Range dynamics mediated by compensatory life stage responses to experimental climate manipulations

The expectations of polar or upslope distributional shifts of species ranges in response to warming climate conditions have been recently questioned. Diverse responses of different life stages to changing temperature and moisture regimes may alter these predicted range dynamics. Furthermore, the cli...

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Veröffentlicht in:	Ecology letters 2021-04, Vol.24 (4), p.772-780
Hauptverfasser:	Oldfather, Meagan F., Koontz, Michael J., Doak, Daniel F., Ackerly, David D., Levine, Jonathan
Format:	Artikel
Sprache:	eng
Schlagworte:	Climate Climate Change Climate effects climate manipulations Climatic conditions Demographics Developmental stages Growth rate IPMs Population Dynamics Population Growth population modelling Population stability range shifts Species Stability
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container_end_page	780
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container_title	Ecology letters
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creator	Oldfather, Meagan F. Koontz, Michael J. Doak, Daniel F. Ackerly, David D. Levine, Jonathan
description	The expectations of polar or upslope distributional shifts of species ranges in response to warming climate conditions have been recently questioned. Diverse responses of different life stages to changing temperature and moisture regimes may alter these predicted range dynamics. Furthermore, the climate driver(s) influencing demographic rates, and the contribution of each demographic rate to population growth rate (λ), may shift across a species range. We investigated these demographic effects by experimentally manipulating climate and measuring responses of λ in nine populations spanning the elevation range of an alpine plant (Ivesia lycopodioides). Populations exhibited stable growth rates (λ ~ 1) under naturally wet conditions and declining rates (λ
doi_str_mv	10.1111/ele.13693
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Diverse responses of different life stages to changing temperature and moisture regimes may alter these predicted range dynamics. Furthermore, the climate driver(s) influencing demographic rates, and the contribution of each demographic rate to population growth rate (λ), may shift across a species range. We investigated these demographic effects by experimentally manipulating climate and measuring responses of λ in nine populations spanning the elevation range of an alpine plant (Ivesia lycopodioides). Populations exhibited stable growth rates (λ ~ 1) under naturally wet conditions and declining rates (λ < 1) under naturally dry conditions. However, opposing vital rate responses to experimental heating and watering lead to negligible or negative effects on population stability. These findings indicate that life stage–specific responses to changing climate can disrupt the current relationships between population stability and climate across species ranges. We investigated the effects of climate manipulations on population dynamics in nine populations spanning the range of an alpine plant. We find evidence for inverse responses of different life‐history transitions to the climate manipulations, leading to negligible or negative effects on population stability. 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Diverse responses of different life stages to changing temperature and moisture regimes may alter these predicted range dynamics. Furthermore, the climate driver(s) influencing demographic rates, and the contribution of each demographic rate to population growth rate (λ), may shift across a species range. We investigated these demographic effects by experimentally manipulating climate and measuring responses of λ in nine populations spanning the elevation range of an alpine plant (Ivesia lycopodioides). Populations exhibited stable growth rates (λ ~ 1) under naturally wet conditions and declining rates (λ < 1) under naturally dry conditions. However, opposing vital rate responses to experimental heating and watering lead to negligible or negative effects on population stability. These findings indicate that life stage–specific responses to changing climate can disrupt the current relationships between population stability and climate across species ranges. We investigated the effects of climate manipulations on population dynamics in nine populations spanning the range of an alpine plant. We find evidence for inverse responses of different life‐history transitions to the climate manipulations, leading to negligible or negative effects on population stability. 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subjects	Climate Climate Change Climate effects climate manipulations Climatic conditions Demographics Developmental stages Growth rate IPMs Population Dynamics Population Growth population modelling Population stability range shifts Species Stability
title	Range dynamics mediated by compensatory life stage responses to experimental climate manipulations
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