Agriculture secretary Tom Vilsack announced an investment of more than $5.2 million to support nanotechnology research at 11 universities. The universities will research ways nanotechnology can be used to improve food safety, enhance renewable fuels, increase crop yields, manage agricultural pests, and more.
The awards were made through the Agriculture and Food Research Initiative (AFRI), the nation's premier competitive, peer-reviewed grants program for fundamental and applied agricultural sciences.
"In the seven years since the Agriculture and Food Research Initiative was established, the program has led to true innovations and ground-breaking discoveries in agriculture to combat childhood obesity, improve and sustain rural economic growth, address water availability issues, increase food production, find new sources of energy, mitigate the impacts of climate variability and enhance resiliency of our food systems, and ensure food safety,” said Vilsack. “Nanoscale science, engineering, and technology are key pieces of our investment in innovation to ensure an adequate and safe food supply for a growing global population. The President's 2017 budget calls for full funding of the Agriculture and Food Research Initiative so that USDA can continue to support important projects like these."
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Universities receiving funding include: Auburn University in Auburn, AL; Connecticut Agricultural Experiment Station in New Haven, CT; University of Central Florida in Orlando, FL; University of Georgia in Athens, GA; Iowa State University in Ames, IA; University of Massachusetts in Amherst, MA; Mississippi State University in Starkville, MS; Lincoln University in Jefferson City, MO; Clemson University in Clemson, SC; Virginia Polytechnic Institute and State University in Blacksburg, VA; and University of Wisconsin in Madison, WI.
With this funding, Auburn University proposes to improve pathogen monitoring throughout the food supply chain by creating a user-friendly system that can detect multiple foodborne pathogens simultaneously, accurately, cost effectively, and rapidly. Mississippi State University will research ways nanochitosan can be used as a combined fire-retardant and antifungal wood treatment that is also environmentally safe. Experts in nanotechnology, molecular biology, vaccines and poultry diseases at the University of Wisconsin will work to develop nanoparticle-based poultry vaccines to prevent emerging poultry infections. USDA has a full list of projects and longer descriptions available online.
Past projects include a University of Georgia project developing a bio-nanocomposites-based, disease-specific, electrochemical sensors for detecting fungal pathogen induced volatiles in selected crops, and a University of Massachusetts project creating a platform for pathogen detection in foods that is superior to the current detection method in terms of analytical time, sensitivity, and accuracy using a novel, label-free, surface-enhanced Raman scattering (SERS) mapping technique.
The purpose of AFRI is to support research, education, and extension work by awarding grants that address key problems of national, regional, and multi-state importance in sustaining all components of food and agriculture. AFRI is the flagship competitive grant program administered by USDA's National Institute of Food and Agriculture. Established under the 2008 Farm Bill, AFRI supports work in six priority areas: plant health and production and plant products; animal health and production and animal products; food safety, nutrition and health; bioenergy, natural resources and environment; agriculture systems and technology; and agriculture economics and rural communities.
Since AFRI's creation, NIFA has awarded more than $89 million to solve challenges related to plant health and production; $22 million of this has been dedicated to nanotechnology research. The President's 2017 budget request proposes to fully fund AFRI for $700 million; this amount is the full funding level authorized by Congress when it established AFRI in the 2008 Farm Bill.
Since 2009, NIFA has invested in and advanced innovative and transformative initiatives to solve societal challenges and ensure the long-term viability of agriculture. NIFA's integrated research, education, and extension programs, supporting the best and brightest scientists and extension personnel, have resulted in user-inspired, groundbreaking discoveries that are combating childhood obesity, improving and sustaining rural economic growth, addressing water availability issues, increasing food production, finding new sources of energy, mitigating climate variability, and ensuring food safety. To learn more about NIFA's impact on agricultural science, visit www.nifa.usda.gov/impacts or follow the organization on Twitter @usda_NIFA, #NIFAimpacts.