Proportions and function of the limbs of glyptodonts
Identifieur interne : 004564 ( Main/Exploration ); précédent : 004563; suivant : 004565Proportions and function of the limbs of glyptodonts
Auteurs : Sergio F. Vizcaíno [Australie] ; R. Ernesto Blanco [Australie] ; J. Benjamín Bender [Australie] ; Nick Milne [Australie]Source :
- Lethaia [ 0024-1164 ] ; 2011-03.
Descripteurs français
- Wicri :
- geographic : Argentine.
English descriptors
- KwdEn :
- Argentina, Armadillo, Armoured tail, Australis, Bargo, Bipedal, Bipedal posture, Blanco, Body mass, Body mass estimations, Body masses, Body size, Body weight, Buenos aires province, Carapace, Centre, Clavicaudatus, Doedicurus, Doedicurus clavicaudatus, Early miocene, Farina, Femur, Forelimb, Fossorial, Fossorial ability, Generalized diggers, Glyptodon, Glyptodon reticulatus, Glyptodont, Glyptodont limbs, Glyptodonts, Ground sloths, Hindlimb, Humeral, Humeral length, Humerus, Late holocene, Lethaia, Limb, Limb bones, Limb proportion indices, Limb proportions, Locomotion, Mammal, Mammalia, Mechanical advantage, Milne, Miocene, Neosclerocalyptus, Neosclerocalyptus ornatus, Olecranon, Olecranon length, Ornatus, Pampean formation, Panochthus, Panochthus tuberculatus, Plata, Pleistocene, Propalaehoplophorus, Propalaehoplophorus australis, Proximal femoral length, Proximal humeral length, Reticulatus, Scale model, Scale models, Sloth, Specialized diggers, Strength indicators, Tuberculatus, Xenarthra.
- Teeft :
- Argentina, Armadillo, Armoured tail, Australis, Bargo, Bipedal, Bipedal posture, Blanco, Body mass, Body mass estimations, Body masses, Body size, Body weight, Buenos aires province, Carapace, Centre, Clavicaudatus, Doedicurus, Doedicurus clavicaudatus, Early miocene, Farina, Femur, Forelimb, Fossorial, Fossorial ability, Generalized diggers, Glyptodon, Glyptodon reticulatus, Glyptodont, Glyptodont limbs, Glyptodonts, Ground sloths, Hindlimb, Humeral, Humeral length, Humerus, Late holocene, Lethaia, Limb, Limb bones, Limb proportion indices, Limb proportions, Locomotion, Mammal, Mammalia, Mechanical advantage, Milne, Miocene, Neosclerocalyptus, Neosclerocalyptus ornatus, Olecranon, Olecranon length, Ornatus, Pampean formation, Panochthus, Panochthus tuberculatus, Plata, Pleistocene, Propalaehoplophorus, Propalaehoplophorus australis, Proximal femoral length, Proximal humeral length, Reticulatus, Scale model, Scale models, Sloth, Specialized diggers, Strength indicators, Tuberculatus, Xenarthra.
Abstract
Vizcaíno, S.F., Blanco, R.E., Bender, J.B. & Milne, N. 2010: Proportions and function of the limbs of glyptodonts. Lethaia, Vol. 44, pp. 93–101. This study examines the limb bone proportions and strength of glyptodonts (Xenarthra, Cingulata). Two methods are used to estimate the body mass and location of the centre of gravity of the articulated specimens. These estimates, together with measurements of the femur and humerus, are used to calculate strength indicators (SI). The other long bones of the limbs are used to calculate limb proportion indices that give an indication of digging ability, speed, and limb dominance in armadillos, the glyptodonts’ living closest relatives. The results show that regardless of how the body mass and centre of gravity are calculated, the majority of the glyptodont’s weight is borne by the hindlimbs. The SI calculations show that femora are sturdy enough to bear these loads. The fact that the femora have higher SI than the humerii indicates that sometimes the hindlimbs are required to bear an even greater proportion of the body weight, possibly when rising to a bipedal posture or pivoting on their hindlimbs to deliver a blow with their armoured tail. The analysis of limb proportions indicates that both the hindlimb and the forelimb have proportions that correlate strongly with body mass. This outcome supports the other results, but also shows that forelimbs must be also involved in manoeuvring the glyptodont body. □Glyptodonts, Mammalia, Xenarthra, limbs, strength indicators.
