Exploring the Relationship between Skeletal Mass and Total Body Mass in Birds

Total body mass (TBM) is known to be related to a number of different osteological features in vertebrates, including limb element measurements and total skeletal mass. The relationship between skeletal mass and TBM in birds has been suggested as a way of estimating the latter in cases where only th...

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Veröffentlicht in:	PloS one 2015-10, Vol.10 (10), p.e0141794-e0141794
Hauptverfasser:	Martin-Silverstone, Elizabeth, Vincze, Orsolya, McCann, Ria, Jonsson, Carl H W, Palmer, Colin, Kaiser, Gary, Dyke, Gareth
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Animals Biocompatibility Biomedical materials Birds Birds - anatomy & histology Birds - classification Birds - genetics Body mass Body mass index Body Weight Bone mass Bones Correlation analysis Data processing Datasets Dinosaurs Earth science Endangered & extinct species Estimation Evolution Extinction Female Fossils Male Multivariate analysis Museums Ontogeny Organ Size Paleontology Phylogenetics Phylogeny Physiological aspects Sex Factors Skeleton Skeleton - anatomy & histology Studies Tomography Vertebrates Zoology
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creator	Martin-Silverstone, Elizabeth Vincze, Orsolya McCann, Ria Jonsson, Carl H W Palmer, Colin Kaiser, Gary Dyke, Gareth
description	Total body mass (TBM) is known to be related to a number of different osteological features in vertebrates, including limb element measurements and total skeletal mass. The relationship between skeletal mass and TBM in birds has been suggested as a way of estimating the latter in cases where only the skeleton is known (e.g., fossils). This relationship has thus also been applied to other extinct vertebrates, including the non-avian pterosaurs, while other studies have used additional skeletal correlates found in modern birds to estimate TBM. However, most previous studies have used TBM compiled from the literature rather than from direct measurements, producing values from population averages rather than from individuals. Here, we report a new dataset of 487 extant birds encompassing 79 species that have skeletal mass and TBM recorded at the time of collection or preparation. We combine both historical and new data for analyses with phylogenetic control and find a similar and well-correlated relationship between skeletal mass and TBM. Thus, we confirm that TBM and skeletal mass are accurate proxies for estimating one another. We also look at other factors that may have an effect on avian body mass, including sex, ontogenetic stage, and flight mode. While data are well-correlated in all cases, phylogeny is a major control on TBM in birds strongly suggesting that this relationship is not appropriate for estimating the total mass of taxa outside of crown birds, Neornithes (e.g., non-avian dinosaurs, pterosaurs). Data also reveal large variability in both bird skeletal and TBM within single species; caution should thus be applied when using published mass to test direct correlations with skeletal mass and bone lengths.
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subjects	Analysis Animals Biocompatibility Biomedical materials Birds Birds - anatomy & histology Birds - classification Birds - genetics Body mass Body mass index Body Weight Bone mass Bones Correlation analysis Data processing Datasets Dinosaurs Earth science Endangered & extinct species Estimation Evolution Extinction Female Fossils Male Multivariate analysis Museums Ontogeny Organ Size Paleontology Phylogenetics Phylogeny Physiological aspects Sex Factors Skeleton Skeleton - anatomy & histology Studies Tomography Vertebrates Zoology
title	Exploring the Relationship between Skeletal Mass and Total Body Mass in Birds
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