Title of article
Isolation and identification of bacteria from rotary drum compost of water hyacinth
Author/Authors
Vishan, Isha Centre for the Environment - Indian Institute of Technology Guwahati (IIT G) , Sivaprakasam, Senthilkumar Department of Biosciences and Bioengineering - Indian Institute of Technology Guwahati (IIT G) , Kalamdhad, Ajay Department of Civil Engineering - Indian Institute of Technology Guwahati (IITG)
Pages
9
From page
245
To page
253
Abstract
Purpose The present work aims to isolate and identify
bacterial community from the rotary drum compost of
green waste such as the water hyacinth. Compost quality
was also investigated with the physicochemical parameters
and the heavy metal analysis.
Methods For rotary drum composting, a waste mixture of
150 kg with water hyacinth, cow dung and sawdust were
prepared in the proportion of 6:3:1, respectively. The
physicochemical parameters such as pH, temperature,
volatile solids and the electrical conductivity were analyzed
to detect the compost quality. Pb, Ni, Zn, and Cd
were investigated for total heavy metals, toxicity characteristic
leaching procedure (TCLP), diethylenetriaminepentaacetic
acid (DTPA) and water solubility tests.
Consistent and active bacterial community were isolated
from the rotary drum compost of water hyacinth. Culturedependent
and culture-independent techniques were
approached for the isolation process. Results Twelve bacteria were isolated and identified by
16S rDNA sequencing and phylogenetic analysis; they
majorly belonged to the Bacillus and Enterobacter family.
The analysis of temperature, pH, EC, VS and heavy metals
depicted the good quality of compost. Heavy metals concentration
was in Pb[Ni[Zn[Cd; however, for Pb,
Cd and Ni water solubility remained non-detectable, DTPA
concentration for Pb and Cd was also found to be nondetectable.
Conclusions The microbes in water hyacinth compost are
metabolically active degrading the organic matter, surviving
in the heavy metal-loaded compost environment. Thus,
green waste (water hyacinth) can be utilized to isolate
bacterial species in anticipation of their application in
heavy metal removal in liquid and solid waste sources for
micro-bioremediation.
Keywords
Micro-bioremediation , PCR (polymerase chain reaction) , Heavy metals , Enterobacter , Bacillus , Rotary drum composting
Journal title
Astroparticle Physics
Serial Year
2017
Record number
2423614
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