nanotechnology

National Innovation Day was February 16^th this year. The National Institute of Food and Agriculture (NIFA) directly contributes to America’s agriculture research and innovation, ultimately benefiting our farmers, ranchers, and foresters. Through an integrated approach of research, education, and Cooperative Extension (extension) – and strong collaboration with our grantees, partners, stakeholders, other Federal agencies, and Congress – NIFA ensures that groundbreaking discoveries in agriculture-related sciences and technologies reach the people who can put them into practice. Most of NIFA’s programs contribute to America’s agricultural research and innovation, including NIFA’s flagship competitive grants program, the Agriculture and Food Research Initiative (AFRI), and the Small Business Innovation Research (SBIR) grant program.

Good things come in small packages. Sadly, so do bad things. That’s where Iowa State University’s (ISU) Department of Mechanical Engineering comes in.

When does too much of a good thing become a bad thing? That’s the question Dr. Jonathan Claussen, assistant professor at Iowa State University’s Department of Mechanical Engineering, and his team of researchers aim to help farmers answer when it comes to pesticide use. Underuse can harm farmers’ crops, while overuse can result in runoff into the soil or waterways.

Claussen and his team created a flexible, low cost and disposable biosensor that can detect pesticides in soil. This biosensor is made of graphene, a strong and stable nanoparticle, and provides instantaneous feedback, as opposed to the time and money it would otherwise take to send a sample to a lab and await results.

Our charge in the food and agricultural sciences is to move from evolutionary discoveries, which contribute to marginal changes over long periods of time, to revolutionary thinking to deal with ‘wicked’ problems by deploying transdisciplinary approaches that solve complex societal challenges. Similar to how the Internet-driven disruptive technologies have transformed America and the rest of the world, advances in data science, information science, biotechnology and nanotechnology can transform agriculture and our capacity to address societal challenges.

Advances in the field of genomics have helped breeders produce desirable varieties of crops and livestock and overcome challenges that had previously been undertaken via conventional breeding. For example, in the dairy industry, most cattle are mechanically or chemically dehorned early in life to protect against injury to other cattle and their handlers. To eliminate this bloody and painful process, a team of NIFA-funded researchers at Recombinetics have successfully used gene editing to introduce the hornless gene into the cells of horned bulls. While the majority of hornless cattle generated via conventional breeding produce low quality milk, gene editing offers a simple and rapid solution of generating hornless cattle that produce high quality milk.

Say it: nanotechnology.

The word alone sounds intriguing, futuristic. But what is nanotechnology?

In simple terms, nanotechnology is understanding and controlling matter on a molecular scale—at dimensions between approximately 1 and 100 nanometers.

The Forest Products Laboratory (FPL) recently guided USDA Secretary Tom Vilsack through its unique set of research facilities. Basic and applied research at FPL supports a number of objectives, including forest management and restoration, the wise use of forest resources, job creation, and expanding economic opportunities through public-private partnerships on a national scale.

Throughout his tour, Secretary Vilsack talked with lab leadership about FPL’s diverse and innovative research efforts. Project leaders used the opportunity to field questions from the Secretary and explain work ranging from wood preservation and durability to advances in “green” building strategies and technology, use of beetle-killed trees, work on historic timber bridges, and advances in nanocellulose-related materials and applications.

The U.S. Forest Service Forest Products Laboratory recently opened a $1.7 million production facility for renewable, forest-based nanomaterials.  This facility is the first of its kind in the United States and one that positions the laboratory as the country’s leading producer of these materials, also called nanocellulose.

Nanocellulose is simply wood fiber broken down to the nanoscale. For perspective, a nanometer is roughly one-millionth the thickness of an American dime. Materials at this minute scale have unique properties; nanocellulose-based materials can be stronger than Kevlar fiber and provide high strength properties with low weight. These attributes have attracted the interest of the Department of Defense for use in lightweight armor and ballistic glass. Companies in the automotive, aerospace, electronics, consumer products, and medical device industries also see massive potential for these innovative materials.

This post is part of the Science Tuesday feature series on the USDA blog. Check back each week as we showcase stories and news from the USDA's rich science and research portfolio.

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A visit to the happiest place on earth now opens a window to some of the smallest things on earth.