Between her biological systems engineering research and her job as assistant grower at Gotham Greens, aka her “living lab,” master's student Grace Algeo is focused on developing practical tools that support growers, strengthen sustainability efforts and point toward a more resilient future for agriculture.
UC Davis will soon open the Lynda and Stewart Resnick Center for Agricultural Innovation, where Fadi Fathallah, professor and chair of biological and agricultural engineering, is leading robotics research to develop practical, field-ready technologies that improve efficiency, sustainability and resilience in modern agriculture.
Research led by UC Davis Professor of Biological and Agricultural Engineering Isaya Kisekka is using real-time data and smarter irrigation strategies to keep farms productive while safeguarding California’s long-term agricultural resilience.
The U.S. Department of Energy’s Advanced Research Projects Agency-Energy (ARPA‑E) awarded UC Davis researchers a $3 million grant to develop a bio‑based process that selectively captures rare earth elements from acidic mine‑influenced and industrial wastewater streams. The project is led by Yi Wang, an assistant professor in the Department of Biological and Agricultural Engineering.
As California's agricultural sector adopts automation to manage costs, labor shortages and production risks, researchers at UC Davis are partnering with them to develop solutions that can make a real difference in the field.
With a quick leaf scan, the AI-powered Leaf Monitor delivers real-time nutrient insights for crops. By replacing weeks-long lab tests, the new tool, developed by UC Davis engineers, can help farmers boost yields, cut fertilizer waste and manage fields with precision and sustainability.
Ning Pan, a Distinguished Professor emeritus at the University of California, Davis, died on Sept. 7, 2025. Pan’s research advanced the physics and engineering of fibrous materials, the biophysics of human–fabric interaction and applications of nanotechnology in energy storage.
A multilayer film that reflects heat while letting through light needed for photosynthesis could make greenhouse agriculture more energy- and water-efficient. Such a film has been developed by engineers at the University of California, Davis, and is described in a recent paper in Advanced Energy & Sustainability Research.
Presented at the American Chemical Society’s Fall 2025 meeting, jelly ice is a reusable, compostable cooling material made from gelatin that stays solid without meltwater. Developed by UC Davis engineers, it offers sustainable potential for food, medicine and biotech applications.
Inspired by math, construction and the rainforest, Nicolas Almeida built a path in biological systems engineering rooted in purpose and a future in sustainable impact.
