Abstract
BackgroundModern selachians and their supposed sister group (hybodont sharks) have a long and successful evolutionary history. Yet, although selachian remains are considered relatively common in the fossil record in comparison with other marine vertebrates, little is known about the quality of their fossil record. Similarly, only a few works based on specific time intervals have attempted to identify major events that marked the evolutionary history of this group.Methodology/Principal FindingsPhylogenetic hypotheses concerning modern selachians’ interrelationships are numerous but differ significantly and no consensus has been found. The aim of the present study is to take advantage of the range of recent phylogenetic hypotheses in order to assess the fit of the selachian fossil record to phylogenies, according to two different branching methods. Compilation of these data allowed the inference of an estimated range of diversity through time and evolutionary events that marked this group over the past 300 Ma are identified. Results indicate that with the exception of high taxonomic ranks (orders), the selachian fossil record is by far imperfect, particularly for generic and post-Triassic data. Timing and amplitude of the various identified events that marked the selachian evolutionary history are discussed.Conclusion/SignificanceSome identified diversity events were mentioned in previous works using alternative methods (Early Jurassic, mid-Cretaceous, K/T boundary and late Paleogene diversity drops), thus reinforcing the efficiency of the methodology presented here in inferring evolutionary events. Other events (Permian/Triassic, Early and Late Cretaceous diversifications; Triassic/Jurassic extinction) are newly identified. Relationships between these events and paleoenvironmental characteristics and other groups’ evolutionary history are proposed.
Highlights
Modern selachians (Neoselachii) represent a diversified clade of marine vertebrates encompassing all living sharks and batoids as well as some extinct groups
In addition to the Conventional Branching Method’ (CBM), we considered another branching method that respects exactly the same phylogenetic relationships drawn from the same cladogram but differs in being thriftier in terms of added ‘ghost range’
This branching method is referred to as ‘Direct Descendence Branching Method’ (DDBM) here. It may allow for paraphylies sensu stricto, it can be considered that this branching method takes account of the variability of the taxonomic classification and respects the divergence order of each node proposed in the phylogenetic hypothesis, as opposed to the conventional method that retains and induces polytomies
Summary
Modern selachians (Neoselachii) represent a diversified clade of marine vertebrates encompassing all living sharks (about 500 described species) and batoids (rays and skates, about 630 described species) as well as some extinct groups. Preservation of neoselachian remains in the fossil record is reduced due to the cartilaginous nature of their skeleton. Neoselachian fossil remains mainly consist of isolated oral teeth (vertebrae, scales, fin spines and rostral teeth are occasionally encountered) as a result of their polyphiodonty (continuous shedding and replacement of teeth), exceptionally preserved skeletons are known from few localities [5]. Its is accepted that teeth generally provide a set of morphological characters that frequently allow their identification at lower taxonomic ranks [5,6], commonly down to the species level. Modern selachians and their supposed sister group (hybodont sharks) have a long and successful evolutionary history. Only a few works based on specific time intervals have attempted to identify major events that marked the evolutionary history of this group
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