Marty Matlock

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Researchers awarded $5M to develop AI platform strengthening regional food systems

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By University of Arkansas System

FAYETTEVILLE, Ark. — Artificial intelligence and machine learning are being explored with several aspects of agriculture, including streamlining regional food systems.

Two Arkansas Agricultural Experiment Station researchers have joined a collaborative effort led by the Institute for Integrative and Innovative Research, or I3R, to develop Cultivate IQ, an AI-driven platform that seeks to integrate sales and production data from across the farm-to-market supply chain to help plan and manage regional food supplies.

CULTIVATE IQ — Improving farm-to-market supply chains on a regional level is the goal of Cultivate IQ, a platform under development by the Institute for Integrative and Innovative Research at the University of Arkansas. (U of A System Division of Agriculture photo)

The Cultivate IQ project’s development team was recently awarded a $5 million National Science Foundation Phase II investment. The additional funding from the NSF Convergence Accelerator brings the total federal investment in the University of Arkansas-led project to nearly $6 million.

Safe and productive

Kristen Gibson, professor and director of the Center for Food Safety, and Trey Malone, assistant professor of agricultural economics and agribusiness, are part of the multi-state team of researchers and regional industry partners that are continuing to develop Cultivate IQ with the funding. The experiment station is the research arm of the University of Arkansas System Division of Agriculture.

“Regional food systems can’t work unless they’re safe,” Gibson said. “There are regulatory aspects to meet, and barriers growers may face when connecting to certain groups.”

Gibson is also offering guidance on quality assurance management goals that will be used for vetting growers.

On the economics side of things, Malone is working with the group to evaluate the agri-food supply chains and identify unique datasets that are largely in the specialty crop space for small and medium-sized farms.

“This project represents a unique opportunity for us to integrate the on-campus technology into the land grant mission,” Malone said. “I’m really excited to get started and I am intrigued by the potential that AI presents in helping farmers make their planting and pricing decisions.”

The Cultivate IQ project aims to integrate sales and production data from across the farm-to-market supply chain to help plan and manage regional food supplies. Local food buyers, including aggregators and distributors, will host their growers on the platform, extending access to market insights, production planning tools and purchase orders.

Agriculture is Arkansas’ top industry, and the Arkansas Delta is one of the most fertile agricultural regions in the country, Malone noted. Northwest Arkansas also has one of the highest concentrations of small-scale farmers in the state, he said. According to the latest Arkansas Agriculture Profile, the state consistently ranks in the top one-third in the nation for agricultural cash farm receipts.

Avoiding both overproduction and underproduction can minimize food loss and can have a positive economic impact on smaller farms by opening up new market channels, says Meredith Adkins, assistant research professor with I3R and the project’s principal investigator.

“Our global food system is fragile, and disruption in the system is a national security concern,” Adkins said. “Small and mid-sized farms and mission-driven local food distributors, such as food hubs, play an important role in strengthening our regional food systems, but they face real barriers including access to real-time marketplace insights such as pricing, supply and demand. Cultivate IQ aims to enable these end users to compete more effectively by making regionally relevant data insights more accessible.”  

Collaboration leads to solutions

Adkins’ team is composed of researchers from across the University of Arkansas System, as well as the University of Florida, University of Wisconsin-Madison, local industry partners Cureate and Junction AI. The team is one of seven multidisciplinary teams from the NSF Convergence Accelerator’s Track J: Food and Nutrition Security selected to advance from Phase 1, which focused on developing proof of concept, to Phase 2, in which the concept will be fully developed and deployed.  

Ranu Jung, associate vice chancellor and I³R founding executive director, said the Cultivate IQ project advanced through the competitive process because it “will make a societal impact” and is an example of partnership and collaboration. Jung is also a senior adviser on the project.

“A collaborative approach between academic researchers, industry, government, nonprofits and other communities is important to optimize the production of food and connections between farmers and consumers, researchers and other stakeholders,” said Douglas Maughan, head of the NSF Convergence Accelerator program. “A lot of great work was accomplished by all teams in Phase 1, but there is still more to be done. The teams selected for Phase 2 are expected to build innovative, tangible solutions and strong partnerships to address food scarcity, irrigation issues, supply chain inequalities and inefficiencies, and more.”

The U.S. National Science Foundation launched the Convergence Accelerator program in 2019. It is aligned with the Directorate for Technology, Innovation and Partnerships, or TIP.

In addition to Adkins, Gibson and Malone, the Arkansas-based core team includes:

Thi Hoang Ngan Le, Ph.D., assistant professor, department of electrical engineering and computer science

Chase Rainwater, Ph.D., chair, department of industrial engineering

Kim Bryden, CEO, Cureate

Vance Reavie, CEO, Junction AI

Philip Sambol, project manager, I³R

Support staff at I³R, multiple undergraduate interns and graduate assistants are also working on the project under the mentorship of the co-investigators, including Benjamin Sapaning Sr., graduate assistant at I³R.

An interdisciplinary group of researchers will collaborate with the core team to support the success of the project. At the U of A, this includes the Center for Advanced Spatial Technologies, directed by Jack Cothren, Ph.D., who will support the project’s geospatial data models for regional crop supply, as well as the Indigenous Food and Agriculture Initiative at the School of Law, represented by Associate Director Carly Griffith Hotvedt, J.D./MPA, who advises the project on engagement with indigenous communities. Marty Matlock, Ph.D., a food systems expert and ecological engineer who recently served as senior adviser to the U.S. Secretary of Agriculture, also serves as an adviser to the team. Yasser Sanad, DVM, MVSC, Ph.D., leads University of Arkansas at Pine Bluff’s engagement with the project in the Central Arkansas Delta. 

