Abstract
The extinction of species can destabilize ecological processes. A way to assess the ecological consequences of species loss is by examining changes in functional diversity. The preservation of functional diversity depends on the range of ecological roles performed by species, or functional richness, and the number of species per role, or functional redundancy. However, current knowledge is based on short timescales and an understanding of how functional diversity responds to long-term biodiversity dynamics has been limited by the availability of deep-time, trait-based data. Here, we compile an exceptional trait dataset of fossil molluscs from a 23-million-year interval in the Caribbean Sea (34 011 records, 4422 species) and develop a novel Bayesian model of multi-trait-dependent diversification to reconstruct mollusc (i) diversity dynamics, (ii) changes in functional diversity, and (iii) extinction selectivity over the last 23 Myr. Our results identify high diversification between 23–5 Mya, leading to increases in both functional richness and redundancy. Conversely, over the last three million years, a period of high extinction rates resulted in the loss of 49% of species but only 3% of functional richness. Extinction rates were significantly higher in small, functionally redundant species suggesting that competition mediated the response of species to environmental change. Taken together, our results identify long-term diversification and selective extinction against redundant species that allowed functional diversity to grow over time, ultimately buffering the ecological functions of biological communities against extinction.
Highlights
The effects of species extinctions have been assessed based on changes in the taxonomic structure of communities
We assessed the ecological response of the species assemblage to climate change and extinction by asking (i) what are the diversification dynamics of Caribbean molluscs? (ii) how did functional diversity change through time? and (iii) does extinction follow diversity-dependent dynamics? Our results show how marine assemblages responded to global change and extinction through geological time
We found eight (95% credible interval, CI: 4–15) significant rate shifts in speciation rates and seven significant shifts in extinction rates, which are punctuated across the evolutionary history of Caribbean molluscs
Summary
The effects of species extinctions have been assessed based on changes in the taxonomic structure of communities. Caribbean molluscs provide an ideal model to understand the ecological responses of communities to extinction over long timescales [3,5,6] They have an unusually rich fossil record and have persisted through major environmental changes. We assessed the ecological response of the species assemblage to climate change and extinction by asking (i) what are the diversification dynamics of Caribbean molluscs? Diversity gradually increased over an approximately 18-million-year period of constantly low speciation and extinction rates (figure 1a,b). This phase culminated in the early Pliocene when speciation rates peaked, allowing species richness to reach maximum values (figure 1d).
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