Scaling from individual physiological measures to population-level demographic change: Case studies and future directions for conservation management

Loss of biodiversity is a leading conservation issue and, accordingly, a central topic in ecological research is to predict how organisms respond to natural and anthropogenic environmental stressors. Proactive conservation science involves management strategies that rely on early identification and...

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Published in:Biological Conservation
Main Authors: Bergman, J.N. (Jordanna N.), Bennett, J.R. (Joseph R.), Binley, A.D. (Allison D.), Cooke, S.J. (Steven), Fyson, V. (Vincent), Hlina, B.L. (Benjamin L.), Reid, C.H. (Connor H.), Vala, M.A. (Michelle A.), Madliger, C.L. (Christine L.)
Format: Other/Unknown Material
Language:English
Published: 2019
Subjects:
Adaptive management
Conservation physiology
Conservation science
Context-dependent
Environmental monitoring
Population dynamics
Common Murre
Online Access:https://ir.library.carleton.ca/pub/25178
https://doi.org/10.1016/j.biocon.2019.108242
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spelling ftcarletonunivir:oai:carleton.ca:25178 2023-05-15T15:56:04+02:00 Scaling from individual physiological measures to population-level demographic change: Case studies and future directions for conservation management Bergman, J.N. (Jordanna N.) Bennett, J.R. (Joseph R.) Binley, A.D. (Allison D.) Cooke, S.J. (Steven) Fyson, V. (Vincent) Hlina, B.L. (Benjamin L.) Reid, C.H. (Connor H.) Vala, M.A. (Michelle A.) Madliger, C.L. (Christine L.) 2019-10-01 https://ir.library.carleton.ca/pub/25178 https://doi.org/10.1016/j.biocon.2019.108242 en eng https://ir.library.carleton.ca/pub/25178 doi:10.1016/j.biocon.2019.108242 Biological Conservation vol. 238 Adaptive management Conservation physiology Conservation science Context-dependent Environmental monitoring Population dynamics info:eu-repo/semantics/other 2019 ftcarletonunivir https://doi.org/10.1016/j.biocon.2019.108242 2022-02-06T21:51:03Z Loss of biodiversity is a leading conservation issue and, accordingly, a central topic in ecological research is to predict how organisms respond to natural and anthropogenic environmental stressors. Proactive conservation science involves management strategies that rely on early identification and monitoring of threats before demographic instability is reached and may provide a more cost- and time-effective method for managing risks in an increasingly uncertain world. Using physiological measurements to predict organismal responses to environmental perturbations has historically been uncommon in the wild, despite the promise they hold as a tool to support management decisions. We provide an overview of interdisciplinary research that investigates environmental variation in conjunction with physiological processes to understand, and potentially predict, population-level demographic responses, which we refer to as Environment-Physiology-Demography, or EPD, studies. Using four EPD case studies (common murre, Cape mountain zebra, Daphnia magna, and common lizard) of the 29 we discovered during our literature review, we demonstrate how physiological biomarkers can be used as indicators of population change and/or stability to aid resource managers in the decision-making process. Of the 29 EPD studies we found, 72% were successful in connecting physiology to both an environmental and demographic change. Further, we outline geographic, taxonomic, and physiological biases observed across EPD studies, and the importance of considering the context-dependency of physiological traits when linking them to environmental variation and demographic processes. We encourage researchers to consider the EPD approach when investigating if and how the responses of individuals to environmental stressors translate into population-level consequences. Other/Unknown Material Common Murre Carleton University's Institutional Repository Biological Conservation 238 108242
institution Open Polar
collection Carleton University's Institutional Repository
op_collection_id ftcarletonunivir
language English
topic Adaptive management
Conservation physiology
Conservation science
Context-dependent
Environmental monitoring
Population dynamics
spellingShingle Adaptive management
Conservation physiology
Conservation science
Context-dependent
Environmental monitoring
Population dynamics
Bergman, J.N. (Jordanna N.)
Bennett, J.R. (Joseph R.)
Binley, A.D. (Allison D.)
Cooke, S.J. (Steven)
Fyson, V. (Vincent)
Hlina, B.L. (Benjamin L.)
Reid, C.H. (Connor H.)
Vala, M.A. (Michelle A.)
Madliger, C.L. (Christine L.)
Scaling from individual physiological measures to population-level demographic change: Case studies and future directions for conservation management
topic_facet Adaptive management
Conservation physiology
Conservation science
Context-dependent
Environmental monitoring
Population dynamics
description Loss of biodiversity is a leading conservation issue and, accordingly, a central topic in ecological research is to predict how organisms respond to natural and anthropogenic environmental stressors. Proactive conservation science involves management strategies that rely on early identification and monitoring of threats before demographic instability is reached and may provide a more cost- and time-effective method for managing risks in an increasingly uncertain world. Using physiological measurements to predict organismal responses to environmental perturbations has historically been uncommon in the wild, despite the promise they hold as a tool to support management decisions. We provide an overview of interdisciplinary research that investigates environmental variation in conjunction with physiological processes to understand, and potentially predict, population-level demographic responses, which we refer to as Environment-Physiology-Demography, or EPD, studies. Using four EPD case studies (common murre, Cape mountain zebra, Daphnia magna, and common lizard) of the 29 we discovered during our literature review, we demonstrate how physiological biomarkers can be used as indicators of population change and/or stability to aid resource managers in the decision-making process. Of the 29 EPD studies we found, 72% were successful in connecting physiology to both an environmental and demographic change. Further, we outline geographic, taxonomic, and physiological biases observed across EPD studies, and the importance of considering the context-dependency of physiological traits when linking them to environmental variation and demographic processes. We encourage researchers to consider the EPD approach when investigating if and how the responses of individuals to environmental stressors translate into population-level consequences.
format Other/Unknown Material
author Bergman, J.N. (Jordanna N.)
Bennett, J.R. (Joseph R.)
Binley, A.D. (Allison D.)
Cooke, S.J. (Steven)
Fyson, V. (Vincent)
Hlina, B.L. (Benjamin L.)
Reid, C.H. (Connor H.)
Vala, M.A. (Michelle A.)
Madliger, C.L. (Christine L.)
author_facet Bergman, J.N. (Jordanna N.)
Bennett, J.R. (Joseph R.)
Binley, A.D. (Allison D.)
Cooke, S.J. (Steven)
Fyson, V. (Vincent)
Hlina, B.L. (Benjamin L.)
Reid, C.H. (Connor H.)
Vala, M.A. (Michelle A.)
Madliger, C.L. (Christine L.)
author_sort Bergman, J.N. (Jordanna N.)
title Scaling from individual physiological measures to population-level demographic change: Case studies and future directions for conservation management
title_short Scaling from individual physiological measures to population-level demographic change: Case studies and future directions for conservation management
title_full Scaling from individual physiological measures to population-level demographic change: Case studies and future directions for conservation management
title_fullStr Scaling from individual physiological measures to population-level demographic change: Case studies and future directions for conservation management
title_full_unstemmed Scaling from individual physiological measures to population-level demographic change: Case studies and future directions for conservation management
title_sort scaling from individual physiological measures to population-level demographic change: case studies and future directions for conservation management
publishDate 2019
url https://ir.library.carleton.ca/pub/25178
https://doi.org/10.1016/j.biocon.2019.108242
genre Common Murre
genre_facet Common Murre
op_source Biological Conservation vol. 238
op_relation https://ir.library.carleton.ca/pub/25178
doi:10.1016/j.biocon.2019.108242
op_doi https://doi.org/10.1016/j.biocon.2019.108242
container_title Biological Conservation
container_volume 238
container_start_page 108242
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