The billion-year reign of fungi that predated plants and made Earth livable

 



Professor Gergely J. Szöllősi, author on this study and head of the Model-Based Evolutionary Genomics Unit at OIST explains the foundations of this research. "Complex multicellular life -- organisms made of many cooperating cells with specialized jobs -- evolved independently in five major groups: animals, land plants, fungi, red algae, and brown algae. On a planet once dominated by single-celled organisms, a revolutionary change occurred not once, but at least five separate times: the evolution of complex multicellular life. Understanding when these groups emerged is fundamental to piecing together the history of life on Earth."

Emergence here was not simply a matter of cells clumping together; it was the dawn of organisms, where cells took on specialized jobs and were organized into distinct tissues and organs, much like in our own bodies. This evolutionary leap required sophisticated new tools, including highly developed mechanisms for cells to adhere to one another and intricate systems for them to communicate across the organism, and arose independently in each of the five major groups.

The difficulties of dating evolutionary divergence

For most of these groups, the fossil record acts as a geological calendar, providing anchor points in deep time. For example, red algae show up possibly as early as about 1.6 billion years ago (in candidate seaweed-like fossils from India); animals appear by around 600 million years ago (Ediacaran fossils such as the quilted pancake like Dickinsonia); land plants take root roughly 470 million years ago (tiny fossil spores); and brown algae (kelp-like forms) diversified tens to hundreds of millions of years later still. Based on this evidence, a chronological picture of life's complexity emerges.

There is, however, a notable exception to this fossil-based timeline: fungi. The fungal kingdom has long been an enigma for paleontologists. Their typically soft, filamentous bodies mean they rarely fossilize well. Furthermore, unlike animals or plants, which appear to have a single origin of complex multicellularity, fungi evolved this trait multiple times from diverse unicellular ancestors, making it difficult to pinpoint a single origin event in the sparse fossil record.

Reading the genetic clock

To overcome the gaps in the fungal fossil record, scientists use a "molecular clock." The concept is that genetic mutations accumulate in an organism's DNA at a relatively steady rate over generations, like the ticking of a clock. By comparing the number of genetic differences between two species, researchers can estimate how long ago they diverged from a common ancestor.

#Fungi
#Mycology
#Mushrooms
#FungalBiology
#FungalEcology
#Mycologist
#FungalDiversity
#FungalResearch
#Mycorrhiza
#FungalKingdom

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