An invasive beetle–fungus complex is maintained by fungal nutritional-compensation mediated by bacterial volatiles

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  • Published: 2020-08-31
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Mutualisms between symbiotic microbes and animals have been well documented, and nutritional relationships provide the foundation for maintaining beneficial associations. The well-studied mutualism between bark beetles and their fungi has become a classic model system in the study of symbioses. Despite the nutritional competition between bark beetles and beneficial fungi in the same niche due to poor nutritional feeding substrates, bark beetles still maintain mutualistic associations with beneficial fungi over time. The mechanism behind this phenomenon, however, remains largely unknown.

Researchers at Institute of Zoology of Chinese Academy of Sciences demonstrated the bark beetle Dendroctonus valens LeConte relies on the symbiotic bacterial volatile ammonia, as a nitrogen source, to regulate carbohydrate metabolism of its mutualistic fungus Leptographium procerum to alleviate nutritional competition, thereby maintaining the stability of the bark beetle–fungus mutualism. Ammonia significantly reduces competition of L. procerum for carbon resources for D. valens larval growth and increases fungal growth. Using stable isotope analysis, the study showed the fungus breakdown of phloem starch into D-glucose by switching on amylase genes only in the presence of ammonia. Deletion of amylase genes interferes with the conversion of starch to glucose. The acceleration of carbohydrate consumption and the conversion of starch into glucose benefit this invasive beetle–fungus complex. The nutrient consumption–compensation strategy mediated by tripartite beetle–fungus–bacterium aids the maintenance of this invasive mutualism under limited nutritional conditions, exacerbating its invasiveness with this competitive nutritional edge.

The study was published in The ISME Journal on August 20. PhD student LIU Fanghua at University of Chinese Academy of Sciences (UCAS) (institute: Institute of Zoology) and Dr. Jacob Wickham contributed equaaly to the study. Prof. SUN Jianghua at Institute of Zoology is the corresponding author, who is also a doctoral supervisor at UCAS.

Read more: A symbiosis explained: how a beetle’s bacterial associates enable an invasive bark beetle—fungus complex to coexist in a nutrient poor environment.