Target-site and non-target-site resistance mechanisms confer multiple resistance to glyphosate and 2,4-D in Carduus acanthoides
Carduus acanthoides L. is mainly a range-land weed, but in the 2010s has begun to invade GM crop production systems in Córdoba (Argentina), where glyphosate and 2,4-D have been commonly applied. In 2020, C. acanthoides was found with multiple resistance to these two herbicides. In this study, the mechanisms that confer multiple resistance to glyphosate and 2,4-D, were characterized in one resistant (R) population of C. acanthoides in comparison to a susceptible (S) population. No differences in 14C-herbicide absorption and translocation were observed between R and S populations. In addition, 14C-glyphosate was well translocated to the shoots (∼30%) and roots (∼16%) in both R and S plants, while most of 14C-2,4-D remained restricted in the treated leaf. Glyphosate metabolism did not contribute to resistance of the R population; however, as corroborated by malathion pretreatment, the mechanism of resistance to 2,4-D was enhanced metabolism (63% of the herbicide) mediated by cytochrome P450 (Cyt-P450). No differences were found in baseline EPSPS activity, copy number, and/or gene expression between the R and S populations, but a Pro-106-Ser mutation in EPSPS was present in the R population. Multiple resistances in the R population of C. acanthoides from Argentina were governed by target site resistance (a Pro-106 mutation for glyphosate) and non-target site resistance (Cyt-P450-based metabolic resistance for 2,4-D) mechanisms. This is the first case of resistance to glyphosate and 2,4-D confirmed for this weed in the world.
Main Authors: | Palma-Bautista, Candelario, Belluccini, Pablo, Vázquez-García, José G., Alcántara de la Cruz, Ricardo, Barro Losada, Francisco, Portugal, João, Prado, R. del |
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Other Authors: | Asociación de Agroquímicos y Medio Ambiente (España) |
Format: | artículo biblioteca |
Language: | English |
Published: |
Elsevier
2023-04
|
Subjects: | Pro-106-Ser, 5-enolpyruvylshikimate-3-phosphate synthase, Auxinic herbicides, Cytochrome P450, Herbicide metabolism, Plumeless thistle, |
Online Access: | http://hdl.handle.net/10261/349363 https://api.elsevier.com/content/abstract/scopus_id/85149314288 |
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