Increased temperatures and elevated CO 2 levels reduce the sensitivity of Conyza canadensis and Chenopodium album to glyphosate

Increased temperatures and elevated CO 2 levels reduce the sensitivity of Conyza canadensis and Chenopodium album to glyphosate

Herbicides are the most commonly used means of controlling weeds. Recently, there has been growing concern over the potential impacts of global climate change, specifically, increasing temperatures and elevated carbon dioxide (CO ) concentrations, on the sensitivity of weeds to herbicides. Here, gly...

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Bibliographic Details
Published in:Scientific reports Vol. 9; no. 1; p. 2228
Main Authors: Matzrafi, Maor, Brunharo, Caio, Tehranchian, Parsa, Hanson, Bradley D, Jasieniuk, Marie
Format: Journal Article
Language:English
Published: England 01-12-2019
Subjects:
Carbon Dioxide - metabolism
Chenopodium album - drug effects
Chenopodium album - physiology
Conyza - drug effects
Conyza - physiology
Drug Resistance
Glycine - analogs & derivatives
Glycine - pharmacology
Glyphosate
Herbicides - pharmacology
Phenotype
Temperature
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Summary:Herbicides are the most commonly used means of controlling weeds. Recently, there has been growing concern over the potential impacts of global climate change, specifically, increasing temperatures and elevated carbon dioxide (CO ) concentrations, on the sensitivity of weeds to herbicides. Here, glyphosate response of both Conyza canadensis and Chenopodium album was evaluated under different environmental conditions. Reduced glyphosate sensitivity was observed in both species in response to increased temperature, elevated CO level, and the combination of both factors. Increased temperature had greater effect on plant survival than elevated CO level. In combination, high temperature and elevated CO level resulted in loss of apical dominance and rapid necrosis in glyphosate-treated plants. To investigate the mechanistic basis of reduced glyphosate sensitivity, translocation was examined using C-glyphosate. In plants that were subjected to high temperatures and elevated CO level, glyphosate was more rapidly translocated out of the treated leaf to shoot meristems and roots than in plants grown under control conditions. These results suggest that altered glyphosate translocation and tissue-specific sequestration may be the basis of reduced plant sensitivity. Therefore, overreliance on glyphosate for weed control under changing climatic conditions may result in more weed control failures.
ISSN:2045-2322
DOI:10.1038/s41598-019-38729-x