Recent study documents damage to rice crops by three fall-applied residual herbicides

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Credit: Weed Technology vol 32 issue 5

WESTMINSTER, Colorado – November 15, 2018 – Fall-applied residual herbicides are a commonly used control for glyphosate-resistant Italian ryegrass – one of the most troublesome weeds in Mid-South row crops. But research published in the journal Weed Technology shows rice growers need to be cautious. Some residual herbicides can have a negative impact on rice crop performance.

The warning follows field studies conducted in Stoneville, Mississippi, where rice is frequently planted in rotation with soybean, grain sorghum, and cotton. Researchers made fall applications of clomazone, pyroxasulfone, S-metolachlor, and trifluralin to determine their impact on subsequent rice growth and yields.

Each herbicide was applied at both the suggested use rate and at two times the suggested use rate to see whether their persistence in the soil would negatively influence rice planted during the following growing season.

Fourteen days after rice crop emergence, scientists found that pyroxasulfone, S-metolachlor, and trifluralin had produced greater injury to plants than clomazone, regardless of the application rate. The same was true for rice seedling density, height, and maturity.

"Among the herbicides in our study, only clomazone should be used as a fall-applied residual herbicide to target glyphosate-resistant Italian ryegrass prior to seeding rice crops," says Jason Bond of Mississippi State University.

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Full text of the article, "Effect of Fall-applied Residual Herbicides on Rice Growth and Yield" is now available in Weed Technology Vol. 32, Issue 5.

About Weed Technology

Weed Technology is a journal of the Weed Science Society of America, a nonprofit scientific society focused on weeds and their impact on the environment. The publication presents original research and special articles about weeds, crops and new technologies used for more effective weed management. To learn more, visit http://www.wssa.net.

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Related Journal Article

http://dx.doi.org/10.1017/wet.2018.41

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