Physiological and morphological traits affect contemporary range expansion and implications for species distribution modelling in an amphibian species.

IF 3.5 1区 环境科学与生态学 Q1 ECOLOGY Journal of Animal Ecology Pub Date : 2024-10-27 DOI:10.1111/1365-2656.14212
Owen M Edwards, Lu Zhai, Michael S Reichert, Ciaran A Shaughnessy, Logan Ozment, Bo Zhang
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Abstract

Species range shifts due to climate alterations have been increasingly well-documented. Although amphibians are one of the most sensitive groups of animals to environmental perturbations due to climate change, almost no studies have offered evidence of poleward distribution shifts in this taxon in response to climate warming. Range shifts would be facilitated by variation in traits associated with the ability of species to persist and/or shift their range in the face of climate change, but the extent and consequences of intraspecific variation in these traits is unclear. We studied the role of intraspecific variation in the ongoing range shift of green treefrogs (Hyla cinerea) in response to climate change. We explored factors that are often associated with range shifts to test the hypothesis that there are differences in these traits between recently range-expanded and nearby historical populations. We then tested the consequences of intraspecific variation for modelling climate-induced range shifts by comparing species distribution models (SDMs) that used as input either data from the entire species range or separate inputs from 'subpopulations' corresponding to the historical range or the recently expanded range. We expected that building a separate SDM for each population would more accurately characterize the species range if historical and expanded populations differed in traits related to their response to climate. We found that critical thermal minimum decreased and thermal breadth increased with latitude, but the effect of latitude was significantly stronger for expanded populations compared to historical populations. Additionally, we found that individuals from expanded populations had longer leg lengths when compared to their historical counterparts. Finally, we found higher model accuracy for one of the population-level SDMs than the species-level SDM. Our results suggest that thermal tolerance and dispersal morphologies are associated with amphibian distributional shifts as these characteristics appear to facilitate rapid range expansion of a native anuran. Additionally, our modelling results emphasize that SDM accuracy could be improved by dividing a species range to consider potential differences in traits associated with climate responses. Future research should identify the mechanisms underlying intraspecific variation along climate gradients to continue improving SDM prediction of range shifts under climate change.

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一种两栖动物的生理和形态特征影响其当代分布范围的扩大及其对物种分布模型的影响。
气候改变导致的物种分布范围变化已被越来越多地记录在案。虽然两栖动物是对气候变化造成的环境干扰最敏感的动物群体之一,但几乎没有任何研究提供了该类群因气候变暖而发生极地分布转移的证据。物种在面对气候变化时持续生存和/或转移其分布范围的能力的相关性状的变异将促进分布范围的转移,但这些性状的种内变异的程度和后果尚不清楚。我们研究了种内变异在绿树蛙(Hyla cinerea)为应对气候变化而进行的持续范围转移中所起的作用。我们探究了通常与分布区迁移相关的因素,以验证近期分布区扩大的种群与附近历史种群在这些特征上存在差异的假设。然后,我们通过比较物种分布模型(SDMs),测试了种内变异对模拟气候引起的分布区转移的影响,这些模型的输入数据要么来自整个物种分布区,要么来自与历史分布区或最近扩大的分布区相对应的 "亚种群"。我们预计,如果历史种群和扩展种群在对气候的响应特征方面存在差异,那么为每个种群建立单独的物种分布模型将更准确地描述物种分布范围。我们发现,临界最低温度随纬度的增加而降低,热广度随纬度的增加而增加,但与历史种群相比,纬度对扩展种群的影响明显更强。此外,我们还发现,与历史种群相比,扩大种群中的个体腿长更长。最后,我们发现其中一个种群水平SDM的模型准确性高于物种水平SDM。我们的研究结果表明,热耐受性和扩散形态与两栖动物的分布变迁有关,因为这些特征似乎有助于本地无尾类动物迅速扩大分布范围。此外,我们的建模结果还强调,可以通过划分物种范围来考虑与气候响应相关的潜在特征差异,从而提高SDM的准确性。未来的研究应确定气候梯度下种内差异的内在机制,以继续改进气候变化下物种分布区迁移的 SDM 预测。
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来源期刊
Journal of Animal Ecology
Journal of Animal Ecology 环境科学-动物学
CiteScore
9.10
自引率
4.20%
发文量
188
审稿时长
3 months
期刊介绍: Journal of Animal Ecology publishes the best original research on all aspects of animal ecology, ranging from the molecular to the ecosystem level. These may be field, laboratory and theoretical studies utilising terrestrial, freshwater or marine systems.
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