Study on the biodegradation of persistent organic pollutants (POPs)

The use of organochlorine pesticides, such as dichlorodiphenyltrichloroethane (DDT) and benzene hexachloride (BHC), have contributed substantially to the increase and stable supply of food production post-World War II. However, they have also become a major source of pollution on a global scale due...

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Bibliographic Details
Published in:Journal of Pesticide Science 2020/05/20, Vol.45(2), pp.119-123
Main Author: Takagi, Kazuhiro
Format: Article
Language:English
Subjects:
Agricultural pollution
Bacteria
Benzene
Bioaccumulation
Biodegradation
Biological magnification
bioremediation
Charcoal
DDT
Dechlorination
Dieldrin
Environmental health
Food
Food contamination
Food production
Food safety
Food supply
Health risks
Hexachlorobenzene
metabolic pathway
Metabolic pathways
Metabolism
Nocardioides sp. PD653
novel dehalogenase genes
Organic compounds
Organochlorine pesticides
PCB
Perfusion
Persistent organic pollutants
persistent organic pollutants (POPs)
Pesticides
Pollutants
Pollution sources
Polychlorinated biphenyls
R&D
Remediation
Research & development
Risk reduction
Sediment pollution
Society Awards
Soil contamination
Soil pollution
Soil remediation
Soils
soil–charcoal perfusion system
Toxicity
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Summary:The use of organochlorine pesticides, such as dichlorodiphenyltrichloroethane (DDT) and benzene hexachloride (BHC), have contributed substantially to the increase and stable supply of food production post-World War II. However, they have also become a major source of pollution on a global scale due to their persistence in the environment, high bioconcentration, toxicity, and their long-distance mobility. Although the use and production of these pesticides were banned over 45 years ago, they still present a risk to human health and ecosystems, and pose a threat to food safety. These pesticides were designated as persistent organic pollutants (POPs) by the Stockholm Convention in 2001, which urged the industry to reduce or eliminate them globally. The authors of this study have been involved in the research and development of bioaugmentation soil remediation technology to reduce the risk of environmental and crop contamination originating from POPs. In this paper, these studies are summarized, from basic studies (1, 2, 3) to an applied study (4), as follows: (1) use of the soil–charcoal perfusion method to explore POP-degrading bacteria, (2) bacteriological characteristics, metabolic pathways and dechlorination genes of the hexaclorobenzene (HCB)-mineralizing bacterial strain PD653, (3) characteristics and metabolic pathways of the dieldrin-degrading bacterial strain KSF27, and (4) application of these degrading bacteria for remediation of POPs-contaminated soil.
ISSN:1348-589X
1349-0923
DOI:10.1584/jpestics.J19-06