What is robotic farming? Learn about agriculture breakthrough taking on food insecurity

Kristian Jaime, Salisbury Daily Times
·2 min read

FarmBots are the latest in innovative agriculture, especially in urban farming where arable land is limited and space is at a premium, thanks to the latest research from the University of Maryland Eastern Shore.

The trending term refers to farming with the precision and assistance of robotic agriculture for planting, watering and management of weeds. The emerging technology has potential as an energy-smart and sustainable way of growing food in small spaces.

“Sustainable food production for a growing population with an energy-smart approach is the overall goal,” said Madhumi Mitra, a professor of biology and environmental science at the university. “During the course of the project, we will assist the Rappahannock tribe in automating its greenhouse at the Tribal Center in St. Stephens Church, Virginia, with a computer-controlled robot for cultivating indigenous plants and medicinal herbs to enhance its agribusiness.

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Small scale farming, big impact on food insecurity

UMES summer interns, from left, Leon Kelly (geochemistry, Duke University); Alena Zheng (bioengineering, University of Maryland); and Brian Butler (engineering, UMES); will be working on the FarmBot smart-farm technology project with project lead Dr. Madhumi Mitra, professor of biology and environmental science, and co-investigators Drs. Abhijit Nagchaudhuri, professor of engineering; Caleb Nindo, director of UMES’ Food Science and Technology Program; and Byungruk Min, professor of food science and technology. Dr. Lila Karki, not pictured, is also a co-PI on the project.

Robotic farming, particularly urban and indoor, is the focus of a U.S. Department of Agriculture three-year grant-funded project at University of Maryland Eastern Shore. Mitra is the lead on a $780,700 National Institute of Food and Agriculture grant geared toward discovery through research, experiential learning in Science Technology Engineering and Mathematics for UMES students and training for farmers through extension activities.On the UMES campus, Mitra said, students will grow beets and carrots in a tunnel house FarmBot using rainwater irrigation to study the harvest characteristics, phytochemicals and micronutrients of the vegetables. Another experiment looks at the impacts of seaweed-based biostimulants (extracts from marine algae that help plants grow and defend themselves) on the growth and characteristics of indoor-grown spinach.

Market analysis to determine economic viability of the technology and stakeholder surveys measuring the willingness to adopt automated indoor farming technology will also be conducted.

“Adoption of resilient food systems that reduce food waste and strengthen food production in urban areas is crucial to addressing global population expansion and create self-sufficient farming,” Mitra said. “Implementing these systems not only enhances food security and minimizes environmental impact, but also provides benefits to growers by promoting sustainable practices and reducing reliance on long supply chains.”

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This article originally appeared on Salisbury Daily Times: How robotic farming could make small spaces lead to big returns

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