Url:
DOI: 10.1111/j.1502-3931.2010.00228.x
Affiliations:
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Benjamín Bender</name><affiliation wicri:level="1"><country xml:lang="fr" wicri:curation="lc">Australie</country><wicri:regionArea>Sergio F. Vizcaíno [vizcaino@fcnym.unlp.edu.ar], División Paleontología Vertebrados, Museo de La Plata, Paseo del Bosque s/n, B1900FWA La Plata, Argentina, CONICET; R. Ernesto Blanco [ernesto@fisica.edu.uy], Instituto de Física, Facultad de Ciencias, Iguá 4225, 11400 Montevideo, Uruguay; Benjamin Bender [jbbender@mendoza‐conicet.gov.ar], Museo de Ciencias Naturales José Lorca, Liceo Agrícola y Enológico – Universidad Nacional de Cuyo, Av. San Francisco de Asis s/n, Parque San Martín, Mendoza 5500 Argentina; Nick Milne [milne@anhb.uwa.edu.au], School of Anatomy and Human Biology</wicri:regionArea><wicri:noRegion>School of Anatomy and Human Biology</wicri:noRegion></affiliation></author><author><name sortKey="Milne, Nick" sort="Milne, Nick" uniqKey="Milne N" first="Nick" last="Milne">Nick Milne</name><affiliation wicri:level="1"><country xml:lang="fr" wicri:curation="lc">Australie</country><wicri:regionArea>Sergio F. Vizcaíno [vizcaino@fcnym.unlp.edu.ar], División Paleontología Vertebrados, Museo de La Plata, Paseo del Bosque s/n, B1900FWA La Plata, Argentina, CONICET; R. Ernesto Blanco [ernesto@fisica.edu.uy], Instituto de Física, Facultad de Ciencias, Iguá 4225, 11400 Montevideo, Uruguay; Benjamin Bender [jbbender@mendoza‐conicet.gov.ar], Museo de Ciencias Naturales José Lorca, Liceo Agrícola y Enológico – Universidad Nacional de Cuyo, Av. San Francisco de Asis s/n, Parque San Martín, Mendoza 5500 Argentina; Nick Milne [milne@anhb.uwa.edu.au], School of Anatomy and Human Biology</wicri:regionArea><wicri:noRegion>School of Anatomy and Human Biology</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Lethaia</title><title level="j" type="alt">LETHAIA</title><idno type="ISSN">0024-1164</idno><idno type="eISSN">1502-3931</idno><imprint><biblScope unit="vol">44</biblScope><biblScope unit="issue">1</biblScope><biblScope unit="page" from="93">93</biblScope><biblScope unit="page" to="101">101</biblScope><biblScope unit="page-count">9</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2011-03">2011-03</date></imprint><idno type="ISSN">0024-1164</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0024-1164</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Argentina</term><term>Armadillo</term><term>Armoured tail</term><term>Australis</term><term>Bargo</term><term>Bipedal</term><term>Bipedal posture</term><term>Blanco</term><term>Body mass</term><term>Body mass estimations</term><term>Body masses</term><term>Body size</term><term>Body weight</term><term>Buenos aires province</term><term>Carapace</term><term>Centre</term><term>Clavicaudatus</term><term>Doedicurus</term><term>Doedicurus clavicaudatus</term><term>Early miocene</term><term>Farina</term><term>Femur</term><term>Forelimb</term><term>Fossorial</term><term>Fossorial ability</term><term>Generalized diggers</term><term>Glyptodon</term><term>Glyptodon reticulatus</term><term>Glyptodont</term><term>Glyptodont limbs</term><term>Glyptodonts</term><term>Ground sloths</term><term>Hindlimb</term><term>Humeral</term><term>Humeral length</term><term>Humerus</term><term>Late holocene</term><term>Lethaia</term><term>Limb</term><term>Limb bones</term><term>Limb proportion indices</term><term>Limb proportions</term><term>Locomotion</term><term>Mammal</term><term>Mammalia</term><term>Mechanical advantage</term><term>Milne</term><term>Miocene</term><term>Neosclerocalyptus</term><term>Neosclerocalyptus ornatus</term><term>Olecranon</term><term>Olecranon length</term><term>Ornatus</term><term>Pampean formation</term><term>Panochthus</term><term>Panochthus tuberculatus</term><term>Plata</term><term>Pleistocene</term><term>Propalaehoplophorus</term><term>Propalaehoplophorus australis</term><term>Proximal femoral length</term><term>Proximal humeral length</term><term>Reticulatus</term><term>Scale model</term><term>Scale models</term><term>Sloth</term><term>Specialized diggers</term><term>Strength indicators</term><term>Tuberculatus</term><term>Xenarthra</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Argentina</term><term>Armadillo</term><term>Armoured