The Donald Danforth Plant Science Center and Enhanced Nature (EN), together with its parent company Symbiotic Sciences (SS), today announced a joint program to develop methods to accelerate and optimize the in vitro growth of AMF (arbuscular mycorrhizal fungi) for more sustainable agriculture. The project is led by Armando Bravo, PhD, assistant member at the Danforth Center. Dr. Bravo’s field of expertise is the symbiotic relationship between AMF and plant roots. His counterpart is Shouvik Chowdhury, VP Product Development and Strategy at EN, who also manages the EN and SS AMF production facility in Delhi, India.
AMF live underground in tight association with plant roots, where they help plants take up nutrients like phosphorus and nitrogen from the soil, and to tolerate environmental stress. In exchange, plants return essential carbon-containing compounds that allow the AMF to live and grow. About 70% of all plants naturally form symbiotic relationships with AMF, and AMF is recognized as a key organic component contributing to more sustainable and profitable agriculture practices. AMF sales worldwide have been projected to grow over the next 8 years at 10-15% annually (CAGR).
"Although AMF's benefits to plants have been known for decades, widespread agricultural adoption has remained limited due to inefficient production methods," said Bravo. "Recent breakthroughs in AM symbiosis research could enhance our ability to cultivate AMF more effectively. These advances not only deepen our understanding of AMF's functions but also offer practical applications for improved fungal production. Just like the symbiotic relationship between AMF and plants, this collaboration will benefit both Symbiotic Sciences and the Danforth Center by advancing basic science and sustainable agricultural practices."
“For the last 15 years we have been operating one of the largest AMF production facilities in the world,” said Chowdhury. “As we have developed our proprietary methods, we have come to appreciate the complexity of culturing AMF at scale.
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