EVALUATION OF STRESS OF ENVIRONMENTAL RELEVANT CONCENTRATION OF GLYPHOSATE PESTICIDE ON LAMELLIDENS MARGINALIS

Q4 Environmental Science

Pollution Research Pub Date : 2022-09-30 DOI:10.53550/pr.2022.v41i03.038

A. Y. Mundhe, S. Pandit

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Abstract

We evaluated glyphosate (GLP) toxicity on Lamellidens marginalis by using oxidative andgenotoxic stress markers. The study provides evidence of oxidative stress and altered activities ofantioxidative enzymes in bivalve (gill, foot, mantle, muscle, and hepatopancreas) upon exposureto an environmentally relevant concentration of glyphosate organophosphate pesticide (1 mg l-1).The GLP exposure periods were 7 (T1) and 14 (T2) days, followed by a recovery period of 4 days(R1 & R2) respectively. GLP exposure showed a positive correlation between oxidative stress andduration of exposure. A catalase induction trend was observed in both the treated groups.Induction or inhibition of Super oxide dismutase (SOD) enzyme activities were tissue-specificafter GLP exposure. The technical grade GLP has genotoxic potential, studied with the help ofcomet assay on gill tissues. Longer duration of exposure has significantly increased cometparameters such as tail length, tail DNA percentage as well as olive tail movement as compared tocontrol bivalve. However, bivalves recovered significantly after the four days of the recoveryperiod. The results suggested oxidative stress and genotoxic potential of GLP, evidenced by alteredactivities of antioxidative enzymes and induction of comet parameters. Even though, the animalsexperienced the stress of GLP exposure, however, recovery potential of bivalves was noteworthyafter the removal of the stress.

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草甘膦农药环境相关浓度对叶草的胁迫评价

采用氧化应激和基因毒性应激标记评价草甘膦(GLP)对边缘薄叶草的毒性。该研究提供了双壳类动物(鳃、足、套膜、肌肉和肝胰腺)暴露于环境相关浓度的草甘膦有机磷农药(1mg -1)时的氧化应激和抗氧化酶活性改变的证据。GLP暴露期分别为7 (T1)和14 (T2) d，恢复期分别为4 d (R1和R2)。GLP暴露与氧化应激与暴露时间呈正相关。两组均有过氧化氢酶诱导的趋势。GLP暴露后对超氧化物歧化酶(SOD)活性的诱导或抑制具有组织特异性。用彗星试验对鳃组织进行了研究，发现技术级GLP具有遗传毒性。与对照双壳贝相比，较长的暴露时间显著增加了彗星参数，如尾巴长度、尾巴DNA百分比以及橄榄尾运动。然而，双壳类动物在4天的恢复期后恢复明显。结果表明，抗氧化酶活性的改变和彗星参数的诱导证明了GLP的氧化应激和遗传毒性潜力。尽管动物经历了GLP暴露的应激，但是，在消除应激后，双壳类动物的恢复潜力是值得注意的。

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Pollution Research Environmental Science-Water Science and Technology

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