Clemson, Australian Scientists Unite to Combat Fusarium Wilt in Cotton
Cotton farmers worldwide have long witnessed Fusarium wilt strip leaves from their crops, leaving plants with bare stems withering away in the fields.
Scientists from Clemson University and Australia are collaborating to create Fusarium-resistant germplasm for use in United States and Australian cotton breeding programs.
Chistopher Saski, a geneticist in Clemson’s Plant and Environmental Sciences Department, is working with Warwick Stiller, a plant breeder in Australia’s Commonwealth Scientific and Industrial Research Organization (CSIRO), to develop germplasm to combat the FOV4 (Fusarium Race 4) strain in Upland cotton.
Symptoms of FOV4 on Upland cotton include dark and continuous vascular staining on the upper tap roots and lower stems of plants. PHOTO: Clemson University
“Fusarium wilt is a primary disease affecting production in many growing areas in the United States and Australia, both of which rely on exports to sustain their production systems,” Saski says.
A soilborne pathogen causes the disease and can live in the soil for many years. Chemical controls and cultural practices are ineffective, making genetic-resistant plants a viable solution for controlling FOV4.
“We want to gain a deeper understanding of plant defense mechanisms and identify potential targets for genetic manipulation so that we can release varieties with durable genetic resistance much faster,” Saski says.
New breeding tools will help determine if recently discovered genes that provide resistance to FOV4 in United States cotton can also provide resistance in Australian cotton.
“We will use cutting-edge research and collaboration to empower breeders with the tools and knowledge they need to optimize cotton production, thus helping secure the future of this vital crop,” Saski explains.
Stiller said cross-disciplinary collaboration is essential to opening discussion and sharing methodologies, technology, and experience across research groups.
“Although significant progress can be made, no single research group can solve the disease challenges across the global cotton industry,” Stiller notes. “Through the dedicated efforts of two leading laboratories, the similarities and differences of resistance to FOV4 and the Australian biotype of FOV will be identified.
“The outcomes will benefit Australian and U.S. cotton growers by sharing information and genetic resources so both countries can continue to develop cultivars with increased resistance to these diseases.”
The severity of Fusarium wilt is increasing because of climate change caused by weather fluctuations.
“Fusarium wilt is a serious threat to cotton production in the United States and abroad,” says FFAR Chief Scientific Officer Angela Records. “This insidious pathogen strips leaves from crops and jeopardizes farmers’ profit. Cotton farmers need access to resistant plants as soon as possible. This research is helping to speed relief by developing tools to better understand the fungus and aid in faster breeding to combat it.”
This project is funded by a $750,000 grant from the Foundation for Food & Agriculture Research as a Next Generation Crops research project – research conducted in part to improve crops’ resilience to climate change. Matching funds come from Clemson University, Cotton Incorporated, and CSIRO for a total $1,922,439 investment.
Symptoms of FOV4
Symptoms of FOV4 on Upland cotton include dark and continuous vascular staining on roots. As the fungus continues to grow, more tissues decay. In severely infected plants, damage is seen as stunting, wilting and death; while other infected plants may only be stunted and still survive the growing season. To monitor for Fusarium wilt, walk the fields, pull random and symptomatic plants and then, cut roots and inspect for taproot staining. SOURCE: Cotton Incorporated
GET THE NEWSLETTER TODAY!
