Disentangling Mechanical and Sensory Modules in the Radiation of Noctilionoid Bats.

IF 2.4 2区 环境科学与生态学 Q2 ECOLOGY American Naturalist Pub Date : 2023-08-01 DOI:10.1086/725368
Gregory L Mutumi, Ronald P Hall, Brandon P Hedrick, Laurel R Yohe, Alexa Sadier, Kalina T J Davies, Stephen J Rossiter, Karen E Sears, Liliana M Dávalos, Elizabeth R Dumont
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Abstract

AbstractWith diverse mechanical and sensory functions, the vertebrate cranium is a complex anatomical structure whose shifts between modularity and integration, especially in mechanical function, have been implicated in adaptive diversification. Yet how mechanical and sensory systems and their functions coevolve, as well as how their interrelationship contributes to phenotypic disparity, remain largely unexplored. To examine the modularity, integration, and evolutionary rates of sensory and mechanical structures within the head, we analyzed hard and soft tissue scans from ecologically diverse bats in the superfamily Noctilionoidea, a clade that ranges from insectivores and carnivores to frugivores and nectarivores. We identified eight regions that evolved in a coordinated fashion, thus recognizable as evolutionary modules: five associated with bite force and three linked to olfactory, visual, and auditory systems. Interrelationships among these modules differ between Neotropical leaf-nosed bats (family Phyllostomidae) and other noctilionoids. Consistent with the hypothesis that dietary transitions begin with changes in the capacity to detect novel food items followed by adaptations to process them, peak rates of sensory module evolution predate those of some mechanical modules. We propose that the coevolution of structures influencing bite force, olfaction, vision, and hearing constituted a structural opportunity that allowed the phyllostomid ancestor to take advantage of existing ecological opportunities and contributed to the clade's remarkable radiation.

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夜光类蝙蝠辐射中机械和感觉模块的解开。
摘要脊椎动物头盖骨是一个复杂的解剖结构,具有多样的机械和感觉功能,其从模块化到集成化的转变,特别是在机械功能上的转变,与适应性多样化有关。然而,机械和感觉系统及其功能如何共同进化,以及它们之间的相互关系如何导致表型差异,在很大程度上仍未得到探索。为了研究头部感觉和机械结构的模块化、整合和进化速度,我们分析了生态多样化的蝙蝠超科Noctilionoidea的硬组织和软组织扫描,该分支包括食虫和食肉动物、食果动物和食蜜动物。我们确定了八个区域以协调的方式进化,因此可以识别为进化模块:五个与咬合力有关,三个与嗅觉、视觉和听觉系统有关。这些模块之间的相互关系在新热带叶鼻蝙蝠(叶鼻蝠科)和其他夜蝠类之间有所不同。与饮食转变开始于检测新食物的能力的变化,然后是适应处理它们的假设相一致,感觉模块进化的峰值速率早于一些机械模块的进化。我们认为,影响咬合力、嗅觉、视觉和听觉的结构的共同进化构成了一个结构机会,使层状目祖先能够利用现有的生态机会,并促成了进化支的显著辐射。
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来源期刊
American Naturalist
American Naturalist 环境科学-进化生物学
CiteScore
5.40
自引率
3.40%
发文量
194
审稿时长
3 months
期刊介绍: Since its inception in 1867, The American Naturalist has maintained its position as one of the world''s premier peer-reviewed publications in ecology, evolution, and behavior research. Its goals are to publish articles that are of broad interest to the readership, pose new and significant problems, introduce novel subjects, develop conceptual unification, and change the way people think. AmNat emphasizes sophisticated methodologies and innovative theoretical syntheses—all in an effort to advance the knowledge of organic evolution and other broad biological principles.
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