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bioremediering

Bioremediering (bioremediation) is a set of techniques that use living organisms to reduce, remove, or stabilize pollutants in the environment, including soils, groundwater, sediments, and waste. It relies on natural biological processes and can be enhanced to speed up cleanup while aiming to minimize disturbance.

In situ approaches treat contamination where it resides. Bioventing introduces air to stimulate aerobic microbes; biosparging

Ex situ methods move material to treatment units. Biopiles, landfarming, composting, and bioreactors treat contaminated material

Contaminants targeted include petroleum hydrocarbons, chlorinated solvents, and pesticides. Heavy metals may be immobilized or taken

Key factors influencing success are contaminant bioavailability, nutrient balance (often carbon:nitrogen:phosphorus ratios), moisture, temperature, and adequate

Advantages of bioremediation include cost savings, reduced site disturbance, and scalability to large areas. Limitations include

Applications span oil-affected soils and groundwater, solvent and pesticide plumes, and contaminated sediments or mine tailings.

injects
air
into
unsaturated
zones;
biostimulation
adds
nutrients
or
electron
acceptors
to
boost
native
microbial
activity;
bioaugmentation
adds
specific
microbial
strains
to
accelerate
degradation.
Phytoremediation
uses
plants
to
take
up,
stabilize,
or
degrade
contaminants,
with
processes
such
as
phytoextraction,
phytostabilization,
and
rhizodegradation.
above
ground,
often
under
controlled
conditions
to
optimize
microbial
activity.
up
by
plants
rather
than
degraded,
and
certain
contaminants
may
require
combination
strategies
or
specialized
organisms.
oxygen.
Monitoring
uses
chemical
analyses
and
biological
indicators
to
assess
degradation
progress
and
system
performance.
variability
with
site
conditions,
slower
cleanup
rates
compared
with
some
physical
methods,
potential
formation
of
intermediate
products,
and
the
need
for
long-term
monitoring
and
regulatory
oversight.