Climbing and Clinging of Urban Lizards are Differentially Affected by Morphology, Temperature, and Substrate.

IF 2.2 4区 生物学 Q2 BIOLOGY
P L Vaughn, C Colwell, E H Livingston, W McQueen, C Pettit, S Spears, L Tuhela, E J Gangloff
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Abstract

Urbanization alters the environment along many dimensions, including changes to structural habitat and thermal regimes. These can present challenges, but may also provide suitable habitat for certain species. Importantly, the functional implications of these habitat shifts can be assessed through the morphology-performance-fitness paradigm, though these relationships are complicated by interactions among habitat choice, other abiotic factors, and morphology across scales (i.e., micromorphology and gross anatomy). The common wall lizard (Podarcis muralis) is one example of a cosmopolitan and successful urban colonizer. Quantifying both shifts in morphology over time and morphology-performance relationships under various ecological contexts can provide insight into the success of species in a novel environment. To examine how morphological variation influences performance, we measured seven gross morphological characteristics and utilized scanning electron microscopy to obtain high-resolution images of a claw from individuals living in established populations in Cincinnati, Ohio, USA. We used a geometric morphometric approach to describe variation in claw shape and then compared the claws of contemporary lizards to those of museum specimens collected approximately 40 years ago, finding that claw morphology has not shifted over this time. We then performed laboratory experiments to measure the clinging and climbing performance of lizards on materials that mimic ecologically relevant substrates. Each individual was tested for climbing performance on two substrates (cork and turf) and clinging performance on three substrates (cork, turf, and sandpaper) and at two temperatures (24ºC and 34ºC). Clinging performance was temperature insensitive, but determined by substrate-specific interactions between body dimensions and claw morphology. Conversely, the main determinant of climbing performance was temperature, though lizards with more elongate claws, as described by the primary axis of variation in claw morphology, climbed faster. Additionally, we found strong evidence for within-individual trade-offs between performance measures such that individuals who are better at clinging are worse at climbing and vice versa. These results elucidate the complex interactions shaping organismal performance in different contexts and may provide insight into how certain species are able to colonize novel urban environments.

Abstract Image

Abstract Image

Abstract Image

形态、温度和基质对城市蜥蜴攀爬和攀附的影响存在差异。
城市化在许多方面改变了环境,包括结构性栖息地和热制度的变化。这些可能会带来挑战,但也可能为某些物种提供合适的栖息地。重要的是,这些栖息地变化的功能含义可以通过形态-性能-适应性范式进行评估,尽管这些关系由于栖息地选择、其他非生物因素和跨尺度形态学(即微观形态学和总体解剖学)之间的相互作用而变得复杂。常见的壁虎(壁蜥)是一个国际化和成功的城市殖民者的例子。量化形态随时间的变化以及不同生态环境下形态与表现的关系,可以深入了解物种在新环境中的成功。为了研究形态变化如何影响表现,我们测量了7个大体形态特征,并利用扫描电子显微镜获得了生活在美国俄亥俄州辛辛那提市已建立种群的个体爪子的高分辨率图像。我们使用几何形态计量学方法来描述爪子形状的变化,然后将当代蜥蜴的爪子与大约40年前收集的博物馆标本进行比较,发现爪子形态在这段时间内并没有发生变化。然后,我们进行了实验室实验,以测量蜥蜴在模拟生态相关基质的材料上的附着和攀爬性能。在两种温度(24ºC和34ºC)下测试每个个体在两种基材(软木和草皮)上的攀爬性能和在三种基材(软木、草皮和砂纸)上的附着性能。附着性能对温度不敏感,但由身体尺寸和爪子形态之间的基材特异性相互作用决定。相反,爬行能力的主要决定因素是温度,尽管爪子更长的蜥蜴,正如爪子形态变化的主轴所描述的那样,爬得更快。此外,我们还发现了强有力的证据,证明在个人内部的表现衡量标准之间存在权衡,比如,善于攀爬的人就不善于攀爬,反之亦然。这些结果阐明了在不同环境下形成生物体性能的复杂相互作用,并可能为某些物种如何能够在新的城市环境中定居提供见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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