Lower food and fuel costs could result from MU researcher's battle against soy pest

April 26th, 2012
Americans rarely see soybeans on their plates, but soybeans account for two-thirds of the world's animal feed and more than half the edible oil consumed in the U.S., according to the United States Department of Agriculture (USDA). To guard the productivity of this important crop, University of Missouri plant pathologist Melissa Mitchum and colleagues at Iowa State University and North Carolina State University recently received a $466,000 grant from the USDA's National Institute of Food and Agriculture to continue their research on protecting soybeans from nematode parasites, which cause $1.3 billion annually in soybean crop losses in the U.S.

"While consumers may not realize the nematode could be a threat to their food supply, it is," said Mitchum, an investigator at MU's Bond Life Sciences Center. "The research in our lab is aimed directly at stopping the nematode, thus helping to avert increases in consumer prices and potential food shortages."

Mitchum's research focuses on the biochemical interactions between soybean cyst nematodes (Heterodera glycines) and the soybean plants they eat. Her research wages war on nematodes on multiple fronts.

Nematodes are able to hijack the soybean plants' biology with chemicals, called effector proteins, which mimic the plants' own proteins and trick soy plants into producing feeding structures for the pests. Because of this mimicry, the effector proteins are also likely to enable the nematode to suppress or escape detection by the soybeans' defensive systems. Mitchum is testing ways to genetically modify soybean plants for enhanced resistance, including blocking the plant's recognition of some of the nematodes' effector proteins.

Mitchum's lab also studies how the nematodes affect the soybeans' internal movement of auxin, a growth hormone. A study by researchers in Mitchum's lab found that nematodes' effector proteins commandeer the plant's own auxin for use in producing feeding structures for the parasites.

The primary strategy used by farmers to combat nematodes is to plant soybean varieties with natural genetic resistance to the parasites. However, widespread use of these soy varieties has led to nematodes becoming capable of bypassing this defense, which decreases the strategy's effectiveness.

Mitchum hopes to unlock the secrets of the resistant plants for the benefit of farmers, thus translating into savings for everyone at the grocery store.

"Soybean oil is in a lot of food products and therefore a small reduction in its price could have a significant impact on the country's overall food bill," said Julian Binfield, assistant professor of agricultural economics at MU and market researcher with the Food and Agricultural Policy Research Institute. "Soybean oil also is used for biodiesel hence a reduction in its price would decrease the cost of fuel. Soybean meal is an important livestock feed. Cheaper feed could mean lower prices at the meat counter."

Research that helps provide American consumers with abundant, affordable agricultural products was part of the goal of the Morrill Act when it established land grant universities like MU. This year marks the 150th anniversary of the passage of the Act.

Mitchum and colleagues at Iowa State University and North Carolina State University were awarded $466,000 to continue their research over the next two years. Funding comes from the Agriculture and Food Research Initiative Competitive Grants Program, a part of the USDA National Institute of Food and Agriculture.

Provided by University of Missouri-Columbia

This Phys.org Science News Wire page contains a press release issued by an organization mentioned above and is provided to you “as is” with little or no review from Phys.Org staff.

More news stories

Male sex organ distinguishes 30 millipede species

The unique shapes of male sex organs have helped describe thirty new millipede species from the Great Western Woodlands in the Goldfields, the largest area of relatively undisturbed Mediterranean climate ...

'Chatty' cells help build the brain

The cerebral cortex, which controls higher processes such as perception, thought and cognition, is the most complex structure in the mammalian central nervous system. Although much is known about the intricate ...

Scientists film magnetic memory in super slow-motion

Researchers at DESY have used high-speed photography to film one of the candidates for the magnetic data storage devices of the future in action. The film was taken using an X-ray microscope and shows magnetic ...