Microscopic Partners Could Help Plants Survive Stressful Environments

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Tiny, symbiotic fungi play an outsized role in helping plants survive stresses like drought and extreme temperatures, which could help feed a planet experiencing climate change, report scientists at Washington State University.

Tiny, symbiotic fungi play an outsized role in helping plants survive stresses like drought and extreme temperatures, which could help feed a planet experiencing climate change, report scientists at Washington State University.

Recently published in the journal Functional Ecology, the discovery by plant-microbe biologist Stephanie Porter and plant pathologist Maren Friesen sheds light on how microbe partners can help sustainably grow a wide variety of crops.

Tiny partners in plant survival

While some microscopic fungi and bacteria cause disease, others live in harmony with plants, collecting water and nutrients in exchange for carbohydrates, or changing plants’ internal and external environment in ways that help plants grow.

These benefits help plants tolerate stresses that come from their environment. Dubbed abiotic stresses, challenges such as drought, extreme temperatures, and poor, toxic, or saline soils are among the leading causes of crop loss and decreasing farm productivity.

Read more at Washington State University          

Photo Credit: Blue-stained filaments of arbuscular mycorrhizal fungus, which lives in symbiosis with plants, inhabit plant roots in this microscope image (Photo by Ashley Finnestad, T.E. Cheeke Lab, WSU).