Abstract
Evolutionary radiations are fascinating phenomena corresponding to a dramatic diversification of taxa and a burst of cladogenesis over short periods of time. Most evolutionary radiations have long been regarded as adaptive but this has seldom been demonstrated with large-scale comparative datasets including fossil data. Originating in the Early Jurassic, irregular echinoids are emblematic of the spectacular diversification of mobile marine faunas during the Mesozoic Marine Revolution. They diversified as they colonized various habitats, and now constitute the main component of echinoid fauna in modern seas. The evolutionary radiation of irregular echinoids has long been considered as adaptive but this hypothesis has never been tested. In the present work we analyze the evolution of echinoid species richness and morphological disparity over 37 million years based on an extensive fossil dataset. Our results demonstrate that morphological and functional diversifications in certain clades of irregular echinoids were exceptionally high compared to other clades and that they were associated with the evolution of new modes of life and so can be defined as adaptive radiations. The role played by ecological opportunities in the diversification of these clades was critical, with the evolution of the infaunal mode of life promoting the adaptive radiation of irregular echinoids.
Highlights
The uneven composition of biodiversity on Earth is evidenced by the analyses of its genetic, phenotypic, or taxonomic components at various spatial and time scales [1]
In two clades of irregular echinoids, the Neognathostomata and the Atelostomata, species richness did not vary in concert with this general pattern
Species richness of all clades decreased at the end of the Upper Jurassic including for the Neognathostomata and the Atelostomata
Summary
The uneven composition of biodiversity on Earth is evidenced by the analyses of its genetic, phenotypic, or taxonomic components at various spatial and time scales [1]. The 2 million extant species of organisms currently described on the planet are dominated in number by terrestrial insects and plants [1, 2]. Crustaceans and mollusks dominate taxonomic diversity of macro-organisms in modern seas, estimating the total number of marine species remains problematic for various reasons [2, 3]. Uneven biodiversity patterns do not pertain to modern seas only. The fossil record provides evidence that marine biodiversity has always been dominated by certain clades through the Phanerozoic, but these dominant clades have not always been the same [4].
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