tail</term><term>Australis</term><term>Bargo</term><term>Bipedal</term><term>Bipedal posture</term><term>Blanco</term><term>Body mass</term><term>Body mass estimations</term><term>Body masses</term><term>Body size</term><term>Body weight</term><term>Buenos aires province</term><term>Carapace</term><term>Centre</term><term>Clavicaudatus</term><term>Doedicurus</term><term>Doedicurus clavicaudatus</term><term>Early miocene</term><term>Farina</term><term>Femur</term><term>Forelimb</term><term>Fossorial</term><term>Fossorial ability</term><term>Generalized diggers</term><term>Glyptodon</term><term>Glyptodon reticulatus</term><term>Glyptodont</term><term>Glyptodont limbs</term><term>Glyptodonts</term><term>Ground sloths</term><term>Hindlimb</term><term>Humeral</term><term>Humeral length</term><term>Humerus</term><term>Late holocene</term><term>Lethaia</term><term>Limb</term><term>Limb bones</term><term>Limb proportion indices</term><term>Limb proportions</term><term>Locomotion</term><term>Mammal</term><term>Mammalia</term><term>Mechanical advantage</term><term>Milne</term><term>Miocene</term><term>Neosclerocalyptus</term><term>Neosclerocalyptus ornatus</term><term>Olecranon</term><term>Olecranon length</term><term>Ornatus</term><term>Pampean formation</term><term>Panochthus</term><term>Panochthus tuberculatus</term><term>Plata</term><term>Pleistocene</term><term>Propalaehoplophorus</term><term>Propalaehoplophorus australis</term><term>Proximal femoral length</term><term>Proximal humeral length</term><term>Reticulatus</term><term>Scale model</term><term>Scale models</term><term>Sloth</term><term>Specialized diggers</term><term>Strength indicators</term><term>Tuberculatus</term><term>Xenarthra</term></keywords><keywords scheme="Wicri" type="geographic" xml:lang="fr"><term>Argentine</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Vizcaíno, S.F., Blanco, R.E., Bender, J.B. & Milne, N. 2010: Proportions and function of the limbs of glyptodonts. Lethaia, Vol. 44, pp. 93–101. This study examines the limb bone proportions and strength of glyptodonts (Xenarthra, Cingulata). Two methods are used to estimate the body mass and location of the centre of gravity of the articulated specimens. These estimates, together with measurements of the femur and humerus, are used to calculate strength indicators (SI). The other long bones of the limbs are used to calculate limb proportion indices that give an indication of digging ability, speed, and limb dominance in armadillos, the glyptodonts’ living closest relatives. The results show that regardless of how the body mass and centre of gravity are calculated, the majority of the glyptodont’s weight is borne by the hindlimbs. The SI calculations show that femora are sturdy enough to bear these loads. The fact that the femora have higher SI than the humerii indicates that sometimes the hindlimbs are required to bear an even greater proportion of the body weight, possibly when rising to a bipedal posture or pivoting on their hindlimbs to deliver a blow with their armoured tail. The analysis of limb proportions indicates that both the hindlimb and the forelimb have proportions that correlate strongly with body mass. This outcome supports the other results, but also shows that forelimbs must be also involved in manoeuvring the glyptodont body. □Glyptodonts, Mammalia, Xenarthra, limbs, strength indicators.</div></front></TEI><affiliations><list><country><li>Australie</li></country></list><tree><country name="Australie"><noRegion><name sortKey="Vizcaino, Sergio F" sort="Vizcaino, Sergio F" uniqKey="Vizcaino S" first="Sergio F." last="Vizcaíno">Sergio F. Vizcaíno</name></noRegion><name sortKey="Bender, J Benjamin" sort="Bender, J Benjamin" uniqKey="Bender J" first="J. Benjamín" last="Bender">J. Benjamín Bender</name><name sortKey="Blanco, R Ernesto" sort="Blanco, R Ernesto" uniqKey="Blanco R" first="R. Ernesto" last="Blanco">R. Ernesto Blanco</name><name sortKey="Milne, Nick" sort="Milne, Nick" uniqKey="Milne N" first="Nick" last="Milne">Nick Milne</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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