Abstract

The vertebrate fossil record of the earliest Carboniferous is notoriously poorly sampled, obscuring a critical interval in vertebrate evolution and diversity. Recent studies of diversity across the Devonian–Carboniferous boundary have proposed a vertebrate mass extinction at the end-Devonian, and recent phylogenies suggest that the origin of the actinopterygian crown may have occurred in the earliest Carboniferous, as part of a broader recovery fauna. However, the data necessary to test this are limited. Here, we describe a partial actinopterygian skull, including diagnostic elements of the posterior braincase, from the Tournaisian Horton Bluff Formation of Blue Beach, Nova Scotia. The braincase surprisingly shows a confluence of characters common in Devonian taxa but absent in Mississippian forms, such as an open spiracular groove; lateral dorsal aortae that pass through open broadly separated, parallel grooves in the ventral otoccipital region, posterior to the articulation of the first infrapharyngobranchial and an intertemporal–supratemporal complex. Phylogenetic analysis places it deep within the actinopterygian stem, among Devonian moythomasiids and mimiids, suggesting more phylogenetically inclusive survivorship of stem group actinopterygians across the end-Devonian mass extinction. With a high lineage survivorship in tetrapods and lungfish across the Devonian–Carboniferous boundary and high vertebrate diversity at Tournaisian localities, this hints at a more gradual turnover between Devonian and Carboniferous vertebrate faunas.

Highlights

  • The Palaeozoic is marked by several biodiversity crises and major climatic events, including mass extinctions and longerterm transitions between climate states [1]

  • The position of A. manskyi is supported by the dorsal aortae open well posterior to the articulation for the first infrapharyngobranchial, the large open spiracular groove, a triangular anteriorly restricted parasphenoid that does not cross the ventral cranial fissure and the welldeveloped persistent ventral cranial fissure

  • What is less clear is the phylogenetic relationship between A. manskyi and the broader diversity of Carboniferous actinopterygians from the Tournaisian and later

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Summary

Introduction

The Palaeozoic is marked by several biodiversity crises and major climatic events, including mass extinctions and longerterm transitions between climate states [1]. Marked by two mass extinctions, one at the Frasnian–Famennian boundary (the Kellwasser event) and 2 a second at the end-Famennian (the Hangenberg event) [2]. The faunal turnover occurring across the Hangenberg event includes the extinction of 31% of marine genera [2]. The Kellwasser and Hangenberg events form a biodiversity depletion originally considered as one of the ‘Big Five’ mass extinctions [3]

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