Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ...

Mammals flex, extend, and rotate their spines as they perform behaviors critical for survival, such as foraging, consuming prey, locomoting, and interacting with conspecifics or predators. The atlas-axis complex is a mammalian innovation that allows precise head movements during these behaviors. Whi...

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Bibliographic Details
Main Authors: Vander Linden, Abby, Campbell, Kristin M, Bryar, Erin K, Santana, Sharlene E
Format: Dataset
Language:English
Published: Dryad 2019
Subjects:
Equus zebra
Tupaia glis
Erythrocebus patas
Macropus robustus
Dendrohyrax arboreus
Dromiciops gliroides
Cervical vertebrae
Eumetopias jubatus
Petaurus breviceps
Tadarida brasiliensis
Hystrix cristata
Trichechus manatus
Cervus elaphus
Manis pentadactyla
Giraffa camelopardalis
Phoca vitulina
Antilocapra americana
Myocastor coypus
Sorex bendirii
Orycteropus afer
Tamandua tetradactyla
Martes pennanti
Sarcophilus harrisii
Trichosurus caninus
Lepus americanus
Rhinolophus ferrumequinum
Hipposideros dinops
Didelphis virginiana
Erethizon dorsatum
Suricata suricatta
Galago senegalensis
Dipodomys microps
Spherical harmonics analysis
Phascolarctos cinereus
Canis lupus
Atelerix albiventris
Puma concolor
Geocapromys ingrahami
Potorous tridactylus
Bison bison
Ochotona princeps
Berardius bairdii
Acrobates pygmaeus
Tachyglossus aculeatus
Myoprocta pratti
Emballonura semicaudata
Octodon degus
Symphalangus syndactylus
Chinchilla lanigera
Saimiri sciureus
Online Access:https://dx.doi.org/10.5061/dryad.1nq8md7
https://datadryad.org/stash/dataset/doi:10.5061/dryad.1nq8md7
id ftdatacite:10.5061/dryad.1nq8md7
record_format openpolar
spelling ftdatacite:10.5061/dryad.1nq8md7 2024-02-04T09:59:34+01:00 Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ... Vander Linden, Abby Campbell, Kristin M Bryar, Erin K Santana, Sharlene E 2019 https://dx.doi.org/10.5061/dryad.1nq8md7 https://datadryad.org/stash/dataset/doi:10.5061/dryad.1nq8md7 en eng Dryad https://dx.doi.org/10.1111/evo.13815 Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 Equus zebra Tupaia glis Erythrocebus patas Macropus robustus Dendrohyrax arboreus Dromiciops gliroides Cervical vertebrae Eumetopias jubatus Petaurus breviceps Tadarida brasiliensis Hystrix cristata Trichechus manatus Cervus elaphus Manis pentadactyla Giraffa camelopardalis Phoca vitulina Antilocapra americana Myocastor coypus Sorex bendirii Orycteropus afer Tamandua tetradactyla Martes pennanti Sarcophilus harrisii Trichosurus caninus Lepus americanus Rhinolophus ferrumequinum Hipposideros dinops Didelphis virginiana Erethizon dorsatum Suricata suricatta Galago senegalensis Dipodomys microps Spherical harmonics analysis Phascolarctos cinereus Canis lupus Atelerix albiventris Puma concolor Geocapromys ingrahami Potorous tridactylus Bison bison Ochotona princeps Berardius bairdii Acrobates pygmaeus Tachyglossus aculeatus Myoprocta pratti Emballonura semicaudata Octodon degus Symphalangus syndactylus Chinchilla lanigera Saimiri sciureus Dataset dataset 2019 ftdatacite https://doi.org/10.5061/dryad.1nq8md710.1111/evo.13815 2024-01-05T04:39:59Z Mammals flex, extend, and rotate their spines as they perform behaviors critical for survival, such as foraging, consuming prey, locomoting, and interacting with conspecifics or predators. The atlas-axis complex is a mammalian innovation that allows precise head movements during these behaviors. While morphological variation in other vertebral regions has been linked to ecological differences in mammals, less is known about morphological specialization in the cervical vertebrae, which are developmentally constrained in number but