Abstract
Actinopterygians (ray‐finned fishes) successfully passed through four of the big five mass extinction events of the Phanerozoic, but the effects of these crises on the group are poorly understood. Many researchers have assumed that the Permo‐Triassic mass extinction (PTME) and end‐Triassic extinction (ETE) had little impact on actinopterygians, despite devastating many other groups. Here, two morphometric techniques, geometric (body shape) and functional (jaw morphology), are used to assess the effects of these two extinction events on the group. The PTME elicits no significant shifts in functional disparity while body shape disparity increases. An expansion of body shape and functional disparity coincides with the neopterygian radiation and evolution of novel feeding adaptations in the Middle‐Late Triassic. Through the ETE, small decreases are seen in shape and functional disparity, but are unlikely to represent major changes brought about by the extinction event. In the Early Jurassic, further expansions into novel areas of ecospace indicative of durophagy occur, potentially linked to losses in the ETE. As no evidence is found for major perturbations in actinopterygian evolution through either extinction event, the group appears to have been immune to two major environmental crises that were disastrous to most other organisms.
Highlights
Actinopterygians successfully passed through four of the big five mass extinction events of the Phanerozoic, but the effects of these crises on the group are poorly understood
Two aspects of actinopterygian disparity through the Permian to Jurassic interval are investigated. We examine both body shape disparity and jaw functional disparity to determine whether the Permo-Triassic mass extinction (PTME) and end-Triassic extinction (ETE) resulted in major disparity shifts or morphologically selective extinctions
These characters are known to be related to feeding modes in fishes, such as durophagy and piscivory (Westneat 2003; Friedman 2010; Anderson et al 2011; Smithwick 2015)
Summary
Actinopterygians (ray-finned fishes) successfully passed through four of the big five mass extinction events of the Phanerozoic, but the effects of these crises on the group are poorly understood. The Actinopterygii (ray-finned fishes) represent around half of all living vertebrates, comprising over 32,000 extant species (Sallan 2014; Nelson et al 2016) This remarkable modern diversity has come about through around 400 million years of evolution (Near et al 2012; Lu et al 2016; Giles et al 2017), to fully understand the dynamics of how extant actinopterygians have become so successful, we must turn to the fossil record. Evolution published by Wiley Periodicals, Inc. on behalf of The Society for the Study of Evolution
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