Sorghum is a promising biofuels feedstock as it needs less water than corn and thus can be grown on less productive lands. This will enable farmers to continue to grow food crops on the prime real estate, while allowing them to keep marginal lands in use and help kick start the development of a more efficient bioenergy feedstock. This will help the U.S advance a carbon neutral energy market and benefit the rural economy.
“Research at the Danforth Center will complement activities at the consortium of institutes and universities working to understand the complex interactions between soil microbes and plants,” said Thomas Brutnell, Ph.D. director of the Enterprise Institute for Renewable Fuels at the Danforth Center. “A major goal of the project will be the identification of soil microbes that help make sorghum more efficient at using fertilizers and water while at the same time maintaining or enhancing photosynthesis.”
Using a systems approach researchers will investigate sorghum genetics as well as the soil microbes that interact with plants. The work takes advantage of advances in marker-assisted breeding, metagenomics and computational genomic analysis. Geneticists will search for and study sorghum varieties that use water and nitrogen more efficiently under limited water or nitrogen conditions. At the same time, microbiologists will identify and characterize soil microbes that interact with and benefit sorghum, such as by enhancing nutrient uptake, water-use efficiency and disease protection.
The project’s strength is the interdisciplinary depth and expertise of the team, and includes scientists from Washington State University, University of North Carolina-Chapel Hill, Boyce Thompson Institute, Clemson University, Iowa State University, Colorado State University and the DOE-Joint Genome Institute will bring a wide-range of expertise to tackle sorghum production as a whole system. Working together, researchers expect to accomplish far more than is possible at any single institution.
“UNL is delighted to be leading this large project with partners from prestigious institutions,” said Prem Paul, UNL vice chancellor for research and economic development. “Only by collaborating across disciplines and institutions can we find solutions to complex challenges, especially those at the intersection of our food, water and energy systems.”