A user's guide for understanding reptile and amphibian hydroregulation and climate change impacts

Nicholas C. Wu; Rodolfo O. Anderson; Amaël Borzée; Shannon Buttimer; Mathias Dezetter; Shahar Dubiner; Quan Heng Li; Carlos A. Navas; Daniel Sánchez-Ochoa; Jennifer A. Sheridan; Swapnil A. Shewale; Bao Jun Sun; Sunil J. Suryawanshi; Jia Huan Wang; Rafael P. Bovo

doi:10.1093/conphys/coaf038

A user's guide for understanding reptile and amphibian hydroregulation and climate change impacts

Nicholas C. Wu, Rodolfo O. Anderson, Amaël Borzée, Shannon Buttimer, Mathias Dezetter, Shahar Dubiner, Quan Heng Li, Carlos A. Navas, Daniel Sánchez-Ochoa, Jennifer A. Sheridan, Swapnil A. Shewale, Bao Jun Sun, Sunil J. Suryawanshi, Jia Huan Wang, Rafael P. Bovo

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Human impacts on ecosystems have intensified variation in water variability for terrestrial life, thus challenging the maintenance of water balance, or hydroregulation. The accelerated development and accessibility of technologies and computational models over the past decade have enabled researchers to predict changes in animal hydroregulation and environmental water with greater spatial and temporal precision. Focusing on reptiles and amphibians, we discuss current methods, limitations and advances for quantifying ecologically relevant metrics of environmental water stressors and organismal responses to both acute and long-term water stress that are applicable for conservation and management. We also highlight approaches that integrate environmental water data with an organism’s water balance and physiological, behavioural and life history traits to predict the limits of species’ responses and assess their vulnerability to climate change. Finally, we outline promising future directions and opportunities in hydroregulation studies with a conservation focus, including broader inferences about acclimation responses, linking gene expression to functional changes, and exploring inter- and transgenerational plasticity and adaptive evolution. Advances in these fields will facilitate more accurate assessments of species’ capacities and the limits of hydroregulation in response to a more variable and unpredictable future climate.

Original language	English
Article number	coaf038
Journal	Conservation Physiology
Volume	13
Issue number	1
DOIs	https://doi.org/10.1093/conphys/coaf038
Publication status	Published - 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© The Author(s) 2025. Published by Oxford University Press and the Society for Experimental Biology.

Keywords

Dehydration
drought
ectotherm
exposure
sensitivity
vulnerability
water balance

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1093/conphys/coaf038

Cite this

Wu, N. C., Anderson, R. O., Borzée, A., Buttimer, S., Dezetter, M., Dubiner, S., Li, Q. H., Navas, C. A., Sánchez-Ochoa, D., Sheridan, J. A., Shewale, S. A., Sun, B. J., Suryawanshi, S. J., Wang, J. H., & Bovo, R. P. (2025). A user's guide for understanding reptile and amphibian hydroregulation and climate change impacts. Conservation Physiology, 13(1), Article coaf038. https://doi.org/10.1093/conphys/coaf038

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abstract = "Human impacts on ecosystems have intensified variation in water variability for terrestrial life, thus challenging the maintenance of water balance, or hydroregulation. The accelerated development and accessibility of technologies and computational models over the past decade have enabled researchers to predict changes in animal hydroregulation and environmental water with greater spatial and temporal precision. Focusing on reptiles and amphibians, we discuss current methods, limitations and advances for quantifying ecologically relevant metrics of environmental water stressors and organismal responses to both acute and long-term water stress that are applicable for conservation and management. We also highlight approaches that integrate environmental water data with an organism{\textquoteright}s water balance and physiological, behavioural and life history traits to predict the limits of species{\textquoteright} responses and assess their vulnerability to climate change. Finally, we outline promising future directions and opportunities in hydroregulation studies with a conservation focus, including broader inferences about acclimation responses, linking gene expression to functional changes, and exploring inter- and transgenerational plasticity and adaptive evolution. Advances in these fields will facilitate more accurate assessments of species{\textquoteright} capacities and the limits of hydroregulation in response to a more variable and unpredictable future climate.",

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Wu, NC, Anderson, RO, Borzée, A, Buttimer, S, Dezetter, M, Dubiner, S, Li, QH, Navas, CA, Sánchez-Ochoa, D, Sheridan, JA, Shewale, SA, Sun, BJ, Suryawanshi, SJ, Wang, JH & Bovo, RP 2025, 'A user's guide for understanding reptile and amphibian hydroregulation and climate change impacts', Conservation Physiology, vol. 13, no. 1, coaf038. https://doi.org/10.1093/conphys/coaf038

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AU - Wu, Nicholas C.

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AU - Borzée, Amaël

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AU - Dezetter, Mathias

AU - Dubiner, Shahar

AU - Li, Quan Heng

AU - Navas, Carlos A.

AU - Sánchez-Ochoa, Daniel

AU - Sheridan, Jennifer A.

AU - Shewale, Swapnil A.

AU - Sun, Bao Jun

AU - Suryawanshi, Sunil J.

AU - Wang, Jia Huan

AU - Bovo, Rafael P.

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AB - Human impacts on ecosystems have intensified variation in water variability for terrestrial life, thus challenging the maintenance of water balance, or hydroregulation. The accelerated development and accessibility of technologies and computational models over the past decade have enabled researchers to predict changes in animal hydroregulation and environmental water with greater spatial and temporal precision. Focusing on reptiles and amphibians, we discuss current methods, limitations and advances for quantifying ecologically relevant metrics of environmental water stressors and organismal responses to both acute and long-term water stress that are applicable for conservation and management. We also highlight approaches that integrate environmental water data with an organism’s water balance and physiological, behavioural and life history traits to predict the limits of species’ responses and assess their vulnerability to climate change. Finally, we outline promising future directions and opportunities in hydroregulation studies with a conservation focus, including broader inferences about acclimation responses, linking gene expression to functional changes, and exploring inter- and transgenerational plasticity and adaptive evolution. Advances in these fields will facilitate more accurate assessments of species’ capacities and the limits of hydroregulation in response to a more variable and unpredictable future climate.

KW - Dehydration

KW - drought

KW - ectotherm

KW - exposure

KW - sensitivity

KW - vulnerability

KW - water balance

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DO - 10.1093/conphys/coaf038

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SN - 2051-1434

VL - 13

JO - Conservation Physiology

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ER -

A user's guide for understanding reptile and amphibian hydroregulation and climate change impacts

Abstract

Bibliographical note

Keywords

UN SDGs

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