Effects of contaminated natural soil by Glyphosan SL on biochemical responses of the earthworm Eisenia sp.

L. Marcano, Juanny Hernández, Edgar Alexander Zapata-Vívenes, Analia Leon
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引用次数: 1

Abstract

Biochemical biomarkers are widely used for the monitoring environmental quality since they can act as early warning signals, for potential ecosystem degradation caused by contaminants. In order to investigate the acute and chronic effects of a commercial formulation of glyphosate on antioxidant defenses (glutathione peroxidase, GPx; glutathione-S-transferase, GST; and reduced glutathione, GSH) and oxidative damage (malondialdehyde levels, MDA), Eisenia sp was exposed in plastic containers to natural soils contaminated with Glyphosan SL (100 g kg-1 of soil) during 7 and 21 days. Following exposure for 21 days, another group of worms were placed on herbicide-free soils to recovery for 30 days. Treatment with the herbicide significantly affected to all the biochemical markers evaluated. Antioxidant defenses (GSH, GPx and GST) and MDA, in general, increased at both exposure periods. These results showed that Glyphosan SL; the active ingredient (glyphosate) and/or its chemical additives exerts its toxic effects in Eisenia sp by altering cellular antioxidant defenses, inducing a condition of oxidative stress. During the recuperation phase of the earthworms previously exposed for 21 days to the herbicide, GPx decreased to values similar to those of the control group and MDA although decreased, control values were not reached. These results indicate that in 30 days Eisenia sp exhibits a partial recovery of the oxidative stress induced by the herbicide exposure, probably the activation of mechanisms clearance of the Glyphosan SL metabolites justify the high levels of GSH and GST at this stage. In conclusion, herbicide exposure induced changes in the biochemical responses of Eisenia sp highlight the importance of these responses as useful tools in the evaluation of impacts by pesticides in terrestrial organisms.   Key words: Biomarker, Eisenia, glyphosate, antioxidant enzymes, glutathione, lipid peroxidation.
被草甘膦SL污染的天然土壤对Eisenia sp.蚯蚓生化反应的影响
生物化学标志物可作为污染物可能引起的生态系统退化的早期预警信号,被广泛应用于环境质量监测。为了研究草甘膦商业配方对抗氧化防御(谷胱甘肽过氧化物酶,GPx;glutathione-S-transferase销售税;将塑料容器中的Eisenia sp暴露于被草甘膦(100 g kg-1土壤)污染的天然土壤中7天和21天,并观察还原谷胱甘肽(GSH)和氧化损伤(丙二醛水平,MDA)。暴露21天后,另一组蠕虫被放置在无除草剂的土壤上恢复30天。除草剂处理对各生化指标均有显著影响。抗氧化防御(GSH、GPx和GST)和MDA在两个暴露时期都增加了。结果表明:草甘膦;活性成分(草甘膦)和/或其化学添加剂通过改变细胞抗氧化防御,诱导氧化应激状态,在Eisenia sp中发挥其毒性作用。在先前暴露于除草剂21 d的蚯蚓的恢复阶段,GPx下降到与对照组相似的值,MDA虽然下降,但未达到控制值。这些结果表明,在30天内,Eisenia sp表现出由除草剂暴露引起的氧化应激的部分恢复,可能是草甘膦代谢产物清除机制的激活证明了这一阶段高水平的GSH和GST。综上所述,除草剂暴露引起的Eisenia sp生化反应的变化突出了这些反应作为评估农药对陆生生物影响的有用工具的重要性。关键词:生物标志物,爱森尼亚,草甘膦,抗氧化酶,谷胱甘肽,脂质过氧化
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