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Soil Microorganisms and Nematodes for Bioremediation and Amelioration
dealing with the considerable accumulation of contaminants (both organic
and inorganic) in soil and water systems. As per an estimation made by
Blaylock et al. (1997), adoption of bioremediation technique for Pb polluted
soil could help reduce the cost by 50–65% compared to the conventional
methods. Literature is replete with case studies implying the use of microbes
as a successful clean-up strategy for both organic and inorganic pollutants.
Microbes alone or in association with plants have the ability to metabolize
a wide range of pollutants, categorically diverse in nature and properties,
either to obtain carbon and/or energy for growth and development or as
co-substrates. Despite numerous advantages of microbe-assisted bioreme
diation, several limitations persist which often thwart the extrapolation of
lab carried experiments to field level showing unparalleled results. One
particular concern that persists is the long-term sustainability of the microbes
in bioremediation process. Considering the alarming rate of accumulation
of both organic and inorganic pollutants in the environment the microbial
bioremediation process should be fastened so as to match the available
commercial remediation processes.
Presence of more than one type of pollutants or a mixture of organic
pollutants and heavy metal(loid)s could obstruct the normal metabolic
functioning of the microbes. Therefore, the microbes need to be genetically
manipulated so as to introduce the required feature in the GEMs to increase
their endurance level to a wide array of pollutants without affecting its
remediation efficacy. In addition, genetic modification should be such that
the GEM should be able to modulate itself to the changing environmental
conditions. If at all the need of GEM arises then its introduction should
be backed up with thorough studies on its ecotoxicity, effect on existing
biodiversity and growth kinetics. Microbial techniques are the most logical,
long-term answer for remediation because the safe removal of large levels of
contaminants is a concern matched by greater worldwide awareness of the
environmental concerns caused by other approaches.
1.8 CONCLUSION AND FUTURE PROSPECTS
Natural and human activities are causing an increase in organic and inorganic
contaminants in the environment. In order to have a balanced and sustainable
ecosystem, these toxins must be removed and/or stabilized from the environ
ment. Despite the fact that there have been several targeted studies in this
area, only a few strategies have been shown to be both safe and cost-effective.