Biodegradation of sulfoxaflor and photolysis of sulfoxaflor by ultraviolet radiation

Sulfoxaflor (SUL, [ N -[methyloxido[1-[6-(trifluoromethyl)-3-pyridinyl] ethyl]- λ 4 -sulfanylidene] cyanamide]) is a widely used systemic insecticide, and its residue has frequently been detected in the environment, posing a potential threat to the environment. In this study, Pseudaminobacter salicy...

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Bibliographic Details
Published in:Biodegradation (Dordrecht) 2023-08, Vol.34 (4), p.341-355
Main Authors: Zhao, Yun-Xiu, Chen, Ke-Xin, Wang, Li, Yuan, Pan-Pan, Dai, Yi-Jun
Format: Article
Language:English
Subjects:
Alginic acid
Aquatic Pollution
Aquatic resources
Biodegradation
Biodegradation, Environmental
Biomedical and Life Sciences
Calcium
Calcium alginate
Degradation
E coli
Entrapment
Enzymes
Genomes
Genomics
Geochemistry
Half-life
Harsh environments
Immobilization
Insecticides
Insecticides - chemistry
Insecticides - metabolism
Irradiation
Laboratories
Life Sciences
Metabolism
Microbiology
Microorganisms
Nucleotide sequence
Original Paper
Pesticides
Photolysis
Radiation
Radioactive half-life
Seaweed meal
Soil Science & Conservation
Surface water
Terrestrial Pollution
Ultraviolet radiation
Ultraviolet Rays
Waste Management/Waste Technology
Waste Water Technology
Water Management
Water Pollution Control
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Summary:Sulfoxaflor (SUL, [ N -[methyloxido[1-[6-(trifluoromethyl)-3-pyridinyl] ethyl]- λ 4 -sulfanylidene] cyanamide]) is a widely used systemic insecticide, and its residue has frequently been detected in the environment, posing a potential threat to the environment. In this study, Pseudaminobacter salicylatoxidans CGMCC 1.17248 rapidly converted SUL into X11719474 via a hydration pathway mediated by two nitrile hydratases (AnhA and AnhB). Extensive (96.4%) degradation of 0.83 mmol/L SUL was achieved by P. salicylatoxidans CGMCC 1.17248 resting cells within 30 min (half-life of SUL 6.4 min). Cell immobilization by entrapment into calcium alginate remediated 82.8% of the SUL in 90 min, and almost no SUL was observed in surface water after incubation for 3 h. P. salicylatoxidans NHases AnhA and AnhB both hydrolyzed SUL to X11719474, although AnhA exhibited much better catalytic performance. The genome sequence of P. salicylatoxidans CGMCC 1.17248 revealed that this strain could efficiently eliminate nitrile-containing insecticides and adapt to harsh environments. We firstly found that UV irradiation transforms SUL to the derivatives X11719474 and X11721061, and the potential reaction pathways were proposed. These results further deepen our understanding of the mechanisms of SUL degradation as well as the environmental fate of SUL.
ISSN:0923-9820
1572-9729
1572-9729
DOI:10.1007/s10532-023-10020-x