Abstract
The ability of palaeontologists to correctly diagnose and classify new fossil species from incomplete morphological data is fundamental to our understanding of evolution. Different parts of the vertebrate skeleton have different likelihoods of fossil preservation and varying amounts of taxonomic information, which could bias our interpretations of fossil material. Substantial previous research has focused on the diversity and macroevolution of non-avian theropod dinosaurs. Theropods provide a rich dataset for analysis of the interactions between taxonomic diagnosability and fossil preservation. We use specimen data and formal taxonomic diagnoses to create a new metric, the Likelihood of Diagnosis, which quantifies the diagnostic likelihood of fossil species in relation to bone preservation potential. We use this to assess whether a taxonomic identification bias impacts the non-avian theropod fossil record. We find that the patterns of differential species abundance and clade diversity are not a consequence of their relative diagnosability. Although there are other factors that bias the theropod fossil record that are not investigated here, our results suggest that patterns of relative abundance and diversity for theropods might be more representative of Mesozoic ecology than often considered.
Highlights
In order to understand past ecology and key evolutionary changes, palaeontologists must be able to correctly estimate relative or absolute species abundance and diversity [1]
Most theropod diagnostic characters come from the skull, hind limb and vertebrae, with the maxilla, metatarsals and cervical and caudal vertebrae the predominant contributors
We find no significant relationship between species Likelihood of Diagnosis (LoD) and minimum number of individuals (MNI) or any Paleobiology Database (PBDB) abundance proxy across all theropods, within each subgroup, each relevant geological formation and time bin
Summary
In order to understand past ecology and key evolutionary changes, palaeontologists must be able to correctly estimate relative or absolute species abundance and diversity [1]. We exclusively test for this potential bias on a global scale by quantifying the diagnostic quality of the fossil material of each theropod species and statistically comparing this to estimates of abundance at different taxonomic and spatio-temporal scales.
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