Compositional shifts of alpine plant communities across the high Andes

F. Cuesta; J. Carilla; L. D. LLambí; P. Muriel; M. V. Lencinas; R. I. Meneses; K. J. Feeley; H. Pauli; N. Aguirre; S. Beck; A. Bernardi; S. Cuello; S. A. Duchicela; P. Eguiguren; L. E. Gamez; S. Halloy; L. Hudson; R. Jaramillo; P. L. Peri; L. A. Ramírez; P. Rosero-Añazco; N. Thompson; K. Yager; C. Tovar

doi:10.1111/geb.13721

Compositional shifts of alpine plant communities across the high Andes

F. Cuesta
, J. Carilla
, L. D. LLambí
, P. Muriel
, M. V. Lencinas
, R. I. Meneses
, K. J. Feeley
, H. Pauli
, N. Aguirre
, S. Beck
, A. Bernardi
, S. Cuello
, S. A. Duchicela
, P. Eguiguren
, L. E. Gamez
, S. Halloy
, L. Hudson
, R. Jaramillo
, P. L. Peri
, L. A. Ramírez

P. Rosero-Añazco, N. Thompson, K. Yager, C. Tovar

Office of the Dean SOMAS

Stony Brook University

Universidad de las Américas - Ecuador
Universidad Nacional de Tucuman
Universidad de los Andes Mérida
Consorcio para el Desarrollo Sostenible de la Ecorregión Andina
Pontificia Universidad Católica del Ecuador
Consejo Nacional de Investigaciones Científicas y Técnicas
Universidad Católica del Norte
University of Miami
Austrian Academy of Sciences
University of Natural Resources and Life Sciences, Vienna
Universidad Nacional de Loja
Museo Nacional de Historia Natural - Instituto de Ecología (UMSA)
University of Texas at Austin
Ministry for Primary Industries, New Zealand
Royal Botanic Gardens, Kew
Universidad Nacional de la Patagonia Austral

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

32 Scopus citations

Abstract

Aim: Climate change is transforming mountain summit plant communities worldwide, but we know little about such changes in the High Andes. Understanding large-scale patterns of vegetation changes across the Andes, and the factors driving these changes, is fundamental to predicting the effects of global warming. We assessed trends in vegetation cover, species richness (SR) and community-level thermal niches (CTN) and tested whether they are explained by summits' climatic conditions and soil temperature trends. Location: High Andes. Time period: Between 2011/2012 and 2017/2019. Major taxa studied: Vascular plants. Methods: Using permanent vegetation plots placed on 45 mountain summits and soil temperature loggers situated along a ~6800 km N-S gradient, we measured species and their relative percentage cover and estimated CTN in two surveys (intervals between 5 and 8 years). We then estimated the annual rate of changes for the three variables and used generalized linear models to assess their relationship with annual precipitation, the minimum air temperatures of each summit and rates of change in the locally recorded soil temperatures. Results: Over time, there was an average loss of vegetation cover (mean = −0.26%/yr), and a gain in SR across summits (mean = 0.38 species m²/yr), but most summits had significant increases in SR and vegetation cover. Changes in SR were positively related to minimum air temperature and soil temperature rate of change. Most plant communities experienced shifts in their composition by including greater abundances of species with broader thermal niches and higher optima. However, the measured changes in soil temperature did not explain the observed changes in CTN. Main conclusions: High Andean vegetation is changing in cover and SR and is shifting towards species with wider thermal niche breadths. The weak relationship with soil temperature trends could have resulted from the short study period that only marginally captures changes in vegetation through time.

Original language	English
Pages (from-to)	1591-1606
Number of pages	16
Journal	Global Ecology and Biogeography
Volume	32
Issue number	9
DOIs	https://doi.org/10.1111/geb.13721
State	Published - Sep 2023

Keywords

climate change
community thermal scores
latitude
mountains
species richness
thermophilization
vegetation dynamics

