Abstract
Conodont elements have high rates of morphological evolution, but the drivers of this disparity are debated. Positive allometric relationships between dimensions of food-processing surfaces and entire P1 elements have been used to argue that these elements performed mechanical digestion. If involved in food processing, the surface of the element should grow at a rate proportional to the increase in energy requirements of the animal. This inference of function relies on the assumption that the energy requirements of the animal grew faster (≃ mass0.75) than the tooth area (≃ mass0.67). We reevaluate this assumption based on metabolic rates across animals and calculate the allometry in platform-bearing P1 elements of Late Triassic co-occurring taxa, Metapolygnathus communisti and Epigondolella rigoi, using 3D models of ontogenetic series. Positive allometry is found in platform and element dimensions in both species, supporting a grasping-tooth hypothesis, based on the assumption that metabolic rate in conodonts scaled with body mass similarly to that in fish and ectotherms. We also calculate the curvature of the P1 platform surface using the Dirichlet normal energy (DNE) as a proxy for diet. DNE values increase with body mass, supporting the assumption that conodont metabolic rates increased faster than mass0.67. We finally find that adults in both taxa differ in their food bases, which supports trophic diversification as an important driver of the remarkable disparity of conodont elements.
| Original language | English |
|---|---|
| Article number | PII S0094837323000088 |
| Pages (from-to) | 665-683 |
| Number of pages | 19 |
| Journal | Paleobiology |
| Volume | 49 |
| Issue number | 4 |
| DOIs | |
| Publication status | Published - 13 Mar 2023 |
Bibliographical note
Funding Information:We thank B. Shirley for support in using Aviso and W. Petryshen for advice on cleaning and saving meshes. We also thank M. Mazza for advice and field sampling. We finally thank N. Goudemand for supporting the project (French ANR grant, ACHN project EvoDevOdonto). P.G. was supported by a Visiting Scholarship awarded by Friedrich-Alexander-Universität Erlangen-Nürnberg. E.J. was supported by Deutsche Forschungsgemeinschaft (project no JA 2718/3-1). M.R. was supported by DOR2054230/20 from the University of Padua. We are grateful to V. Karádi, N. Campione, and Paleobiology editor J. Crampton for constructive comments, which improved the article, and to C. White for sharing data on the scaling of metabolic rates in various taxa.
Publisher Copyright:
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Paleontological Society.
Funding
We thank B. Shirley for support in using Aviso and W. Petryshen for advice on cleaning and saving meshes. We also thank M. Mazza for advice and field sampling. We finally thank N. Goudemand for supporting the project (French ANR grant, ACHN project EvoDevOdonto). P.G. was supported by a Visiting Scholarship awarded by Friedrich-Alexander-Universität Erlangen-Nürnberg. E.J. was supported by Deutsche Forschungsgemeinschaft (project no JA 2718/3-1). M.R. was supported by DOR2054230/20 from the University of Padua. We are grateful to V. Karádi, N. Campione, and Paleobiology editor J. Crampton for constructive comments, which improved the article, and to C. White for sharing data on the scaling of metabolic rates in various taxa.
| Funders | Funder number |
|---|---|
| Deutsche Forschungsgemeinschaft | JA 2718/3-1 |
| University of Padua | DOR2054230/20 |
| Friedrich-Alexander-Universitaet Erlangen-Nuernberg | |
| French ANR grant | |
| ACHN project EvoDevOdonto |