Newsletter and Technical Publications
Freshwater Management Series No. 2
Phytoremediation: An Environmentally Sound
Pollution Prevention, Control and Redmediation
An Introductory Guide To Decision-Makers
Around the world, there is an increasing trend in areas of land, surface waters
and groundwater affected by contamination from industrial, military and agricultural
activities either due to ignorance, lack of vision, or carelessness. The build-up
of toxic pollutants (metals, radionuclides and organic contaminants in soil,
surface water and ground water) not only affects natural resources but also
causes a major strain on ecosystems. Remediation of contaminated sites using
conventional practices, such as ‘pump-and-treat’ and ‘dig-and-dump’ techniques,
is often expensive, has limited potential, and is usually only applicable to
small areas. Additionally, these conventional approaches to remediation often
make the soil infertile and unsuitable for agriculture and other uses by destroying
the microenvironment. Hence there is the need to develop and apply alternative,
environmentally sound technologies (ESTs), taking into account the probable
end use of the site once it has been remediated.
Quick Look at Phytoremediation
Phytoremediation is the direct use of living green
plants for in situ, or in place, removal, degradation, or containment
of contaminants in soils, sludges, sediments, surface water and groundwater.
- A low cost, solar energy driven cleanup technique.
- Most useful at sites with shallow, low levels of contamination.
- Useful for treating a wide variety of environmental contaminants.
- Effective with, or in some cases, in place of mechanical cleanup
1: Cabbage plantation growing close to a zinc smelter in Silesia, Poland. As a
result of a smelt activities lead concentration was highly increased in the soil
and then picked up by a number of crops in the surrounding areas.(Photo: IETU)
Phytoremediation (‘phyto’ means plant) is a generic term for
the group of technologies that use plants for remediating soils, sludges, sediments
and water contaminated with organic and inorganic contaminants. Phytoremediation
can be defined as “the efficient use of plants to remove, detoxify or
immobilise environmental contaminants in a growth matrix (soil, water or sediments)
through the natural biological, chemical or physical activities and processes
of the plants”. Plants are unique organisms equipped with remarkable
metabolic and absorption capabilities, as well as transport systems that
can take up nutrients or contaminants selectively from the growth matrix,
or water. Phytoremediation involves growing plants in a contaminated matrix,
for a required growth period, to remove contaminants from the matrix, or
facilitate immobilisation (binding/containment) or degradation (detoxification)
pollutants. The plants can be subsequently harvested, processed and disposed.
Plants have evolved a great diversity of genetic adaptations to handle the
accumulated pollutants that occur in the environment. Growing and, in some
cases, harvesting plants on a contaminated site as a remediation method is
a passive technique that can be used to clean up sites with shallow, low to
moderate levels of contamination. Phytoremediation can be used to clean up
metals, pesticides, solvents, explosives, crude oil, polyaromatic hydrocarbons,
and landfill leachates. It can also be used for river basin management through
the hydraulic control of contaminants. Phytoremediation has been studied extensively
in research and small-scale demonstrations, but full-scale applications are
currently limited to a small number of projects. Further research and development
will lead to wider acceptance and use of phytoremediation.
Does Phytoremediation Work?
There are several ways in which plants are used to clean up, or remediate,
contaminated sites. To remove pollutants from soil, sediment and/or water,
plants can break down, or degrade, organic pollutants or contain and stabilise
metal contaminants by acting as filters or traps.
2: Experimental phytoremediation crops in Canada (Photo: Environment Canada)
The uptake of contaminants in plants occurs primarily through the root system,
in which the principal mechanisms for preventing contaminant toxicity are found.
The root system provides an enormous surface area that absorbs and accumulates
the water and nutrients essential for growth, as well as other non-essential
contaminants. Researchers are finding that the use of trees (rather than smaller
plants) is effective in treating deeper contamination because tree roots penetrate
more deeply into the ground. In addition, deep-lying contaminated ground water
can be treated by pumping the water out of the ground and using plants to treat
Plant roots also cause changes at the soil-root interface as they release
inorganic and organic compounds (root exudates) in the rhizosphere. These root
exudates affect the number and activity of the microorganisms, the aggregation
and stability of the soil particles around the root, and the availability of
the contaminants. Root exudates, by themselves can increase (mobilise) or decrease
(immobilise) directly or indirectly the availability of the contaminants in
the root zone (rhizosphere) of the plant through changes in soil characteristics,
release of organic substances, changes in chemical composition, and/or increase
in plant-assisted microbial activity.
Phytoremediation is an alternative or complimentary technology that can be
used along with or, in some cases in place of mechanical conventional clean-up
technologies that often require high capital inputs and are labour and energy
intensive. Phytoremediation is an in situ remediation technology that utilises
the inherent abilities of living plants. It is also an ecologically friendly,
solar-energy driven clean-up technology, based on the concept of using nature
to cleanse nature.