highly variable in size and shape. Here, we present the first phylogenetic comparative study of the atlas-axis complex across mammals. We used spherical harmonics to quantify 3D shape variation of the atlas and axis across a diverse sample of species, and performed phylogenetic analyses to investigate if vertebral shape is associated with body size, locomotion, and diet. We found that differences in atlas and axis shape are partly explained by phylogeny, and that mammalian subclades ... : ATLAS stls pre-analysisSTL files of atlas vertebrae for all species. Meshes are watertight (transverse foramina and vertebral foramina have been filled), smoothed, and reduced to 20k triangles in preparation for spherical harmonics analysis.AXIS stls pre-analysisSTL files of axis vertebrae for all species. Meshes are watertight (transverse foramina and vertebral foramina have been filled), smoothed, and reduced to 20k triangles in preparation for spherical harmonics analysis.ATLAS landmarksLandmark files for all specimens used for registration of 3D atlas meshes in spherical harmonics analysis.AXIS landmarksLandmark files for all specimens used for registration of 3D axis meshes in spherical harmonics analysis.SPHARM_coefficients_centroidsThis folder contains csv files with the output of the spherical harmonics analyses for both atlas and axis datasets, including spherical harmonics coefficients and centroid sizes of all models prior to resizing.SPHARM_PCA_PGLS_analysis_5-21-2019This file contains the R code ... Dataset Canis lupus Phoca vitulina DataCite Metadata Store (German National Library of Science and Technology)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Equus zebra
Tupaia glis
Erythrocebus patas
Macropus robustus
Dendrohyrax arboreus
Dromiciops gliroides
Cervical vertebrae
Eumetopias jubatus
Petaurus breviceps
Tadarida brasiliensis
Hystrix cristata
Trichechus manatus
Cervus elaphus
Manis pentadactyla
Giraffa camelopardalis
Phoca vitulina
Antilocapra americana
Myocastor coypus
Sorex bendirii
Orycteropus afer
Tamandua tetradactyla
Martes pennanti
Sarcophilus harrisii
Trichosurus caninus
Lepus americanus
Rhinolophus ferrumequinum
Hipposideros dinops
Didelphis virginiana
Erethizon dorsatum
Suricata suricatta
Galago senegalensis
Dipodomys microps
Spherical harmonics analysis
Phascolarctos cinereus
Canis lupus
Atelerix albiventris
Puma concolor
Geocapromys ingrahami
Potorous tridactylus
Bison bison
Ochotona princeps
Berardius bairdii
Acrobates pygmaeus
Tachyglossus aculeatus
Myoprocta pratti
Emballonura semicaudata
Octodon degus
Symphalangus syndactylus
Chinchilla lanigera
Saimiri sciureus
spellingShingle Equus zebra
Tupaia glis
Erythrocebus patas
Macropus robustus
Dendrohyrax arboreus
Dromiciops gliroides
Cervical vertebrae
Eumetopias jubatus
Petaurus breviceps
Tadarida brasiliensis
Hystrix cristata
Trichechus manatus
Cervus elaphus
Manis pentadactyla
Giraffa camelopardalis
Phoca vitulina
Antilocapra americana
Myocastor coypus
Sorex bendirii
Orycteropus afer
Tamandua tetradactyla
Martes pennanti
Sarcophilus harrisii
Trichosurus caninus
Lepus americanus
Rhinolophus ferrumequinum
Hipposideros dinops
Didelphis virginiana
Erethizon dorsatum
Suricata suricatta
Galago senegalensis
Dipodomys microps
Spherical harmonics analysis
Phascolarctos cinereus
Canis lupus
Atelerix albiventris
Puma concolor
Geocapromys ingrahami
Potorous tridactylus
Bison bison
Ochotona princeps
Berardius bairdii
Acrobates pygmaeus
Tachyglossus aculeatus
Myoprocta pratti
Emballonura semicaudata
Octodon degus
Symphalangus syndactylus
Chinchilla lanigera
Saimiri sciureus
Vander Linden, Abby
Campbell, Kristin M
Bryar, Erin K
Santana, Sharlene E
Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ...
