Kansas Scientists Discover Gene to Resist Wheat Streak Mosaic Virus
Kansas State University researchers have identified a gene that will provide resistance to the wheat streak mosaic virus, a disease that causes economic losses.
Bernd Friebe, a research professor with the Wheat Genetic Resources Center in the Department of Plant Pathology says the Wsm3 gene is the third gene known to provide resistance to the virus — and the first that can do so at outdoor temperatures of 75 degrees Fahrenheit and higher.
“We need more genetic diversity” for controlling wheat streak mosaic virus, Friebe says. “Leaf, stripe and stem rust each have about 70 named resistant genes. This is progress toward developing more resistance toward wheat streak mosaic virus.”
Wheat streak mosaic virus is characterized by streaks of yellow-non-uniform discoloration in wheat. Plants infected as seedlings are often stunted and have a reduced head size. The disease causes yield losses so severe that in extreme cases the crop can not be harvested.
Kansas Wheat, a partnership between the Kansas Wheat Commission and the Kansas Association of Wheat Growers, reported in late May that the wheat streak mosaic virus is negatively affecting fields in western and central Kansas. Crop losses could be as high as 20 percent in some areas.
In the past, farmers’ efforts to control the virus have focused mostly on removing volunteer wheat, which harbors the wheat curl mite the primary carrier of the wheat streak mosaic virus.
The first two genes known to provide resistance to the virus were Wsm1 – identified by Kansas State University about 25 years ago – and Wsm2, which was discovered by researchers at Colorado State University.
But those two genes only provide protection in lower temperatures. Used in combination with Wsm1 or Wsm2, the warm-weather friendly Wsm3 could become part of a breeding mix that can give farmers’ much-needed relief, Friebe says.
The new Wsm3 germplasm has been released through the Kansas Agricultural Experiment Station. It is available to breeders through the National Science Foundation’s Industry/University Cooperative Researcher Centers program — whose members have immediate access to the germplasm — but will also be available to public breeding programs in two years.
Through traditional breeding processes, it can take several years before resistance genes show up in varieties available for planting.
“Kansas State University is putting it into Everest wheat lines,” says Friebe, referring to the university’s most popular variety currently. Everest was first released to growers in 2009, and in 2017 is the No. 1 wheat variety planted in Kansas for the fifth straight year.
Kansas State University’s work in this area began more than 25 years ago when researchers studied resistant germplasm developed by South Dakota State University scientist Darrell Wells and his co-workers. Friebe says the resistance was derived from a wild relative of wheat, Thinopyrum intermedium, better known as wheatgrass.
The resistant gene was named Wsm1. Friebe says it took K-State researchers nearly 20 years from the beginning of the study to the point where they had developed a Wsm1 germplasm with reduced wheatgrass genetic material available for wheat breeding.
Technology has since improved, and it took researchers about six years from identifying Wsm3, which was also derived from wheatgrass, and the release of a germplasm, which has only a small wheatgrass segment. Breeding programs have also improved, and instead of 10-12 years to see the resistance show up in new varieties, it will likely take less time for Wsm3.
“Interestingly, both Wsm1 and Wsm3, as a bonus, are also conferring resistance to the Triticum mosaic virus (a related virus also affecting wheat yields) but only at cooler temperatures,” Friebe said.
Until newly-developed resistant varieties are available, growers are urged to continue with best practices for controlling the spread of the wheat streak mosaic virus in their fields. They include timely removal of volunteer wheat and grassy weeds; avoiding early planting; and planting currently-available, resistant varieties.[rate_this_page]