLEOPHILE. |
|
Substrate |
The base
upon which organisms live. Soil is the substrate of most seed plants
and rocks, soil, water, or other tissues are substrates for other
organisms. SUBSTRATE may also refer to the organic carbon upon which
organisms feed. |
|
Substrate |
Organic
carbon and electron donor source used for microbial
metabolism. |
|
Sulfate
Reducer |
Bacteria
that effects SULFATE REDUCTION.
|
|
Sulfate
Reduction |
The use of
sulfate as a TEA for ANAEROBIC RESPIRATION. This process occurs
under ANAEROBIC conditions. Not all bacteria are capable of this
form of metabolism. |
|
TERMINAL
ELECTRON ACCEPTOR. | |
|
Teratogenic |
Either
relating to or causing malformations of an embryo or
fetus. |
|
TSCA |
Toxic
Substance Control Act. |
|
Aquifer
containing unconfined groundwater, which has a WATER TABLE and an
UNSATURATED ZONE. | |
|
Unsaturated
Zone |
That
portion of the subsurface in which pore interstices are partially
filled with gas and water. |
|
Volatile
organic compound. | |
|
Surface
within the SATURATED ZONE of an UNCONFINED AQUIFER over which the
pressure is atmospheric. | |
|
White Rot
Fungi |
|
|
|