Christiansen, Per (2007): Long-bone geometry in columnar-limbed animals: allometry of the proboscidean appendicular skeleton. Zoological Journal of the Linnean Society 149 (3): 423-436, DOI: 10.1111/j.1096-3642.2007.00249.x, URL: https://academic.oup.com/zoolinnean/article-lookup/doi/10.1111/j.1096-3642.2007.00249.
Morphometry of the long bones of the forelimbs and hindlimbs were studied in Yankassa sheep and Red ...
The limb bones of an elephant are considered to experience similar peak locomotory stresses as a shr...
Christiansen, Per (2004): Body size in proboscideans, with notes on elephant metabolism. Zoological ...
A novel metric comparison of the appendicular skeleton (fore and hind limb) of different vertebrate...
A natural similarity in body dimensions of terrestrial animals noticed by ancient philosophers remai...
<p>Three-dimensional reconstruction from micro-CT scans of the six limb long bones at P40. The longi...
Comparative studies of body mass, cortical bone geometry, and preferred crystallographic orientation...
International audienceDue to its completeness, the A.L. 288-1 (‘Lucy’) skeleton has long served as t...
Fig. 1. Shaft's cross-sectional shape of P. esculentus long bones: А — humeral; B — forearm; C — fem...
International audienceComparative studies of body mass, cortical bone geometry, and preferred crysta...
Background: The shape of the appendicular bones in mammals usually reflects adaptations towards diff...
<p>Multivariate regressions obtained from the PIC Procrustes coordinates (Pco) against the PIC log-c...
This thesis deals with the structure of equine limb bones. The initial study determined the relative...
We investigated patterns of evolutionary integration in the appendicular skeleton of mammalian carni...
International audienceThe appendicular skeleton of tetrapods is a particularly integrated structure ...
Morphometry of the long bones of the forelimbs and hindlimbs were studied in Yankassa sheep and Red ...
The limb bones of an elephant are considered to experience similar peak locomotory stresses as a shr...
Christiansen, Per (2004): Body size in proboscideans, with notes on elephant metabolism. Zoological ...
A novel metric comparison of the appendicular skeleton (fore and hind limb) of different vertebrate...
A natural similarity in body dimensions of terrestrial animals noticed by ancient philosophers remai...
<p>Three-dimensional reconstruction from micro-CT scans of the six limb long bones at P40. The longi...
Comparative studies of body mass, cortical bone geometry, and preferred crystallographic orientation...
International audienceDue to its completeness, the A.L. 288-1 (‘Lucy’) skeleton has long served as t...
Fig. 1. Shaft's cross-sectional shape of P. esculentus long bones: А — humeral; B — forearm; C — fem...
International audienceComparative studies of body mass, cortical bone geometry, and preferred crysta...
Background: The shape of the appendicular bones in mammals usually reflects adaptations towards diff...
<p>Multivariate regressions obtained from the PIC Procrustes coordinates (Pco) against the PIC log-c...
This thesis deals with the structure of equine limb bones. The initial study determined the relative...
We investigated patterns of evolutionary integration in the appendicular skeleton of mammalian carni...
International audienceThe appendicular skeleton of tetrapods is a particularly integrated structure ...
Morphometry of the long bones of the forelimbs and hindlimbs were studied in Yankassa sheep and Red ...
The limb bones of an elephant are considered to experience similar peak locomotory stresses as a shr...
Christiansen, Per (2004): Body size in proboscideans, with notes on elephant metabolism. Zoological ...
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