Screening and Identification of Ligninolytic Bacteria for the Treatment of Pulp and Paper Mill Effluent

Lignin is the major polluting and colouring constituent present in pulp and paper mill effluent. To degrade lignin and its derivatives, bacterial enzymes can play an important role due to stability at extreme environmental conditions. This study explored the degradation of pulp and paper mill efflue...

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Bibliographic Details
Published in:Water, air, and soil pollution air, and soil pollution, 2015-09, Vol.226 (9), p.1-11, Article 305
Main Authors: Hooda, Rajni, Bhardwaj, Nishi K., Singh, Pamela
Format: Article
Language:English
Subjects:
Atmospheric Protection/Air Quality Control/Air Pollution
Bacteria
Bioremediation
Brevibacillus
Climate Change/Climate Change Impacts
Dyes
Earth and Environmental Science
Effluents
Environment
Environmental conditions
Environmental impact
Environmental monitoring
Enzymes
Hydrogeology
Industrial wastewater
Lignin
Paper industry
Paper industry wastes
Paper mills
Phenols
Pollution
Pulp & paper industry
Pulp & paper mills
Reactors
Retention time
RNA
Sewage treatment
Sludge
Soil Science & Conservation
Wastes
Water Quality/Water Pollution
Wood pulp industry
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Summary:Lignin is the major polluting and colouring constituent present in pulp and paper mill effluent. To degrade lignin and its derivatives, bacterial enzymes can play an important role due to stability at extreme environmental conditions. This study explored the degradation of pulp and paper mill effluent by a rod-shaped Gram-positive bacterial strain RJH-1, isolated from sludge, based on its efficiency to reduce COD, colour, AOX and lignin content. This bacterial isolate was able to grow in nitrogen-free Jensen medium. Further, RJH-1 was identified as Brevibacillus agri strain after 16 s rRNA gene sequencing. Degradation potential of this isolated bacterial strain was evaluated by batch and semi-continuous reactor study. In batch study, the isolate reduced 69 % COD, 47 % colour, 37 % lignin and 39 % AOX after 5 days whereas in control flask, 40 % COD, 26 % colour, 19 % lignin and 22 % AOX reduction was observed by the indigenous bacteria present in wastewater. During semi-continuous reactor study, it reduced 62 % COD, 37 % colour, 30 % lignin and 40 % AOX of effluent at a retention time of only 32 h whereas the reduction in control reactor was 36 % COD, 21 % colour, 18 % lignin and 29 % AOX. This study confirmed that the B. agri has the potential to degrade the lignin and reduce the colour and COD of the pulp and paper mill waste water.
ISSN:0049-6979
1573-2932
DOI:10.1007/s11270-015-2535-y