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10.1111/geb.13721

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Cuesta, F., Carilla, J., LLambí, L. D., Muriel, P., Lencinas, M. V., Meneses, R. I., Feeley, K. J., Pauli, H., Aguirre, N., Beck, S., Bernardi, A., Cuello, S., Duchicela, S. A., Eguiguren, P., Gamez, L. E., Halloy, S., Hudson, L., Jaramillo, R., Peri, P. L., ... Tovar, C. (2023). Compositional shifts of alpine plant communities across the high Andes. Global Ecology and Biogeography, 32(9), 1591-1606. https://doi.org/10.1111/geb.13721

@article{0147dbe8e5b84b9d9aadc3d12ea76bb7,

title = "Compositional shifts of alpine plant communities across the high Andes",

abstract = "Aim: Climate change is transforming mountain summit plant communities worldwide, but we know little about such changes in the High Andes. Understanding large-scale patterns of vegetation changes across the Andes, and the factors driving these changes, is fundamental to predicting the effects of global warming. We assessed trends in vegetation cover, species richness (SR) and community-level thermal niches (CTN) and tested whether they are explained by summits' climatic conditions and soil temperature trends. Location: High Andes. Time period: Between 2011/2012 and 2017/2019. Major taxa studied: Vascular plants. Methods: Using permanent vegetation plots placed on 45 mountain summits and soil temperature loggers situated along a \textasciitilde{}6800 km N-S gradient, we measured species and their relative percentage cover and estimated CTN in two surveys (intervals between 5 and 8 years). We then estimated the annual rate of changes for the three variables and used generalized linear models to assess their relationship with annual precipitation, the minimum air temperatures of each summit and rates of change in the locally recorded soil temperatures. Results: Over time, there was an average loss of vegetation cover (mean = −0.26\%/yr), and a gain in SR across summits (mean = 0.38 species m2/yr), but most summits had significant increases in SR and vegetation cover. Changes in SR were positively related to minimum air temperature and soil temperature rate of change. Most plant communities experienced shifts in their composition by including greater abundances of species with broader thermal niches and higher optima. However, the measured changes in soil temperature did not explain the observed changes in CTN. Main conclusions: High Andean vegetation is changing in cover and SR and is shifting towards species with wider thermal niche breadths. The weak relationship with soil temperature trends could have resulted from the short study period that only marginally captures changes in vegetation through time.",

keywords = "climate change, community thermal scores, latitude, mountains, species richness, thermophilization, vegetation dynamics",

author = "F. Cuesta and J. Carilla and LLamb{\'i}, \{L. D.\} and P. Muriel and Lencinas, \{M. V.\} and Meneses, \{R. I.\} and Feeley, \{K. J.\} and H. Pauli and N. Aguirre and S. Beck and A. Bernardi and S. Cuello and Duchicela, \{S. A.\} and P. Eguiguren and Gamez, \{L. E.\} and S. Halloy and L. Hudson and R. Jaramillo and Peri, \{P. L.\} and Ram{\'i}rez, \{L. A.\} and P. Rosero-A{\~n}azco and N. Thompson and K. Yager and C. Tovar",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Global Ecology and Biogeography published by John Wiley \& Sons Ltd.",

year = "2023",

month = sep,

doi = "10.1111/geb.13721",

language = "English",

volume = "32",

pages = "1591--1606",

journal = "Global Ecology and Biogeography",

issn = "1466-822X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "9",

}

Cuesta, F, Carilla, J, LLambí, LD, Muriel, P, Lencinas, MV, Meneses, RI, Feeley, KJ, Pauli, H, Aguirre, N, Beck, S, Bernardi, A, Cuello, S, Duchicela, SA, Eguiguren, P, Gamez, LE, Halloy, S, Hudson, L, Jaramillo, R, Peri, PL, Ramírez, LA, Rosero-Añazco, P, Thompson, N, Yager, K & Tovar, C 2023, 'Compositional shifts of alpine plant communities across the high Andes', Global Ecology and Biogeography, vol. 32, no. 9, pp. 1591-1606. https://doi.org/10.1111/geb.13721

TY - JOUR

T1 - Compositional shifts of alpine plant communities across the high Andes

AU - Cuesta, F.

AU - Carilla, J.

AU - LLambí, L. D.

AU - Muriel, P.

AU - Lencinas, M. V.

AU - Meneses, R. I.

AU - Feeley, K. J.

AU - Pauli, H.

AU - Aguirre, N.

AU - Beck, S.

