9
Soil Microorganisms and Nematodes for Bioremediation and Amelioration
TABLE 1.2 Optimum Conditions for Bioremediation of Environmental Pollutants
Environmental Factor Conditions Required for Microbial Activity
References
Available soil moisture 25–85% water holding capacity
Harekrushna &
Kumar (2012);
Oxygen
Aerobic, minimum air-filled pore space of 10%
Haghollahi,
Soil type
Low clay or silt content
Fazaelipoor, &
pH
5.5–8.5
Schaffie (2016)
Temperature
15–45°C
The detoxification or remediation of the site requires oxygen and nutrient
by circulating the polluted soil to facilitate the degradation of the organic
pollutant by the naturally occurring bacteria. The process of bioremediation
was reported to be the cheapest and most effective method for detoxification
of heavy metals in soil (Kumar et al., 2011). In situ bioremediation is of
mainly two types: (i) intrinsic in situ bioremediation; and (ii) engineered in
situ bioremediation.
1.3.1.1 INTRINSIC/NATURAL ATTENUATION IN SITU BIOREMEDIATION
It uses the biodegradation of toxic pollutants to harmless substances by the
innate capacity of the microorganisms already present in the environment
(Vidali, 2001). In this process, there is no interference of humans, and it is
considered the cheapest method of bioremediation which is widely known.
Scientists turn to engineered bioremediation when the intrinsic bioremedia
tion is not feasible under certain circumstances.
1.3.1.2 ENGINEERED/ENHANCED IN SITU BIOREMEDIATION
The aforementioned process requires the introduction of the microbes into the
site of the contamination. Moreover, in this method, there may be the addi
tion of engineered microbes for the bioremediation process. This enhances
and accelerates the process of degradation of heavy metals by improving the
physiochemical condition and growth of microbes. Mainly, electron accep
tors, nutrients, and oxygen are added along with nitrogen and phosphorus
to enhance the development of the microbes (Rodríguez et al., 2009). Some
important in situ bioremediation processes are discussed hereunder.