Friday, September 11, 2020

[Paleontology • 2020] Genomic and Fossil windows into the Secret Lives of the Most Ancient Fungi


Early Devonian Rhynie environment and Rhynie chert fossils from 407Ma. Leafless plants surrounded silica-rich hot springs in Rhynie, Scotland.

in Berbee, Strullu-Derrien, Delaux, et al., 2020. 
to the Secret Lives of the Most Ancient Fungi. Nature Reviews .  

Artwork by Victor Leshyk (Victor Leshyk Illustration) twitter.com/VictorLeshyk

Abstract
Fungi have crucial roles in modern ecosystems as decomposers and pathogens, and they engage in various mutualistic associations with other organisms, especially plants. They have a lengthy geological history, and there is an emerging understanding of their impact on the evolution of Earth systems on a large scale. In this Review, we focus on the roles of fungi in the establishment and early evolution of land and freshwater ecosystems. Today, questions of evolution over deep time are informed by discoveries of new fossils and evolutionary analysis of new genomes. Inferences can be drawn from evolutionary analysis by comparing the genes and genomes of fungi with the biochemistry and development of their plant and algal hosts. We then contrast this emerging picture against evidence from the fossil record to develop a new, integrated perspective on the origin and early evolution of fungi.

Environmental microbiology, Fungal ecology, Fungal evolution, Fungal genomics



 
Mary L. Berbee, Christine Strullu-Derrien, Pierre-Marc Delaux, Paul K. Strother, Paul Kenrick, Marc-André Selosse and John W. Taylor. 2020. Genomic and Fossil windows into the Secret Lives of the Most Ancient Fungi. Nature Reviews Microbiology.  DOI: 10.1038/s41579-020-0426-8