Linking morphology, performance, and habitat utilization: adaptation across biologically relevant 'levels' in tamarins.

IF 2.3 Q2 ECOLOGY BMC ecology and evolution Pub Date : 2024-02-14 DOI:10.1186/s12862-023-02193-z
Patricia Berles, Jan Wölfer, Fabio Alfieri, Léo Botton-Divet, Jean-Pascal Guéry, John A Nyakatura
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Abstract

Background: Biological adaptation manifests itself at the interface of different biologically relevant 'levels', such as ecology, performance, and morphology. Integrated studies at this interface are scarce due to practical difficulties in study design. We present a multilevel analysis, in which we combine evidence from habitat utilization, leaping performance and limb bone morphology of four species of tamarins to elucidate correlations between these 'levels'.

Results: We conducted studies of leaping behavior in the field and in a naturalistic park and found significant differences in support use and leaping performance. Leontocebus nigrifrons leaps primarily on vertical, inflexible supports, with vertical body postures, and covers greater leaping distances on average. In contrast, Saguinus midas and S. imperator use vertical and horizontal supports for leaping with a relatively similar frequency. S. mystax is similar to S. midas and S. imperator in the use of supports, but covers greater leaping distances on average, which are nevertheless shorter than those of L. nigrifrons. We assumed these differences to be reflected in the locomotor morphology, too, and compared various morphological features of the long bones of the limbs. According to our performance and habitat utilization data, we expected the long bone morphology of L. nigrifrons to reflect the largest potential for joint torque generation and stress resistance, because we assume longer leaps on vertical supports to exert larger forces on the bones. For S. mystax, based on our performance data, we expected the potential for torque generation to be intermediate between L. nigrifrons and the other two Saguinus species. Surprisingly, we found S. midas and S. imperator having relatively more robust morphological structures as well as relatively larger muscle in-levers, and thus appearing better adapted to the stresses involved in leaping than the other two.

Conclusion: This study demonstrates the complex ways in which behavioral and morphological 'levels' map onto each other, cautioning against oversimplification of ecological profiles when using large interspecific eco-morphological studies to make adaptive evolutionary inferences.

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将形态、表现和栖息地利用联系起来:狨猴跨生物相关 "层次 "的适应。
背景:生物适应性体现在不同生物相关 "层次 "的界面上,如生态学、性能和形态学。由于研究设计方面的实际困难,对这一界面的综合研究很少。我们进行了一项多层次分析,结合了四种狨猴的栖息地利用、跳跃表现和肢骨形态学证据,以阐明这些 "层次 "之间的相关性:结果:我们在野外和自然公园对跳跃行为进行了研究,发现它们在支持物利用和跳跃表现方面存在显著差异。Leontocebus nigrifrons 主要在垂直、不灵活的支撑物上跳跃,身体姿势垂直,平均跳跃距离更远。相比之下,Saguinus midas和S. imperator使用垂直和水平支撑物跳跃的频率相对接近。S.mystax在使用支撑物方面与S.midas和S.imperator相似,但平均跳跃距离更大,但比L.nigrifrons更短。我们假定这些差异也反映在运动形态上,并比较了四肢长骨的各种形态特征。根据我们的表现和栖息地利用数据,我们预计黑腹长尾雉的长骨形态反映了产生关节扭矩和抗应力的最大潜力,因为我们假定在垂直支撑物上的跳跃时间更长,对骨骼施加的力更大。对于 S. mystax,根据我们的表现数据,我们预计其产生扭矩的潜力介于 L. nigrifrons 和其他两个 Saguinus 种类之间。令人惊讶的是,我们发现S. midas和S. imperator的形态结构相对更强壮,肌肉内倾也相对更大,因此似乎比其他两个物种更能适应跳跃时的压力:本研究证明了行为和形态 "水平 "相互映射的复杂方式,提醒人们在利用大型种间生态形态研究进行适应性进化推断时,不要过度简化生态概况。
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