Elastic mechanisms in primate locomotion.

Zeitschrift fur Morphologie und Anthropologie Pub Date : 1991-01-01
R M Alexander
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引用次数: 0

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.

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灵长类动物运动的弹性机制。
当施加在肌腱上的力上升或下降时,腱会有弹性地拉伸和后坐力,从而使动物能够适应更短或更慢的肌肉束,从而节省跑步时的能量,从而更经济地产生力量。非人类灵长类动物在其小腿远端肌肉中有相当长的肌束和粗大的肌腱,因此似乎不太适应以这种方式储存能量。额外的节省是由于足部韧带的弹性依从性。虽然肌腱和韧带的顺应性倾向于节省能量,但分支的顺应性倾向于增加树木运动的能量成本。
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Zeitschrift fur Morphologie und Anthropologie
Zeitschrift fur Morphologie und Anthropologie
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