topic_facet Equus zebra
Tupaia glis
Erythrocebus patas
Macropus robustus
Dendrohyrax arboreus
Dromiciops gliroides
Cervical vertebrae
Eumetopias jubatus
Petaurus breviceps
Tadarida brasiliensis
Hystrix cristata
Trichechus manatus
Cervus elaphus
Manis pentadactyla
Giraffa camelopardalis
Phoca vitulina
Antilocapra americana
Myocastor coypus
Sorex bendirii
Orycteropus afer
Tamandua tetradactyla
Martes pennanti
Sarcophilus harrisii
Trichosurus caninus
Lepus americanus
Rhinolophus ferrumequinum
Hipposideros dinops
Didelphis virginiana
Erethizon dorsatum
Suricata suricatta
Galago senegalensis
Dipodomys microps
Spherical harmonics analysis
Phascolarctos cinereus
Canis lupus
Atelerix albiventris
Puma concolor
Geocapromys ingrahami
Potorous tridactylus
Bison bison
Ochotona princeps
Berardius bairdii
Acrobates pygmaeus
Tachyglossus aculeatus
Myoprocta pratti
Emballonura semicaudata
Octodon degus
Symphalangus syndactylus
Chinchilla lanigera
Saimiri sciureus
description Mammals flex, extend, and rotate their spines as they perform behaviors critical for survival, such as foraging, consuming prey, locomoting, and interacting with conspecifics or predators. The atlas-axis complex is a mammalian innovation that allows precise head movements during these behaviors. While morphological variation in other vertebral regions has been linked to ecological differences in mammals, less is known about morphological specialization in the cervical vertebrae, which are developmentally constrained in number but highly variable in size and shape. Here, we present the first phylogenetic comparative study of the atlas-axis complex across mammals. We used spherical harmonics to quantify 3D shape variation of the atlas and axis across a diverse sample of species, and performed phylogenetic analyses to investigate if vertebral shape is associated with body size, locomotion, and diet. We found that differences in atlas and axis shape are partly explained by phylogeny, and that mammalian subclades ... : ATLAS stls pre-analysisSTL files of atlas vertebrae for all species. Meshes are watertight (transverse foramina and vertebral foramina have been filled), smoothed, and reduced to 20k triangles in preparation for spherical harmonics analysis.AXIS stls pre-analysisSTL files of axis vertebrae for all species. Meshes are watertight (transverse foramina and vertebral foramina have been filled), smoothed, and reduced to 20k triangles in preparation for spherical harmonics analysis.ATLAS landmarksLandmark files for all specimens used for registration of 3D atlas meshes in spherical harmonics analysis.AXIS landmarksLandmark files for all specimens used for registration of 3D axis meshes in spherical harmonics analysis.SPHARM_coefficients_centroidsThis folder contains csv files with the output of the spherical harmonics analyses for both atlas and axis datasets, including spherical harmonics coefficients and centroid sizes of all models prior to resizing.SPHARM_PCA_PGLS_analysis_5-21-2019This file contains the R code ...
format Dataset
author Vander Linden, Abby
Campbell, Kristin M
Bryar, Erin K
Santana, Sharlene E
author_facet Vander Linden, Abby
Campbell, Kristin M
Bryar, Erin K
Santana, Sharlene E
author_sort Vander Linden, Abby
title Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ...
title_short Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ...
title_full Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ...
title_fullStr Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ...
title_full_unstemmed Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ...
title_sort data from: head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex ...
publisher Dryad
publishDate 2019
url https://dx.doi.org/10.5061/dryad.1nq8md7
https://datadryad.org/stash/dataset/doi:10.5061/dryad.1nq8md7
genre Canis lupus
Phoca vitulina
genre_facet Canis lupus
Phoca vitulina
op_relation https://dx.doi.org/10.1111/evo.13815
op_rights Creative Commons Zero v1.0 Universal
https://creativecommons.org/publicdomain/zero/1.0/legalcode
cc0-1.0
op_doi https://doi.org/10.5061/dryad.1nq8md710.1111/evo.13815
_version_ 1789964455120994304

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