Differences in extinction selectivity and their relationship to functional traits in late Cenozoic mollusks
Daniel Rojas-Ariza, Luke C. Strotz, Bruce S. Lieberman

TL;DR
The study examines which traits helped mollusks survive extinctions in the late Cenozoic era, finding that lower metabolic rates were linked to better survival in bivalves.
Contribution
The study identifies basal metabolic rate as a key trait influencing extinction survival in bivalves, contrasting with other traits previously thought important.
Findings
Lower basal metabolic rate (BMR) is associated with higher survival odds in bivalves.
Shell composition and structures like varices and callus in gastropods were not linked to survival.
Extinction patterns suggest BMR is a significant predictor for bivalve survival.
Abstract
Identifying generalizable patterns of extinction selectivity is crucial for understanding the mechanisms driving extinction processes. Differences in the trait composition of extinct surviving species may represent evidence of processes of extinction selectivity during the past. Here, we leverage the information from the late Cenozoic molluscan fossil record and extant biota from the western Atlantic coast of North America, to test for differences in the trait composition of extinct and surviving species of bivalves and gastropods. We found basal metabolic rate (BMR) is the trait most closely associated with the extinction patterns observed in our data. On average across all studied molluscan species, odds of survival decrease by ∼11% for every 1-milliwatt (mW) increase in BMR, but this pattern was consistent only for bivalves. BMR thus represents an organismal trait that scales up to…
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Taxonomy
TopicsPaleontology and Stratigraphy of Fossils · Isotope Analysis in Ecology · Aquatic Invertebrate Ecology and Behavior
