Biomechanical and morphological determinants of maximal jumping performance in callitrichine monkeys.

IF 2.8 2区 生物学 Q2 BIOLOGY Journal of Experimental Biology Pub Date : 2024-09-15 Epub Date: 2024-09-30 DOI:10.1242/jeb.247413
Grégoire Boulinguez-Ambroise, Doug M Boyer, Noah T Dunham, Gabriel S Yapuncich, Madison Bradley-Cronkwright, Angel Zeininger, Daniel Schmitt, Jesse W Young
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Abstract

Jumping is a crucial behavior in fitness-critical activities including locomotion, resource acquisition, courtship displays and predator avoidance. In primates, paleontological evidence suggests selection for enhanced jumping ability during their early evolution. However, our interpretation of the fossil record remains limited, as no studies have explicitly linked levels of jumping performance with interspecific skeletal variation. We used force platform analyses to generate biomechanical data on maximal jumping performance in three genera of callitrichine monkeys falling along a continuum of jumping propensity: Callimico (relatively high propensity jumper), Saguinus (intermediate jumping propensity) and Callithrix (relatively low propensity jumper). Individuals performed vertical jumps to perches of increasing height within a custom-built tower. We coupled performance data with high-resolution micro-CT data quantifying bony features thought to reflect jumping ability. Levels of maximal performance between species - e.g. maximal take-off velocity of the center of mass (CoM) - parallel established gradients of jumping propensity. Both biomechanical analysis of jumping performance determinants (e.g. CoM displacement, maximal force production and peak mechanical power during push-off) and multivariate analyses of bony hindlimb morphology highlight different mechanical strategies among taxa. For instance, Callimico, which has relatively long hindlimbs, followed a strategy of fully extending of the limbs to maximize CoM displacement - rather than force production - during push-off. In contrast, relatively shorter-limbed Callithrix depended mostly on relatively high push-off forces. Overall, these results suggest that leaping performance is at least partially associated with correlated anatomical and behavioral adaptations, suggesting the possibility of improving inferences about performance in the fossil record.

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茧猴最大跳跃能力的生物力学和形态学决定因素
跳跃是运动、获取资源、求偶表演和躲避捕食者等对身体健康至关重要的活动中的一种关键行为。在灵长类动物中,古生物学证据表明,在其早期进化过程中,跳跃能力的增强是一种选择。然而,我们对化石记录的解读仍然有限,因为还没有研究明确地将跳跃能力水平与种间骨骼变异联系起来。我们利用力平台分析,得出了三个属的胼胝猴最大跳跃能力的生物力学数据,这些属的胼胝猴具有连续的跳跃倾向:Callimico(相对高跳跃倾向)、Saguinus(中等跳跃倾向)和Callithrix(相对低跳跃倾向)。个体在一个定制的塔内进行垂直跳跃,栖木高度不断增加。我们将成绩数据与高分辨率μCT数据相结合,量化了被认为反映跳跃能力的骨骼特征。不同物种之间的最大表现水平--例如质量中心(CoM)的最大起飞速度--与已确定的跳跃倾向梯度平行。对跳跃能力决定因素的生物力学分析(如CoM位移、最大力的产生、推起时的峰值机械力)和后肢骨骼形态的多变量分析都突显了不同类群之间不同的机械策略。例如,后肢相对较长的卡利米科(Callimico)采取的策略是充分伸展四肢,以最大限度地提高推起时的CoM位移,而不是产生力。相比之下,肢体相对较短的 Callithrix 则主要依靠相对较高的推力。总之,这些结果表明,跳跃能力至少部分地与相关的解剖学和行为适应有关,这表明有可能从化石记录中更好地推断跳跃能力。
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来源期刊
CiteScore
5.50
自引率
10.70%
发文量
494
审稿时长
1 months
期刊介绍: Journal of Experimental Biology is the leading primary research journal in comparative physiology and publishes papers on the form and function of living organisms at all levels of biological organisation, from the molecular and subcellular to the integrated whole animal.
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