Browsing by Author "Gajendiran, Kandasamy"

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THE BIOTRANSFORMATION POTENTIAL OF BACILLUS CEREUS ON Β- CYPERMETHRIN TO PROTECT THE EARTHWORM (PERIONYX EXCAVATUS) ON INSECTICIDE -CONTAMINATED SOIL
(Taylor & Francis Online, 2022) Mathiyazhagan, Narayanan; Jimmandiyur, Mathappan Murugan; Gajendiran, Kandasamy; Sabariswaran, Kandasamy; Manikandan, Rajendran
The pre-isolated B. cereus had shown better β-cypermethrin resistance at 100 mg L−1 dosage in the Mineral Salt Medium (MSM). Hence, it was applied for the biodegradation study on MSM. The GC-MS analysis revealed that the B. cereus had the potential to degrade β-cypermethrin and metabolize it into six predominant less or nontoxic components (benzene, 1-ethyl−3-methyl-, ethanethiol, 2-(dimethylamino)-, 1-(2-acetoxyethyl)-3,6-diazahomoadamantan-9-one, silane, 9-anthracenyltrimethyl-, 1-(3-hydroxy-3-methylbutyl)-3,6-,fumaric acid). Based on this biodegradation potential, four experimental groups, namely A, B, C, D and control, were framed and the biodegradation potential of B. cereus on β-cypermethrin and interaction with P. excavates were studied. Group C, which includes B. cereus and 10 P. excavates under β-cypermethrin stress excavates positive survival interaction. It was confirmed by the presence of metabolites such as benzene, 1-ethyl-3-methyl-, ethanethiol, 2-(dimethylamino)- and 1-(2-acetoxyethyl)-3,6-diazahomoadamantan-9-one, in P. excavates. Furthermore, these were similar to the metabolites of β-cypermethrin degraded by B. cereus. These results conclude that the biodegradation potential of B. cereus can protect the life of P. excavates from β-cypermethrin toxicity and thus, can support the balancing of soil fertility, structure and soil biotas such as flora and fauna.
CURRENT STATUS OF MICROBES INVOLVED IN THE DEGRADATION OF PHARMACEUTICAL AND PERSONAL CARE PRODUCTS (PPCPS) POLLUTANTS IN THE AQUATIC ECOSYSTEM
(Elsevier, 2022-05-01) Mathiyazhagan, Narayanan; Mostafa, El-sheekh; Ying, Ma; Arivalagan, Pugazhendhi; Devarajan, Natarajan; Gajendiran, Kandasamy; Rathinam, Raja; Saravana Kumar, R.M; Suresh, Kumarasamy; Govindasamy, Sathiyan; Geetha, R; Balaji, Paulraj; Guanglong, Liu; Sabariswaran, Kandasamy
Contamination of aquatic systems with pharmaceuticals, personal care products, steroid hormones, and agrochemicals has been an immense problem for the earth's ecosystem and health impacts. The environmental issues of well-known persistence pollutants, their metabolites, and other micro-pollutants in diverse aquatic systems around the world were collated and exposed in this review assessment. Waste Water Treatment Plant (WWTP) influents and effluents, as well as industrial, hospital, and residential effluents, include detectable concentrations of known and undiscovered persistence pollutants and metabolites. These components have been found in surface water, groundwater, drinking water, and natural water reservoirs receiving treated and untreated effluents. Several studies have found that these persistence pollutants, and also similar recalcitrant pollutants, are hazardous to a variety of non-targeted creatures in the environment. In human and animals, they can also have severe and persistent harmful consequences. Because these pollutants are harmful to aquatic organisms, microbial degradation of these persistence pollutants had the least efficiency. Fortunately, only a few wild and Genetically Modified (GMOs) microbial species have the ability to degrade these PPCPs contaminants. Hence, researchers have been studying the degradation competence of microbial communities in persistence pollutants of Pharmaceutical and Personal Care Products (PPCPs) and respective metabolites for decades, as well as possible degradation processes in various aquatic systems. As a result, this review provides comprehensive information about environmental issues and the degradation of PPCPs and their metabolites, as well as other micro-pollutants, in aquatic systems.