Comparative Optimization Studies Of Various Parameters Towards Chlorantraniliprole Degradation By Gram Positive Pdb
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Abstract
Biodegradation of pesticides using various microbes such as PDBs is the best alternative for eco-friendly as well as economical way to mitigate bioaccumulation as well as biomagnification of these chemicals into ecological pyramids. The microbes have the property of degrading pesticides also known as PDB (pesticide degrading bacteria) in their vicinity using their metabolic pathways which was explored in the present study to biologically degrade organophosphorus based pesticide Chlorantraniliprole using a gram positive bacteria isolated from agriculture soils. The results of this study has improved the scientific way of exploring Staphylococcus hemolyticus for its potency towards bioremediation property also in biodegrading chemical based pesticide. A comparative study has revealed the influence of various optimized parameters towards the pesticide degradation activity of isolates from three study sites which has opened the unexplored zones of scientific understanding of a microbial behaviour towards specific activity
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References
Ambreen, S., & Yasmin, A. (2020). Isolation, characterization and identification of organophosphate pesticide degrading bacterial isolates and optimization of their potential to degrade chlorpyrifos. International Journal of Agriculture and Biology, 24(4), 699-706.
Awad NS, HH Sabit, EM Salah, SEM Abo-Aba, RA Bayoumi (2011). Isolation, characterization and fingerprinting of some chlorpyrifos-degrading bacterial strains isolated from Egyptian pesticides-polluted soils. Afr J Microbiol Res 5:2855‒2862.
Bucibo M, Nontutu, N, Gadihele G, (2010) Identification and quantification of selected pesticides in surface water in Southern gauteng region, Magister Technologiae (Chemistry), the Department of Chemistry.
GadePavan Kumar, K. Bramarambica, Swapna Mittapalli, Dhiddi Bindu Sri, M. Akshay Kumar, V. Rajender (2023). Optimization studies in terms of substrate, temperature, pesticide concentration and pH on pesticide degrading bacteria from agricultural soil, Journal of Composition theory, Volume 16, Issue 9, 21-32.
Gao, W., Li, D., & You, H. (2019). Functional characterization and genomic analysis of the chlorantraniliprole-degrading strain Pseudomonas sp. GW13. Bioengineering, 6(4), 106.
Gupta, M.; Mathur, S.; Sharma, T.; Rana, M.; Gairola, A.; Navani, N.; Pathania, R (2015). A study on metabolic prowess of Pseudomonas sp. RPT 52 to degrade imidacloprid, endosulfan and coragen. J. Hazard. Mater,301, 250–258.
Kadhim, F., Rabee, A. M., &Abdalraheem, E. (2015). Biodegradation of malathion by selected bacterial isolates. Journal of International Environmental Application and Science, 10(3), 361-366.
Rathnayake, L.K.; Northrup, S.H (2016). Structure and mode of action of organophosphate pesticides: A computational study. Comput. Theor. Chem. 1088, 9–23.
Singh, B. K., & Walker, A. (2006). Microbial degradation of organophosphorus compounds. FEMS microbiology reviews, 30(3), 428-471.
Soulas, G.; Lagacherie, B (2001). Modelling of microbial degradation of pesticides in soils. Biol. Fertil. Soils, 33, 551–557