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Lags in the response of mountain plant communities to climate change

Publikation: Beiträge in ZeitschriftenÜbersichtsarbeitenForschung

Standard

Lags in the response of mountain plant communities to climate change. / Alexander, Jake M.; Chalmandrier, Loïc; Lenoir, Jonathan et al.

in: Global Change Biology, Jahrgang 24, Nr. 2, 07.11.2017, S. 563-579.

Publikation: Beiträge in ZeitschriftenÜbersichtsarbeitenForschung

Harvard

Alexander, JM, Chalmandrier, L, Lenoir, J, Burgess, TI, Essl, F, Haider, S, Kueffer, C, McDougall, K, Milbau, A, Nuñez, MA, Pauchard, A, Rabitsch, W, Rew, LJ, Sanders, NJ & Pellissier, L 2017, 'Lags in the response of mountain plant communities to climate change', Global Change Biology, Jg. 24, Nr. 2, S. 563-579. https://doi.org/10.1111/gcb.13976

APA

Alexander, J. M., Chalmandrier, L., Lenoir, J., Burgess, T. I., Essl, F., Haider, S., Kueffer, C., McDougall, K., Milbau, A., Nuñez, M. A., Pauchard, A., Rabitsch, W., Rew, L. J., Sanders, N. J., & Pellissier, L. (2017). Lags in the response of mountain plant communities to climate change. Global Change Biology, 24(2), 563-579. https://doi.org/10.1111/gcb.13976

Vancouver

Alexander JM, Chalmandrier L, Lenoir J, Burgess TI, Essl F, Haider S et al. Lags in the response of mountain plant communities to climate change. Global Change Biology. 2017 Nov 7;24(2):563-579. doi: 10.1111/gcb.13976

Bibtex

@article{4510bb4e79d6498da957c7ef8970bda4,
title = "Lags in the response of mountain plant communities to climate change",
abstract = "Rapid climatic changes and increasing human influence at high elevations around the world will have profound impacts on mountain biodiversity. However, forecasts from statistical models (e.g. species distribution models) rarely consider that plant community changes could substantially lag behind climatic changes, hindering our ability to make temporally realistic projections for the coming century. Indeed, the magnitudes of lags, and the relative importance of the different factors giving rise to them, remain poorly understood. We review evidence for three types of lag: “dispersal lags” affecting plant species{\textquoteright} spread along elevational gradients, “establishment lags” following their arrival in recipient communities, and “extinction lags” of resident species. Variation in lags is explained by variation among species in physiological and demographic responses, by effects of altered biotic interactions, and by aspects of the physical environment. Of these, altered biotic interactions could contribute substantially to establishment and extinction lags, yet impacts of biotic interactions on range dynamics are poorly understood. We develop a mechanistic community model to illustrate how species turnover in future communities might lag behind simple expectations based on species{\textquoteright} range shifts with unlimited dispersal. The model shows a combined contribution of altered biotic interactions and dispersal lags to plant community turnover along an elevational gradient following climate warming. Our review and simulation support the view that accounting for disequilibrium range dynamics will be essential for realistic forecasts of patterns of biodiversity under climate change, with implications for the conservation of mountain species and the ecosystem functions they provide.",
keywords = "Biology, alpine ecosystems, biotic interactions, climate change, climatic debt, migration, novel interactions, range dynamics, range expansion",
author = "Alexander, {Jake M.} and Lo{\"i}c Chalmandrier and Jonathan Lenoir and Burgess, {Treena I.} and Franz Essl and Sylvia Haider and Christoph Kueffer and Keith McDougall and Ann Milbau and Nu{\~n}ez, {Martin A.} and An{\'i}bal Pauchard and Wolfgang Rabitsch and Rew, {Lisa J.} and Sanders, {Nathan J.} and Lo{\"i}c Pellissier",
note = "Publisher Copyright: {\textcopyright} 2017 John Wiley & Sons Ltd",
year = "2017",
month = nov,
day = "7",
doi = "10.1111/gcb.13976",
language = "English",
volume = "24",
pages = "563--579",
journal = "Global Change Biology",
issn = "1354-1013",
publisher = "John Wiley & Sons Ltd.",
number = "2",

}

RIS

TY - JOUR

T1 - Lags in the response of mountain plant communities to climate change

AU - Alexander, Jake M.

