石斛蛙的生理热龛位、海拔范围和热应力:综合方法

IF 3.4 2区 环境科学与生态学 Q2 ECOLOGY Journal of Biogeography Pub Date : 2024-05-07 DOI:10.1111/jbi.14860
Pol Pintanel, Miguel Tejedo, Agustín Camacho, Urtzi Enriquez-Urzelai, Gustavo A. Llorente, Andrés Merino-Viteri
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引用次数: 0

摘要

目的我们采用一种综合方法,结合热生理学、环境温度建模以及对当前和未来暴露于热变化的预测评估,研究了九种密切相关的石斛蛙在水生阶段的热生理学、海拔分布和热应力之间的关系。方法我们确定了每个物种幼体生长的热性能曲线(TPCs),并模拟了当前和未来不同水生幼体环境中的热变化。结果我们发现,最适温度(Topt)、50%最高表现温度(maxB50)、50%最低表现温度(minB50)和抗寒性(9°C存活率)与当前的海拔分布之间存在显著相关性。然而,热生理学预测高海拔石斛类的分布低于观测值,而低地物种的最高海拔高于观测值。尽管如此,我们的模型预测,即使考虑到最极端的情况,低热变异栖息地(即溪流和永久性深池塘)也能缓冲所有分类群未来的温度上升。与此相反,在高热变异栖息地(疏林临时池塘)中的所有物种在目前条件下都将经历紧张的温度。高地物种可能需要适应次优表现,而一些低地物种可以占据更高的海拔。这项研究强调了生境缓冲的重要性,以减轻热带山区两栖动物在面对气候变化时的热应力。
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Physiological thermal niches, elevational ranges and thermal stress in dendrobatid frogs: An integrated approach

Aim

We investigated the relationship between thermal physiology, elevational distribution and thermal stress among nine closely related dendrobatid frogs during their aquatic stage by employing an integrated approach, combining thermal physiology, environmental temperature modelling and predictive assessments of current and future exposure to thermal variation.

Location

Ecuador.

Taxon

Amphibians; Anura, Dendrobatidae, Epipedobates, Hyloxalus.

Methods

We determined the thermal performance curves (TPCs) of larval growth for each species and modelled the thermal variation in contrasting aquatic larval environments for both present and future times. This allowed us to estimate the expected elevational distributions and forecast periods of exposure to stressful temperatures that inhibit larval growth due to elevation and global warming.

Results

We found significant correlations between optimum temperature (Topt), 50% maximum performance temperature (maxB50), 50% minimum performance temperature (minB50) and cold resistance (survival at 9°C) with the current elevational distributions. However, thermal physiology predicted lower than observed distributions for high-elevation dendrobatids and higher than observed maximum elevations for lowland species. Nonetheless, our models predicted that low thermal variability habitats (i.e. streams and deep permanent ponds) can buffer the future temperature increase for all taxa, even when considering the most extreme scenario. In contrast, all species within high thermal variation habitats (open forest temporary ponds) are expected to experience stressful temperatures under present conditions.

Main Conclusions

The findings indicate that thermal physiology may not be a limiting factor for dendrobatid frog species' ranges in this equatorial mountain gradient. Highland species may need to adapt to suboptimal performance, while some lowland species could occupy higher elevations. This study emphasizes the importance of habitat buffering to mitigate thermal stress in the face of climate change for amphibians in tropical mountains.

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来源期刊
Journal of Biogeography
Journal of Biogeography 环境科学-生态学
CiteScore
7.70
自引率
5.10%
发文量
203
审稿时长
2.2 months
期刊介绍: Papers dealing with all aspects of spatial, ecological and historical biogeography are considered for publication in Journal of Biogeography. The mission of the journal is to contribute to the growth and societal relevance of the discipline of biogeography through its role in the dissemination of biogeographical research.
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Issue Information Cover Species Distribution Models for Mesopelagic Mesozooplankton Community Issue Information Cover
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