Skip to Content

Chatar & al biomechanics of the cat like mandible Project ID: 000473875 Public
8 Media · 8 Specimens · Managed by: Narimane Chatar

3D models related to: Chatar, N., Fischer, V. Tseng, Z.J. Many-to-one function of cat-like mandibles provides new evidence of mosaic evolution in sabretooth jaw systems. https://doi.org/10.1098/rspb.2022.1627 ABSTRACT Cat-like carnivorans are a textbook example of convergent evolution with distinct morphological differences between taxa with short or elongated upper canines, the latest being often interpreted as an adaptation to bite at large angles and subdue large prey. This interpretation of the sabretooth condition is reinforced by a reduced taxonomic sampling in some studies, often focusing on highly derived taxa or using simplified morphological models. Moreover, most biomechanical analyses focus on biting scenarios at small gapes, ideal for modern carnivora but ill-suited to test for subduction of large prey by sabre-toothed taxa. In this contribution we present the largest 3D collection-based muscle-induced biting simulations on cat like carnivorans by running a total of 1,074 analyses on 17 different taxa at three different biting angles (30°, 60° and 90°) including both morphologies. While our results show a clear adaptation of extreme sabre-toothed taxa to bite at larger angles in terms of stress distribution, other performance variables display surprising similarities between all forms at the different angles tested, highlighting a continuous rather than bipolar spectrum of hunting methods in cat-like carnivorans and demonstrating a wide functional disparity and nuances of the sabretooth condition that cannot simply be characterized by specialized feeding biomechanics.

Filter works:
Media Type
Object
Organization
Publication Status
Taxonomy (Name)
Project
Data Manager
Data Uploader
Filtering by: Data Uploader Narimane Chatar Remove constraint Data Uploader: Narimane Chatar Publication Status Restricted Download Remove constraint Publication Status: Restricted Download
View results as:
List Gallery
List of media items in this team
  ID Part Object Taxonomy Type Date Added Publication Status  
000487531 Skull PMU:PMU 21831 Amphimachairodus palanderi Mesh 2022-12-08 Restricted Download  
000478216 Mandible PMU:PMU 21831 Amphimachairodus palanderi Mesh 2022-10-28 Restricted Download  
000487409 Mandible PMU:PMU 21766/2 Yoshi minor Mesh 2022-12-08 Restricted Download  
000487464 Skull PMU:21766/1 Yoshi minor Mesh 2022-12-08 Restricted Download  
Number of results to display per page
Showing 1 - 4 of 4