The remarkable diversification of mammals and birds after the demise of the dinosaurs 66 million years ago is well known; but what happened to the snakes? According to a study publishing October 14th in the open-access journal PLOS Biology by Michael Grundler at the University of California, Los Angeles and Daniel Rabosky at the University of Michigan, snakes experienced a similarly spectacular burst of evolution from unassuming insectivorous ancestors to diverse lineages that included the newly available birds, fish and small mammals in their diets.
The K-Pg mass extinction event 66 million years ago – during which 75% of species, including all non-avian dinosaurs, went extinct – marked the beginning of the Cenozoic era and opened a myriad of empty niches for the surviving species to exploit. Like mammals and birds, snakes diversified rapidly during the Cenozoic era, resulting in the nearly 4,000 species that we see today.
To better understand the pace and sequence of this phenomenon, the researchers collated published data on the diets of 882 living snake species and used sophisticated mathematical models to reconstruct how the diets of their ancestors changed and diversified since the K-Pg boundary. They found that the most recent common ancestor of living snakes was insectivorous, but after the K-Pg boundary, snake diets rapidly expanded to include birds, fish, and small mammals – vertebrate groups that were also flourishing in the wake of the dinosaurs’ extinction.
The study sheds light on the explosive adaptive radiation that gave rise to modern snake diversity. Diet diversification in snakes slowed after the initial radiation, but some lineages experienced further bursts of adaptive evolution. For example, Colubroid snakes diversified when Old World ancestors colonized North and South America. These findings show that mass extinctions and new biogeographic opportunities can spur evolutionary change, the authors say.
“Much of the stunning ecological diversity in snakes seems to result from evolutionary explosions triggered by ecological opportunity,” Grundler adds. “We find a major burst of snake diet diversification after the dinosaur extinction, and we also find that, when snakes arrive in new places, they often undergo similar bursts of dietary diversification.”
In your coverage please use these URLs to provide access to the freely available articles in PLOS Biology: http://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.3001414
Citation: Grundler MC, Rabosky DL (2021) Rapid increase in snake dietary diversity and complexity following the end-Cretaceous mass extinction. PLoS Biol 19(10): e3001414. https://doi.org/10.1371/journal.pbio.3001414
Author Country: United States
Funding: This research was supported by a Graduate Research Fellowship (DGE 1841052) from the National Science Foundation to M.C.G. and by a fellowship from the David and Lucile Packard Foundation to D.L.R. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
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Competing interests: The authors have declared that no competing interests exist.