Confirmation of S-metolachlor resistance in Palmer amaranth (Amaranthus palmeri)

Brabham Chad; Norsworthy Jason K.; Houston Michael M.Varanasi Vijay K.Barber Tom

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Confirmation of S-metolachlor resistance in Palmer amaranth (Amaranthus palmeri)

机译：Confirmation of S-metolachlor resistance in Palmer amaranth (Amaranthus palmeri)

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S-Metolachlor is commonly used by soybean and cotton growers, especially with POST treatments for overlapping residuals, to obtain season-long control of glyphosate- and acetolactate synthase (ALS)-resistant Palmer amaranth. In Crittenden County, AR, reports of Palmer amaranth escapes following S-metolachlor treatment were first noted at field sites near Crawfordsville and Marion in 2016. Field and greenhouse experiments were conducted to confirm S-metolachlor resistance and to test for cross-resistance to other very-long-chain fatty acid (VLCFA)-inhibiting herbicides in Palmer amaranth accessions from Crawfordsville and Marion. Palmer amaranth control in the field (soil 3% organic matter) 14 d after treatment (DAT) was greater than or equal to>94% with a 1x rate of acetochlor (1,472 g ai ha(-1); emulsifiable concentrate formulation) and dimethenamid-P (631 g ai ha(-1)). However, S-metolachlor at 1,064 g ai ha(-1) provided only 76% control, which was not significantly different from the 1/2x and 1/4x rates of dimethenamid-P and acetochlor (66% to 85%). In the greenhouse, Palmer amaranth accessions from Marion and Crawfordsville were 9.8 and 8.3 times more resistant to S-metolachlor compared with two susceptible accessions based on LD50 values obtained from dose-response experiments. Two-thirds and 1.5 times S-metolachlor at 1,064 g ha(-1) were the estimated rates required to obtain 90% mortality of the Crawfordsville and Marion accessions, respectively. Data collected from the field and greenhouse confirm that these accessions have evolved a low level of resistance to S-metolachlor. In an agar-based assay, the level of resistance in the Marion accession was significantly reduced in the presence of a glutathione S-transferase (GST) inhibitor, suggesting that GSTs are the probable resistance mechanism. With respect to other VLCFA-inhibiting herbicides, Marion and Crawfordsville accessions were not cross-resistant to acetochlor, dimethenamid-P, or pyroxasulfone. However, both accessions, based on LD50 values obtained from greenhouse dose-response experiments, exhibited reduced sensitivity (1.5- to 3.6-fold) to the tested VLCFA-inhibiting herbicides.

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《Weed Technology: A journal of the Weed Science Society of America》 |2019年第5期|720-726|共7页
作者
Brabham Chad; Norsworthy Jason K.; Houston Michael M.Varanasi Vijay K.Barber Tom;
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Univ Arkansas, Dept Crop Soil & Environm Sci, Fayetteville, AR 72701 USA;

Univ Arkansas, Dept Crop Soil & Environm Sci, Weed Sci, Fayetteville, AR 72701 USA;

Univ Arkansas, Dept Crop Soil & Environm Sci, Lonoke Agr Ctr, Lonoke, AR USA;

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正文语种英语
中图分类植物保护;
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Aaron Hager; University of Illinois; Acetochlor; dimethenamid-P; S-metolachlor; pyroxasulfone; Palmer amaranth; Amaranthus palmeri S; Wats; AMAPA; cotton; Gossypium hirsutum L; soybean; Glycine max (L; ) Merr; Chloroacetamide; residual; metabolic resistance;

Confirmation of S-metolachlor resistance in Palmer amaranth (Amaranthus palmeri)

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