Occurrence of <i>Amaranthus palmeri</i> in <scp>Israeli</scp> agriculture: Status of spread and response to glyphosate and trifloxysulfuron

Abu‐Nassar, Jackline; Wallach, Amit; Winkler, Eilon; Eizenberg, Hanan; Matzrafi, Maor

doi:10.1111/wre.12616

Cited by 2 publications

(1 citation statement)

References 22 publications

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“…46,49 The recent introduction of two dioecious species, A. tuberculatus and A. palmeri, into agricultural fields in Israel could potentially accelerate the development of TS and NTS resistance in A. albus and other Amaranthus species through interspecific hybridization. Recently, Abu Nassar et al 50 reported that 50% of all A. palmeri populations collected across Israel were resistant to ALS inhibitors.…”

Section: Discussionmentioning

confidence: 99%

Unraveling the reasons for failure to control Amaranthus albus: insights into herbicide application at different growth stages, temperature effect, and herbicide resistance on a regional scale

Gafni,

Nassar,

Matzrafi

et al. 2024

Pest Management Science

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BACKGROUNDThis study investigates factors contributing Amaranthus albus control failure in processing tomato fields in northern Israel. The study region is characterized by a significant climate gradient from east to west, providing the opportunity to investigate the effect of critical elements of the agricultural environment, e.g., temperature. Eight populations were collected from commercial fields in this region. Post‐emergence herbicide efficacy of metribuzin, a photosystem II inhibitor, and rimsulfuron, an acetolactate synthase (ALS) inhibitor, was assessed through dose–response analyses at various growth stages. Temperature effects on control efficacy and resistance mechanisms were also explored.RESULTSStandard metribuzin dose (X) was ineffective on A. albus plants with more than six true‐leaves, whereas 2X dose proved effective. Rimsulfuron at 16X dose was ineffective on plants with more than four true‐leaves. We report here the first case of target site resistance to ALS inhibitors in A. albus, due to point mutation in the ALS gene (Pro197 to Leu). Furthermore, our findings suggest potential involvement of CYT P450 enzymes in enhanced metabolizing of rimsulfuron. An overall decrease in dry weight was observed in response to both herbicides at 16/22 °C (P < 0.0001). Rimsulfuron was effective against only one population when applied at 28/34 °C. A possible fitness cost associated with target site‐resistant biotypes was observed under low temperature conditions, leading to effective control.CONCLUSIONThis regional‐scale study highlights the challenges faced by growers, emphasizes the need for adapting management practices to the local climatic conditions and lays the groundwork for implementing location‐specific weed management strategies in commercial fields. © 2024 The Author(s). Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

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Section: Discussionmentioning

confidence: 99%

Unraveling the reasons for failure to control Amaranthus albus: insights into herbicide application at different growth stages, temperature effect, and herbicide resistance on a regional scale

Gafni,

Nassar,

Matzrafi

et al. 2024

Pest Management Science

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Amaranthus palmeri S. Watson reproduction system: Implications for distribution and management strategies

Borgato,

Ohadi,

Brunharo

et al. 2024

Weed Research

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Amaranthus palmeri S. Watson is one of the most troublesome weed species worldwide, and is considered one of the most devastating weeds in agricultural fields in the United States. Recently, A. palmeri populations have spread beyond their native range, into the Mediterranean region, and have been reported in several European countries. Resistance to 5‐enolpyruvylshikimate‐3‐phosphate synthase (EPSPS) and acetolactate synthase (ALS) inhibitors have been found in European populations, exacerbating the management problems with this species in the Mediterranean region. While the biology, ecology, herbicide resistance mechanisms, and agricultural significance of A. palmeri have been studied, there remains a need to discuss how A. palmeri's unique reproductive traits influence its ability to adapt to various environments, especially as an invasive species spreading into new habitats. We review how the genetic and genomic characteristics of A. palmeri interact with aspects of its reproductive biology, including its breeding system, and alter its ability to hybridize and develop herbicide resistance. Finally, we discuss the breeding system of A. palmeri in the context of weed management, and explore different approaches such as irradiated pollens, genetic manipulations, and RNA interference (RNAi).

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Occurrence of Amaranthus palmeri in Israeli agriculture: Status of spread and response to glyphosate and trifloxysulfuron

Cited by 2 publications

References 22 publications

Unraveling the reasons for failure to control Amaranthus albus: insights into herbicide application at different growth stages, temperature effect, and herbicide resistance on a regional scale

Unraveling the reasons for failure to control Amaranthus albus: insights into herbicide application at different growth stages, temperature effect, and herbicide resistance on a regional scale

Amaranthus palmeri S. Watson reproduction system: Implications for distribution and management strategies

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