Body mass estimation in armoured mammals: cautions and encouragements for the use of parameters from the appendicular skeleton

A. R. Biknevicius

doi:10.1111/j.1469-7998.1999.tb01194.x

Abstract

This study explores the relationship between body mass and femoral construction in armoured (dasypodids and manids) and unarmoured (caviomorph rodents) mammals. Predictive equations based on diaphyseal cross-sectional parameters provided the most accurate estimates of body mass in caviomorph rodents and dasypodids. When these equations are applied to the estimation of body mass in manids, relatively low predictive errors (<20%) are found only when caviomorph equations derived with diaphyseal cross-sectional area or moments of area are used. Dasypodid equations generally yield less accurate estimates for manids, so that armouring of the integument alone poorly discriminates femoral types. Other factors with potential to differentially impact femoral construction are also considered: although locomotor speed strongly influences mass–structure relationships within caviomorph rodents, the confounding influence of locomotor posture, fossoriality, and arboreality render these relationships less predictable across all three groups considered here. Limb structure and, hence, scaling patterns of each phylogenetic group are influenced by a unique mosaic of factors that is difficult to summarize quantitatively. The results of the study provide cautions as well as encouragements for the estimation of body mass for fossil species that have no adaptively similar living relatives.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Lammers, Andrew R. Dziech, Heather A. and German, Rebecca Z. 2001. ONTOGENY OF SEXUAL DIMORPHISM INCHINCHILLA LANIGERA(RODENTIA: CHINCHILLIDAE). Journal of Mammalogy, Vol. 82, Issue. 1, p. 179.

Vizcaíno, S. F. and Milne, N. 2002. Structure and function in armadillo limbs (Mammalia: Xenarthra: Dasypodidae). Journal of Zoology, Vol. 257, Issue. 1, p. 117.

Smith, Richard J. 2002. Estimation of Body Mass in Paleontology. Journal of Human Evolution, Vol. 43, Issue. 2, p. 271.

Lammers, Andrew R. and German, Rebecca Z. 2002. Ontogenetic allometry in the locomotor skeleton of specialized half‐bounding mammals. Journal of Zoology, Vol. 258, Issue. 4, p. 485.

Ruff, Christopher B. 2003. Long bone articular and diaphyseal structure in Old World monkeys and apes. II: Estimation of body mass. American Journal of Physical Anthropology, Vol. 120, Issue. 1, p. 16.

CHRISTIANSEN, PER 2004. Body size in proboscideans, with notes on elephant metabolism. Zoological Journal of the Linnean Society, Vol. 140, Issue. 4, p. 523.

Elissamburu, A. and Vizcaíno, S. F. 2004. Limb proportions and adaptations in caviomorph rodents (Rodentia: Caviomorpha). Journal of Zoology, Vol. 262, Issue. 2, p. 145.

Christiansen, P. and Fariña †, R.A. 2004. Mass Prediction in Theropod Dinosaurs. Historical Biology, Vol. 16, Issue. 2-4, p. 85.

Anyonge, William and Roman, Chris 2006. New body mass estimates forCanis dirus, the extinct Pleistocene dire wolf. Journal of Vertebrate Paleontology, Vol. 26, Issue. 1, p. 209.

De Esteban‐Trivigno, Soledad Mendoza, Manuel and De Renzi, Miquel 2008. Body mass estimation in xenarthra: A predictive equation suitable for all quadrupedal terrestrial placentals?. Journal of Morphology, Vol. 269, Issue. 10, p. 1276.

Meachen-Samuels, Julie 2010. Comparative Scaling of Humeral Cross-Sections of Felids and Canids Using Radiographic Images. Journal of Mammalian Evolution, Vol. 17, Issue. 3, p. 193.

Bover, Pere Alcover, Josep A. Michaux, Jacques J. Hautier, Lionel Hutterer, Rainer and Goswami, Anjali 2010. Body Shape and Life Style of the Extinct Balearic Dormouse Hypnomys (Rodentia, Gliridae): New Evidence from the Study of Associated Skeletons. PLoS ONE, Vol. 5, Issue. 12, p. e15817.

Vizcaíno, Sergio F. Blanco, R. Ernesto Bender, J. Benjamín and Milne, Nick 2011. Proportions and function of the limbs of glyptodonts. Lethaia, Vol. 44, Issue. 1, p. 93.

Elissamburu, A. and de Santis, L. 2011. Forelimb proportions and fossorial adaptations in the scratch-digging rodentCtenomys(Caviomorpha). Journal of Mammalogy, Vol. 92, Issue. 3, p. 683.

Elissamburu, A. 2012. Estimación de la masa corporal en géneros del Orden Notoungulata. Estudios Geológicos, Vol. 68, Issue. 1, p. 91.

Martin-Silverstone, Elizabeth Vincze, Orsolya McCann, Ria Jonsson, Carl H. W. Palmer, Colin Kaiser, Gary Dyke, Gareth and Mousseau, Tim A. 2015. Exploring the Relationship between Skeletal Mass and Total Body Mass in Birds. PLOS ONE, Vol. 10, Issue. 10, p. e0141794.

Serrano, Francisco José Palmqvist, Paul and Sanz, José Luis 2015. Multivariate analysis of neognath skeletal measurements: implications for body mass estimation in Mesozoic birds. Zoological Journal of the Linnean Society, Vol. 173, Issue. 4, p. 929.

Hopkins, Samantha S. B. 2018. Methods in Paleoecology. p. 7.

Yapuncich, Gabriel S. 2018. Alternative methods for calculating percentage prediction error and their implications for predicting body mass in fossil taxa. Journal of Human Evolution, Vol. 115, Issue. , p. 140.

Perea, Daniel Toriño, Pablo and Ghizzoni, Martín 2019. First endoskeletal remains ofNeuryurus(Xenarthra, Glyptodontidae), an emended diagnosis of the genus, and body mass estimations. Journal of Vertebrate Paleontology, Vol. 39, Issue. 4, p. e1668400.

Download full list

Article contents

Body mass estimation in armoured mammals: cautions and encouragements for the use of parameters from the appendicular skeleton

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Body mass estimation in armoured mammals: cautions and encouragements for the use of parameters from the appendicular skeleton

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests