Researchers at MIT have developed a groundbreaking method to monitor soil and crop health using genetically engineered bacteria that "glow" in different colors when they detect specific environmental triggers like nutrients or pollutants. These engineered microbes produce unique pigments—such as biliverdin and bacteriochlorophyll—when exposed to certain stimuli, and these signals can be captured from afar using hyperspectral cameras mounted on drones or buildings. Unlike traditional bacterial sensors that require microscopic analysis, this system enables rapid, large-scale environmental monitoring in under 30 seconds across hundreds or thousands of square meters.
The engineered bacteria, including Pseudomonas putida and Rubrivivax gelatinosus, were designed to emit distinct light wavelengths when detecting specific targets, such as toxic metals or beneficial nutrients. The emitted signals, although invisible to the naked eye, are easily detectable by hyperspectral imaging, which identifies subtle spectral shifts. This “plug and play” system can be adapted to sense a wide variety of chemical or biological cues, making it a versatile tool for agriculture, pollution detection, and land management.
Funded by the U.S. and Israeli defense departments, the researchers emphasize the need to navigate regulatory and safety concerns. Still, they highlight the system’s potential as a sustainable, low-power, and persistent environmental monitoring technology.
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