Worst weed the culprit of herbicide resistance

October 18th, 2010 in Biology / Ecology

Scientists at the University of Adelaide's Waite Research Institute have discovered new cases of herbicide resistance in annual ryegrass, the most serious and costly weed of Australian cropping.

For the first time, researchers have found that annual ryegrass has developed resistance to paraquat, the second most important "knockdown" herbicide used by cropping farmers.

University of Adelaide management experts Dr. Peter Boutsalis and Associate Professor Christopher Preston made the discovery in samples taken from two separate farming properties near Naracoorte in South Australia's south-east.

Dr. Preston says farmers should be concerned about the development of herbicide resistance.

"Annual ryegrass is the single most important weed affecting Australian cropping and this discovery has major implications for Australian farmers," Dr. Preston says.

"Paraquat is the only viable herbicide alternative to the most commonly used herbicide, glyphosate. With more than 100 annual ryegrass populations in Australia already having developed resistance to glyphosate, the discovery of paraquat resistance means that none of the currently available knockdown herbicides can be guaranteed to control ryegrass," he says.

"The paraquat resistant ryegrass was discovered on sites where pasture seed crops have been grown for a long time and paraquat extensively used."

Dr. Preston says farmers should rotate their knockdown in alternate seasons and adopt integrated weed management practices.

Dr. Preston is the lead investigator on a research project investigating annual ryegrass resistance to glyphosate, which has been funded by the Grains Research and Development Corporation.

Dr. Preston and Dr. Boutsalis are based in the School of Agriculture, Food & Wine at the University of Adelaide's Waite Campus.

Provided by University of Adelaide

"Worst weed the culprit of herbicide resistance." October 18th, 2010. http://phys.org/news/2010-10-worst-weed-culprit-herbicide-resistance.html