Data from: Estimating cranial musculoskeletal constraints in theropod dinosaurs
Data files
Oct 14, 2015 version files 129.23 MB
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S1 Blender setup example for Alligator mississippiensis.blend
24.12 MB
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S10 Muscle strain script for Erlikosaurus andrewsi.txt
17.04 KB
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S11 Data with strain factors for studied taxa.xlsx
339.91 KB
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S12 Movie showing gape cycles and strain factors with a muscle resting length at 3 degrees.mov
5.64 MB
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S13 Movie showing gape cycles and strain factors with a muscle resting length at 6 degrees.mov
6.17 MB
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S2 Blender setup example for Buteo buteo.blend
20.48 MB
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S3 Blender setup example for Allosaurus fragilis.blend
23.04 MB
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S4 Blender setup example for Tyrannosaurus rex.blend
28.71 MB
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S5 Blender setup example for Erlikosaurus andrewsi.blend
20.64 MB
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S6 Muscle strain script for Alligator mississipiensis.txt
18.49 KB
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S7 Muscle strain script for Buteo buteo.txt
18 KB
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S8 Muscle strain script for Allosaurus fragiliis.txt
19.24 KB
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S9 Muscle strain script for Tyrannosaurus rex.txt
19.25 KB
Abstract
Many inferences on the biology, behaviour and ecology of extinct vertebrates are based on the reconstruction of the musculature and rely considerably on its accuracy. Although the advent of digital reconstruction techniques has facilitated the creation and testing of musculoskeletal hypotheses in recent years, muscle strain capabilities have rarely been considered. Here, a digital modelling approach using the freely available visualization and animation software BLENDER is applied to estimate cranial muscle length changes and optimal and maximal possible gape in different theropod dinosaurs. Models of living archosaur taxa (Alligator mississippiensis, Buteo buteo) were used in an extant phylogenetically bracketed framework to validate the method. Results of this study demonstrate that Tyrannosaurus rex, Allosaurus fragilis and Erlikosaurus andrewsi show distinct differences in the recruitment of the jaw adductor musculature and resulting gape, confirming previous dietary and ecological assumptions. While the carnivorous taxa T. rex and Allo. fragilis were capable of a wide gape and sustained muscle force, the herbivorous therizinosaurian E. andrewsi was constrained to small gape angles.