posted on 2018-06-01, 08:34authored byJordan Bestwick, David M. Unwin, Richard J. Butler, Donald M. Henderson, Mark A. Purnell
Pterosaurs are an extinct group of Mesozoic flying reptiles, whose fossil record extends from approximately 210 to
66 million years ago. They were integral components of continental and marginal marine ecosystems, yet their diets
remain poorly constrained. Numerous dietary hypotheses have been proposed for different pterosaur groups, including
insectivory, piscivory, carnivory, durophagy, herbivory/frugivory, filter-feeding and generalism. These hypotheses,
and subsequent interpretations of pterosaur diet, are supported by qualitative (content fossils, associations, ichnology,
comparative anatomy) and/or quantitative (functional morphology, stable isotope analysis) evidence. Pterosaur dietary
interpretations are scattered throughout the literature with little attention paid to the supporting evidence. Reaching a
robustly supported consensus on pterosaur diets is important for understanding their dietary evolution, and their roles
in Mesozoic ecosystems. A comprehensive examination of the pterosaur literature identified 314 dietary interpretations
(dietary statement plus supporting evidence) from 126 published studies. Multiple alternative diets have been hypothesised
for most principal taxonomic pterosaur groups. Some groups exhibit a high degree of consensus, supported by
multiple lines of evidence, while others exhibit less consensus. Qualitative evidence supports 87.3% of dietary interpretations,
with comparative anatomy most common (62.1% of total). More speciose groups of pterosaur tend to have a greater
range of hypothesised diets. Consideration of dietary interpretations within alternative phylogenetic contexts reveals
high levels of consensus between equivalent monofenestratan groups, and lower levels of consensus between equivalent
non-monofenestratan groups. Evaluating the possible non-biological controls on apparent patterns of dietary diversity
reveals that numbers of dietary interpretations through time exhibit no correlation with patterns of publication (number
of peer-reviewed publications through time). 73.8% of dietary interpretations were published in the 21st century. Overall,
consensus interpretations of pterosaur diets are better accounted for by non-biological signals, such as the impact of
the respective quality of the fossil record of different pterosaur groups on research levels. That many interpretations are
based on qualitative, often untestable lines of evidence adds significant noise to the data. More experiment-led pterosaur
dietary research, with greater consideration of pterosaurs as organisms with independent evolutionary histories, will
lead to more robust conclusions drawn from repeatable results. This will allow greater understanding of pterosaur
dietary diversity, disparity and evolution and facilitate reconstructions of Mesozoic ecosystems.
Funding
J.B. is funded by a NERC studentship
awarded through the Central England NERC Training
Alliance (CENTA; grant reference NE/L002493/1) and by
the University of Leicester.
History
Citation
Biological Reviews, 2018
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/School of Geography, Geology and the Environment