AU - Bernardi, A.

AU - Cuello, S.

AU - Duchicela, S. A.

AU - Eguiguren, P.

AU - Gamez, L. E.

AU - Halloy, S.

AU - Hudson, L.

AU - Jaramillo, R.

AU - Peri, P. L.

AU - Ramírez, L. A.

AU - Rosero-Añazco, P.

AU - Thompson, N.

AU - Yager, K.

AU - Tovar, C.

PY - 2023/9

Y1 - 2023/9

N2 - Aim: Climate change is transforming mountain summit plant communities worldwide, but we know little about such changes in the High Andes. Understanding large-scale patterns of vegetation changes across the Andes, and the factors driving these changes, is fundamental to predicting the effects of global warming. We assessed trends in vegetation cover, species richness (SR) and community-level thermal niches (CTN) and tested whether they are explained by summits' climatic conditions and soil temperature trends. Location: High Andes. Time period: Between 2011/2012 and 2017/2019. Major taxa studied: Vascular plants. Methods: Using permanent vegetation plots placed on 45 mountain summits and soil temperature loggers situated along a ~6800 km N-S gradient, we measured species and their relative percentage cover and estimated CTN in two surveys (intervals between 5 and 8 years). We then estimated the annual rate of changes for the three variables and used generalized linear models to assess their relationship with annual precipitation, the minimum air temperatures of each summit and rates of change in the locally recorded soil temperatures. Results: Over time, there was an average loss of vegetation cover (mean = −0.26%/yr), and a gain in SR across summits (mean = 0.38 species m2/yr), but most summits had significant increases in SR and vegetation cover. Changes in SR were positively related to minimum air temperature and soil temperature rate of change. Most plant communities experienced shifts in their composition by including greater abundances of species with broader thermal niches and higher optima. However, the measured changes in soil temperature did not explain the observed changes in CTN. Main conclusions: High Andean vegetation is changing in cover and SR and is shifting towards species with wider thermal niche breadths. The weak relationship with soil temperature trends could have resulted from the short study period that only marginally captures changes in vegetation through time.

AB - Aim: Climate change is transforming mountain summit plant communities worldwide, but we know little about such changes in the High Andes. Understanding large-scale patterns of vegetation changes across the Andes, and the factors driving these changes, is fundamental to predicting the effects of global warming. We assessed trends in vegetation cover, species richness (SR) and community-level thermal niches (CTN) and tested whether they are explained by summits' climatic conditions and soil temperature trends. Location: High Andes. Time period: Between 2011/2012 and 2017/2019. Major taxa studied: Vascular plants. Methods: Using permanent vegetation plots placed on 45 mountain summits and soil temperature loggers situated along a ~6800 km N-S gradient, we measured species and their relative percentage cover and estimated CTN in two surveys (intervals between 5 and 8 years). We then estimated the annual rate of changes for the three variables and used generalized linear models to assess their relationship with annual precipitation, the minimum air temperatures of each summit and rates of change in the locally recorded soil temperatures. Results: Over time, there was an average loss of vegetation cover (mean = −0.26%/yr), and a gain in SR across summits (mean = 0.38 species m2/yr), but most summits had significant increases in SR and vegetation cover. Changes in SR were positively related to minimum air temperature and soil temperature rate of change. Most plant communities experienced shifts in their composition by including greater abundances of species with broader thermal niches and higher optima. However, the measured changes in soil temperature did not explain the observed changes in CTN. Main conclusions: High Andean vegetation is changing in cover and SR and is shifting towards species with wider thermal niche breadths. The weak relationship with soil temperature trends could have resulted from the short study period that only marginally captures changes in vegetation through time.

KW - climate change

KW - community thermal scores

KW - latitude

KW - mountains

KW - species richness

KW - thermophilization

KW - vegetation dynamics

UR - https://www.scopus.com/pages/publications/85162941315

U2 - 10.1111/geb.13721

DO - 10.1111/geb.13721

M3 - Article

SN - 1466-822X

VL - 32

SP - 1591

EP - 1606

JO - Global Ecology and Biogeography

JF - Global Ecology and Biogeography

IS - 9

ER -

Compositional shifts of alpine plant communities across the high Andes

Abstract

Keywords

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