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Rather Than Fight, These Two Species of Insect-Killing Fungi Share

UMD Study Reveals Beneficial Strains Coexist by Neatly Dividing Up Their Victims

By Georgia Jiang

four red and green bug images

Two species of the fungal genus Metarhizium, one of which appears red and the other green when viewed using advanced imaging techniques, divide up flies that have been colonized by the fungi. UMD researchers discovered the species are able to cooperate with each other rather than fight for food resources.

Photos courtesy of Raymond St. Leger

University of Maryland entomologists uncovered a unique relationship between two species of fungi known for their ability to invade, parasitize and kill insects efficiently: Instead of violently competing for the spoils of war, the two fungi peacefully cooperate and share their victims.

The findings, published in the journal Public Library of Science (PLOS) Pathogens on Thursday, offer insight into some of nature’s biggest evolutionary successes, according to study co-authors Distinguished University Professor Raymond St. Leger and Ph.D. candidate Huiyu Sheng.

“It’s not survival of the fittest in the way we often think of. Sometimes, it’s the survival of those who can just get along,” St. Leger said. “Rather than wiping each other out, these fungi apparently evolved sophisticated ways of coexisting—and we are just beginning to understand that balance.”

The study focused on two species of a fungal genus called Metarhizium, which can be found in soil around the world. Members of this fungal group protect plants from damaging abiotic stresses (such as drought or poor nutrients) and harmful insects.

“These microorganisms have been called keystone species because they play crucial roles in both plant health and natural insect population control,” St. Leger said. “Our findings may help explain their extraordinary success in ecosystems worldwide.”

Using advanced imaging techniques with fluorescent proteins that made the two species alternately glow red or green, the scientists observed how the fungi interacted when colonizing insects. Rather than one strain dominating and excluding the other, the team found that the fungi neatly divided their territory amongst themselves as they infected, spread inside and finally killed pests.

One strain tacitly invaded the front segments of an insect host, while the other colonized the back segments, with the two invaded territories distinctly separated by a remarkably sharp dividing line between them. This pattern held true whether the chosen victim was a large caterpillar weighing 10 grams or a tiny fly weighing less than a single milligram.

“The sharpness of the delineation between where one fungus starts and the other ends looks quite bizarre,” St. Leger noted. “The borders separating the segments from each other are inexplicably clear.”

So, why does this cooperation exist? The researchers believe each strain of fungus adapted their own unique specialties and niches over time, allowing them to partition limited resources.

But just how these fungi orient themselves within their hosts and how they communicate their territorial division remain mysteries. The researchers hope to investigate the mechanisms responsible for these host-sharing strategies and open up new avenues of research on how they could be used to bolster both food security and Earth’s biodiversity.

Understanding how different fungal species interact could help scientists and agriculturalists develop better biological pest control methods and strategies to promote plant growth. St. Leger notes that the fungi already show incredible promise in protecting plants from mercury poisoning, enhancing crop growth and killing disease-spreading insects.

“These fungi have shown that they are very adaptable,” he said. “They’ve been doing this for a very long period of time and have thus evolved an arsenal of novel, sophisticated and subtle tricks. They are also very easy to genetically engineer, so their applications are limited only by your imagination.”

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