Structure and Motion Lab, The Royal Veterinary College, Hatfield, United Kingdom.
Elife. 2017 Sep 14;6:e29495. doi: 10.7554/eLife.29495.
Quadrupeds, like most bipeds, tend to walk with an even left/right footfall timing. However, the phasing between hind and forelimbs shows considerable variation. Here, we account for this variation by modeling and explaining the influence of hind-fore limb phasing on mechanical work requirements. These mechanics account for the different strategies used by: (1) slow animals (a group including crocodile, tortoise, hippopotamus and some babies); (2) normal medium to large mammals; and (3) (with an appropriate minus sign) sloths undertaking suspended locomotion across a range of speeds. While the unusual hind-fore phasing of primates does not match global work minimizing predictions, it does approach an only slightly more costly local minimum. Phases predicted to be particularly costly have not been reported in nature.
四足动物与大多数两足动物一样,往往以均匀的左右脚步进行行走。然而,后肢和前肢之间的相位表现出相当大的变化。在这里,我们通过建模和解释后肢-前肢相位对机械工作要求的影响来考虑这种变化。这些力学解释了不同策略的使用原因:(1)缓慢的动物(包括鳄鱼、乌龟、河马和一些婴儿的一组);(2)正常的中大型哺乳动物;和(3)(适当的负号)树懒以各种速度进行悬挂式运动。虽然灵长类动物不同寻常的后肢-前肢相位不符合全局最小化工作的预测,但它确实接近一个稍微更昂贵的局部最小值。在自然界中还没有报告预测到相位特别昂贵的情况。