Two land-grant institutions outside of the state are also collaborating, including the University of Florida, represented by agricultural economist Di Fang, Ph.D., and two team members from the Center for Integrated Agricultural Systems at the University of Wisconsin-Madison. Erin Silva, Ph.D. and John Hendrickson at the University of Wisconsin-Madison are experts on farm viability and cost of production analysis by market channel.

Watch the team’s Phase 1 video and learn more about how the team is “Unlocking the Power of Convergence Research for Societal Impact.”

To learn more about Division of Agriculture research, visit the Arkansas Agricultural Experiment Station website: https://aaes.uada.edu. Follow on Twitter at @ArkAgResearch. To learn more about the Division of Agriculture, visit https://uada.edu/. Follow us on Twitter at @AgInArk. To learn about extension programs in Arkansas, contact your local Cooperative Extension Service agent or visit www.uaex.uada.edu.

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Panelists say changes needed to harness bio-, ag-tech innovations

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By Mary Hightower
U of Arkansas System Division of Agriculture

FAYETTEVILLE, Ark. — Arkansas is poised to harness the latest technological innovations to solve problems like food insecurity, but that won’t happen without funding and policy changes, panelists said at the Agri-Food Innovation Summit.

The two-day summit on Nov. 2-3 featured panel discussions and presentations on all aspects of taking research discoveries and developing practical solutions for problems in agriculture and food production.

INNOVATION — The panel on agricultural and food innovation for the 22nd century included Khoa Luu, left, assistant professor of computer science and computer engineering; Brandon McFadden, professor of agricultural economics and agribusiness; Marty Matlock, professor of biological and agricultural engineering; Parker Cole, associate director of technology commercialization for the Division of Agriculture; Walter Burgess, co-CEO of Power Technology, Inc.; and Sylvia Wulf, CEO of Aquabounty Technologies. (U of A System Division of Agriculture photo)

More than 200 registered over the two-day summit, which was co-hosted by the Arkansas Small Business and Technology Development Center, the University of Arkansas Division of Economic Development, the University of Arkansas System Division of Agriculture, and Catalyst/Research and Technology Transfer at Arkansas State University.

Food security

Sylvia Wulf, CEO of Aquabounty Technologies, said she believed in the potential for the Natural State to be a leader in ag and food innovation. Her company produces genetically modified salmon that are tank-farmed on land.

“We are a poster child for how challenging innovation and entrepreneurialism is,” Wulf said. “It took us 25 years to get regulatory approval for our salmon. There was no pathway. We are the first genetically modified animal that was ever approved for use in this country.

“Then we ran into political challenges. It took us several years to overcome what they put in place to allow us to farm” her company’s salmon, she said.

She said her company’s salmon can help reduce carbon footprint compared to the shipping needed to supply Atlantic salmon.

“If you look at Atlantic salmon, it has more frequent flier miles than anybody else in this room,” she said. “We can solve that carbon footprint by creating an industry here in the U.S.”

Wulf also said that “food security is national security. I think we see that because of what happened with COVID.”

“We import 97 percent of the seafood that we eat in this country. It’s a healthy, healthy protein,” she said. “Yet, we are completely dependent on imports. So, we need to be able to develop an aquaculture segment for our economy.”

The challenge ahead is “how do we optimize the technology to where public-private partnerships and some of the funding opportunities that we are talking about today can come into play,” Wulf said.

‘Mud on their boots’

Marty Matlock, professor of ecological engineering in the biological and agricultural engineering department for the Division of Agriculture and University of Arkansas, talked about his time working with the U.S. Department of Agriculture. He was among the panelists discussing Agricultural Innovation for the 22nd Century.

“We have a $23.3 trillion economy in this country. It’s the largest economy of any nation in the history of this planet,” he said. “We know that venture capital is key to innovation for any sort of technology systems because typically there's just no funding source available other than someone who's willing to take a chance on it. 

“If you have the equity, you go to the bank and you just borrow it — you double mortgage your house,” Matlock said. “But the problem with most innovative companies, especially small businesses, is there is no equity there, so venture capital is your mechanism.

Matlock said that in 2022, the U.S. had $246 billion in venture capital expenditures across every sector.

“That’s about 1.5 percent of our total GPD going to venture capital,” he said. “Of that 1.5 percent, about $12.6 billion of that goes to agriculture. Of that $12.6 billion, $5 billion goes to California. Forty percent of it goes to California. It’s not coming to where the people have mud on their boots and that’s one of our big challenges.”

“How do we innovate when there's no money? Arkansas can do it but it's going to take a lot of innovations in policy to make that happen,” Matlock said. “It's going to take everything from what we're doing here — these conversations, to governmental tax code to incentive programs, to core funding sources — to start this process going. And it's going to take years of investment to make that happen. It could happen here, but it's going take will, the force of will, to push this rock up the hill.”

Wulf agreed.

“I’m passionate about two things,” she said. “I'm passionate about ag tech and biotech and I’m passionate about making sure that Arkansas is an area of focus for investment in ag tech and biotech, because I believe that this state can lead the country in making that a reality. “

To learn about extension programs in Arkansas, contact your local Cooperative Extension Service agent or visit www.uaex.uada.edu. Follow us on X and Instagram at @AR_Extension. To learn more about Division of Agriculture research, visit the Arkansas Agricultural Experiment Station website: https://aaes.uada.edu. Follow on X at @ArkAgResearch. To learn more about the Division of Agriculture, visit https://uada.edu/. Follow us on X at @AgInArk.