AU - Chalmandrier, Loïc

AU - Lenoir, Jonathan

AU - Burgess, Treena I.

AU - Essl, Franz

AU - Haider, Sylvia

AU - Kueffer, Christoph

AU - McDougall, Keith

AU - Milbau, Ann

AU - Nuñez, Martin A.

AU - Pauchard, Aníbal

AU - Rabitsch, Wolfgang

AU - Rew, Lisa J.

AU - Sanders, Nathan J.

AU - Pellissier, Loïc

N1 - Publisher Copyright: © 2017 John Wiley & Sons Ltd

PY - 2017/11/7

Y1 - 2017/11/7

N2 - Rapid climatic changes and increasing human influence at high elevations around the world will have profound impacts on mountain biodiversity. However, forecasts from statistical models (e.g. species distribution models) rarely consider that plant community changes could substantially lag behind climatic changes, hindering our ability to make temporally realistic projections for the coming century. Indeed, the magnitudes of lags, and the relative importance of the different factors giving rise to them, remain poorly understood. We review evidence for three types of lag: “dispersal lags” affecting plant species’ spread along elevational gradients, “establishment lags” following their arrival in recipient communities, and “extinction lags” of resident species. Variation in lags is explained by variation among species in physiological and demographic responses, by effects of altered biotic interactions, and by aspects of the physical environment. Of these, altered biotic interactions could contribute substantially to establishment and extinction lags, yet impacts of biotic interactions on range dynamics are poorly understood. We develop a mechanistic community model to illustrate how species turnover in future communities might lag behind simple expectations based on species’ range shifts with unlimited dispersal. The model shows a combined contribution of altered biotic interactions and dispersal lags to plant community turnover along an elevational gradient following climate warming. Our review and simulation support the view that accounting for disequilibrium range dynamics will be essential for realistic forecasts of patterns of biodiversity under climate change, with implications for the conservation of mountain species and the ecosystem functions they provide.

AB - Rapid climatic changes and increasing human influence at high elevations around the world will have profound impacts on mountain biodiversity. However, forecasts from statistical models (e.g. species distribution models) rarely consider that plant community changes could substantially lag behind climatic changes, hindering our ability to make temporally realistic projections for the coming century. Indeed, the magnitudes of lags, and the relative importance of the different factors giving rise to them, remain poorly understood. We review evidence for three types of lag: “dispersal lags” affecting plant species’ spread along elevational gradients, “establishment lags” following their arrival in recipient communities, and “extinction lags” of resident species. Variation in lags is explained by variation among species in physiological and demographic responses, by effects of altered biotic interactions, and by aspects of the physical environment. Of these, altered biotic interactions could contribute substantially to establishment and extinction lags, yet impacts of biotic interactions on range dynamics are poorly understood. We develop a mechanistic community model to illustrate how species turnover in future communities might lag behind simple expectations based on species’ range shifts with unlimited dispersal. The model shows a combined contribution of altered biotic interactions and dispersal lags to plant community turnover along an elevational gradient following climate warming. Our review and simulation support the view that accounting for disequilibrium range dynamics will be essential for realistic forecasts of patterns of biodiversity under climate change, with implications for the conservation of mountain species and the ecosystem functions they provide.

KW - Biology

KW - alpine ecosystems

KW - biotic interactions

KW - climate change

KW - climatic debt

KW - migration

KW - novel interactions

KW - range dynamics

KW - range expansion

UR - http://www.scopus.com/inward/record.url?scp=85035198785&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/acbe7d9d-2382-39eb-9297-db5a40de283a/

U2 - 10.1111/gcb.13976

DO - 10.1111/gcb.13976

M3 - Scientific review articles

C2 - 29112781

AN - SCOPUS:85035198785

VL - 24

SP - 563

EP - 579

JO - Global Change Biology

JF - Global Change Biology

SN - 1354-1013

IS - 2

ER -

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