Researchers across MIT are taking on the agricultural challenges posed by climate change, from engineering plants that sound an alarm when they're under stress to making seeds more resilient to drought.
The coatings can vary in composition, but they all consist of two components. One is a metal such as iron, manganese, or zinc, and the other is a polyphenol — a type of plant-derived organic compound that includes tannins and other antioxidants. These two components self-assemble into a protective shell that encapsulates bacteria. To overcome those challenges, Furst has developed a way to coat the microbes with a protective shell that prevents them from being destroyed by heat or other stresses. The coating also protects microbes from damage caused by freeze-drying — a process that would make them easier to transport. Ariel Furst, the Paul M. Cook Career Development Assistant Professor of Chemical Engineering at MIT, is developing a microbial alternative to the Haber-Bosch process. Some farms have experimented with applying nitrogen-fixing bacteria directly to the roots of their crops, which has shown some success. However, the microbes are too delicate to be stored long-term or shipped anywhere, so they must be produced in a bioreactor on the farm. Whether they are experiencing drought or not, crops grow much better when synthetic fertilizers are applied. Although it's essential to most farms, applying fertilizer is expensive and has environmental consequences. Most of the world's fertilizer is produced using the Haber-Bosch process, which converts nitrogen and hydrogen to ammonia at high temperatures and pressures. This energy intensive process accounts for about 1.5 percent of the world's greenhouse gas emissions, and the transportation required to deliver it to farms around the world adds even more emissions. "We're working with local communities to extract the biopolymers, to try to have a process that works at scale so that we make materials that work in that specific environment." Marelli says. "We may come up with an idea here at MIT within a high-resource environment, but then to work there, we need to talk with the local communities, with local…