The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans

The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans

The mammalian pelvis is thought to exhibit adaptations to the functional demands of locomotor behaviors. Previous work in primates has identified form-function relationships between pelvic shape and locomotor behavior; few studies have documented such relationships in carnivorans, instead focusing o...

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Main Authors: Kristi L. Lewton, Ryan Brankovic, William A. Byrd, Daniela Cruz, Jocelyn Morales, Serin Shin
Format: Article
Language:English
Published: PeerJ Inc. 2020-02-01
Series:PeerJ
Subjects:
3D geometric morphometrics
Pelvis
Functional morphology
Anatomy
Scaling
Phylogenetic comparative methods
Online Access:https://peerj.com/articles/8574.pdf
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spelling doaj-d755d48eb6454406b8b22c2a9f3d48de2020-11-25T01:30:13ZengPeerJ Inc.PeerJ2167-83592020-02-018e857410.7717/peerj.8574The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivoransKristi L. Lewton0Ryan Brankovic1William A. Byrd2Daniela Cruz3Jocelyn Morales4Serin Shin5Department of Integrative Anatomical Sciences, University of Southern California, Los Angeles, CA, United States of AmericaDepartment of Biological Sciences, University of Southern California, Los Angeles, CA, United States of AmericaDepartment of Integrative Anatomical Sciences, University of Southern California, Los Angeles, CA, United States of AmericaDepartment of Biological Sciences, University of Southern California, Los Angeles, CA, United States of AmericaDepartment of Biological Sciences, University of Southern California, Los Angeles, CA, United States of AmericaNorth Hollywood High School, North Hollywood, CA, United States of AmericaThe mammalian pelvis is thought to exhibit adaptations to the functional demands of locomotor behaviors. Previous work in primates has identified form-function relationships between pelvic shape and locomotor behavior; few studies have documented such relationships in carnivorans, instead focusing on long bones. Most work on the functional morphology of the carnivoran pelvis, in particular, has used univariate measures, with only a few previous studies incorporating a three-dimensional (3D) analysis. Here we test the hypothesis that carnivoran taxa that are characterized by different locomotor modes also differ in 3D shape of the os coxae. Using 3D geometric morphometrics and phylogenetic comparative methods, we evaluate the phylogenetic, functional, and size-related effects on 3D pelvis shape in a sample of 33 species of carnivorans. Using surface models derived from laser scans, we collected a suite of landmarks (N = 24) and curve semilandmarks (N = 147). Principal component analysis on Procrustes coordinates demonstrates patterns of shape change in the ischiopubis and ilium likely related to allometry. Phylogenetic generalized least squares analysis on principal component scores demonstrates that phylogeny and body size have greater effects on pelvic shape than locomotor function. Our results corroborate recent research finding little evidence of locomotor specialization in the pelvis of carnivorans. More research on pelvic morphological integration and evolvability is necessary to understand the factors driving pelvic evolution in carnivorans.https://peerj.com/articles/8574.pdf3D geometric morphometricsPelvisFunctional morphologyAnatomyScalingPhylogenetic comparative methods
collection DOAJ
language English
format Article
sources DOAJ
author Kristi L. Lewton
Ryan Brankovic
William A. Byrd
Daniela Cruz
Jocelyn Morales
Serin Shin
spellingShingle Kristi L. Lewton
Ryan Brankovic
William A. Byrd
Daniela Cruz
Jocelyn Morales
Serin Shin
The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans
PeerJ
3D geometric morphometrics
Pelvis
Functional morphology
Anatomy
Scaling
Phylogenetic comparative methods
author_facet Kristi L. Lewton
Ryan Brankovic
William A. Byrd
Daniela Cruz
Jocelyn Morales
Serin Shin
author_sort Kristi L. Lewton
title The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans
title_short The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans
title_full The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans
title_fullStr The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans
title_full_unstemmed The effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans
title_sort effects of phylogeny, body size, and locomotor behavior on the three-dimensional shape of the pelvis in extant carnivorans
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2020-02-01
description The mammalian pelvis is thought to exhibit adaptations to the functional demands of locomotor behaviors. Previous work in primates has identified form-function relationships between pelvic shape and locomotor behavior; few studies have documented such relationships in carnivorans, instead focusing on long bones. Most work on the functional morphology of the carnivoran pelvis, in particular, has used univariate measures, with only a few previous studies incorporating a three-dimensional (3D) analysis. Here we test the hypothesis that carnivoran taxa that are characterized by different locomotor modes also differ in 3D shape of the os coxae. Using 3D geometric morphometrics and phylogenetic comparative methods, we evaluate the phylogenetic, functional, and size-related effects on 3D pelvis shape in a sample of 33 species of carnivorans. Using surface models derived from laser scans, we collected a suite of landmarks (N = 24) and curve semilandmarks (N = 147). Principal component analysis on Procrustes coordinates demonstrates patterns of shape change in the ischiopubis and ilium likely related to allometry. Phylogenetic generalized least squares analysis on principal component scores demonstrates that phylogeny and body size have greater effects on pelvic shape than locomotor function. Our results corroborate recent research finding little evidence of locomotor specialization in the pelvis of carnivorans. More research on pelvic morphological integration and evolvability is necessary to understand the factors driving pelvic evolution in carnivorans.
topic 3D geometric morphometrics
Pelvis
Functional morphology
Anatomy
Scaling
Phylogenetic comparative methods
url https://peerj.com/articles/8574.pdf
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