Glyphosate uptake, translocation, resistance emergence in crops, analytical monitoring, toxicity and degradation: a review

The herbicide glyphosate is widely used to control weeds in grain crops. The overuse of glyphosate has induced issues such as contamination of surface water, decreased soils fertility, adverse effects on soil microbiota and possible incorporation in food chains. Here we review biochemical, agricultu...

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Veröffentlicht in:	Environmental chemistry letters 2020-05, Vol.18 (3), p.663-702
Hauptverfasser:	Singh, Simranjeet, Kumar, Vijay, Datta, Shivika, Wani, Abdul Basit, Dhanjal, Daljeet Singh, Romero, Romina, Singh, Joginder
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Sprache:	eng
Schlagworte:	Analytical Chemistry Biodegradation Crops Degradation Earth and Environmental Science Ecotoxicology Emergence Environment Environmental Chemistry Environmental conditions Fertility Food chains Food contamination Geochemistry Glyphosate Grain crops Herbicides Invertebrates Mathematical analysis Metabolites Microbiota Microorganisms Monitoring Pollution Review Soil Soil contamination Soil fertility Soil water Surface water Toxicity Translocation Uptake
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container_title	Environmental chemistry letters
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creator	Singh, Simranjeet Kumar, Vijay Datta, Shivika Wani, Abdul Basit Dhanjal, Daljeet Singh Romero, Romina Singh, Joginder
description	The herbicide glyphosate is widely used to control weeds in grain crops. The overuse of glyphosate has induced issues such as contamination of surface water, decreased soils fertility, adverse effects on soil microbiota and possible incorporation in food chains. Here we review biochemical, agricultural, microbiological and analytical aspects of glyphosate. We discuss uptake, translocation, toxicity, degradation, complexation behaviour, analytical monitoring techniques and resistance emergence in crops. We provide data of glyphosate toxicity on different ecosystems. Experiments reveal that excessive glyphosate use induces stress on crops and on non-target plants, and is toxic for mammalians, microorganisms and invertebrates. The long half-life period of glyphosate and its metabolites under different environmental conditions is a major concern. Development of analytical methods for the detection of glyphosate is important because glyphosate has no chromophoric or fluorophoric groups.
doi_str_mv	10.1007/s10311-020-00969-z
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subjects	Analytical Chemistry Biodegradation Crops Degradation Earth and Environmental Science Ecotoxicology Emergence Environment Environmental Chemistry Environmental conditions Fertility Food chains Food contamination Geochemistry Glyphosate Grain crops Herbicides Invertebrates Mathematical analysis Metabolites Microbiota Microorganisms Monitoring Pollution Review Soil Soil contamination Soil fertility Soil water Surface water Toxicity Translocation Uptake
title	Glyphosate uptake, translocation, resistance emergence in crops, analytical monitoring, toxicity and degradation: a review
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