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Literature DB >> 1887661

Elastic mechanisms in primate locomotion.

Abstract

Tendons that stretch elastically and recoil, as the forces on them rise and fall, can save energy in running by enabling the animal to make do with shorter or slower muscle fascicles, that can generate force more economically. Non-human primates have rather long fascicles and thick tendons in their distal leg muscles and so seem poorly adapted to save energy in this way. Additional savings are made possible by the elastic compliance of ligaments in the foot. Though tendon and ligament compliance tend to save energy, the compliance of branches tends to increase the energy cost of arboreal locomotion.

Entities: Species

Mesh：

Year: 1991 PMID： 1887661

Source DB: PubMed Journal: Z Morphol Anthropol ISSN： 0044-314X

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Cited

15 in total

Elastic mechanisms in primate locomotion.

1. The role of the extrinsic thoracic limb muscles in equine locomotion.

2. Structure-function relationships in tendons: a review.

3. Athletic footwear, leg stiffness, and running kinematics.

4. [Tenocytes and the extracellular matrix : a reciprocal relationship].

5. The role of the extrinsic thoracic limb muscles in equine locomotion.

6. Morphological analysis of the hindlimb in apes and humans. I. Muscle architecture.

7. Orangutans use compliant branches to lower the energetic cost of locomotion.

8. Functional analysis of the foot and ankle myology of gibbons and bonobos.

9. Orangutans employ unique strategies to control branch flexibility.

10. Factors affecting the compliance and sway properties of tree branches used by the Sumatran orangutan (Pongo abelii).