Climatically controlled reproduction drives interannual growth variability in a temperate tree species

Andrew J. Hacket-Pain; Davide Ascoli; Giorgio Vacchiano; Franco Biondi; Liam Cavin; Marco Conedera; Igor Drobyshev; Isabel Dorado Liñán; Andrew D. Friend; Michael Grabner; Claudia Hartl; Juergen Kreyling; François Lebourgeois; Tom Levanič; Annette Menzel; Ernst van der Maaten; Marieke van der Maaten-Theunissen; Lena Muffler; Renzo Motta; Catalin Constantin Roibu; Ionel Popa; Tobias Scharnweber; Robert Weigel; Martin Wilmking; Christian S. Zang

doi:10.1111/ele.13158

Climatically controlled reproduction drives interannual growth variability in a temperate tree species

Andrew J. Hacket-Pain
, Davide Ascoli
, Giorgio Vacchiano
, Franco Biondi
, Liam Cavin
, Marco Conedera
, Igor Drobyshev
, Isabel Dorado Liñán
, Andrew D. Friend
, Michael Grabner
, Claudia Hartl
, Juergen Kreyling
, François Lebourgeois
, Tom Levanič
, Annette Menzel
, Ernst van der Maaten
, Marieke van der Maaten-Theunissen
, Lena Muffler
, Renzo Motta
, Catalin Constantin Roibu

Ionel Popa, Tobias Scharnweber, Robert Weigel, Martin Wilmking, Christian S. Zang

Associate Professorship of Ecoclimatology

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

123 Scopus citations

Abstract

Climatically controlled allocation to reproduction is a key mechanism by which climate influences tree growth and may explain lagged correlations between climate and growth. We used continent-wide datasets of tree-ring chronologies and annual reproductive effort in Fagus sylvatica from 1901 to 2015 to characterise relationships between climate, reproduction and growth. Results highlight that variable allocation to reproduction is a key factor for growth in this species, and that high reproductive effort (‘mast years’) is associated with stem growth reduction. Additionally, high reproductive effort is associated with previous summer temperature, creating lagged climate effects on growth. Consequently, understanding growth variability in forest ecosystems requires the incorporation of reproduction, which can be highly variable. Our results suggest that future response of growth dynamics to climate change in this species will be strongly influenced by the response of reproduction.

Original language	English
Pages (from-to)	1833-1844
Number of pages	12
Journal	Ecology Letters
Volume	21
Issue number	12
DOIs	https://doi.org/10.1111/ele.13158
State	Published - Dec 2018

Keywords

Dendrochronology
European beech
Fagus sylvatica
SEM
drought
forest growth
masting
path analysis
structural equation modelling
trade-off

UN SDGs

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

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10.1111/ele.13158

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Hacket-Pain, A. J., Ascoli, D., Vacchiano, G., Biondi, F., Cavin, L., Conedera, M., Drobyshev, I., Liñán, I. D., Friend, A. D., Grabner, M., Hartl, C., Kreyling, J., Lebourgeois, F., Levanič, T., Menzel, A., van der Maaten, E., van der Maaten-Theunissen, M., Muffler, L., Motta, R., ... Zang, C. S. (2018). Climatically controlled reproduction drives interannual growth variability in a temperate tree species. Ecology Letters, 21(12), 1833-1844. https://doi.org/10.1111/ele.13158

@article{33cb821849664a1d8c77cffb5e49cb7e,

title = "Climatically controlled reproduction drives interannual growth variability in a temperate tree species",

abstract = "Climatically controlled allocation to reproduction is a key mechanism by which climate influences tree growth and may explain lagged correlations between climate and growth. We used continent-wide datasets of tree-ring chronologies and annual reproductive effort in Fagus sylvatica from 1901 to 2015 to characterise relationships between climate, reproduction and growth. Results highlight that variable allocation to reproduction is a key factor for growth in this species, and that high reproductive effort ({\textquoteleft}mast years{\textquoteright}) is associated with stem growth reduction. Additionally, high reproductive effort is associated with previous summer temperature, creating lagged climate effects on growth. Consequently, understanding growth variability in forest ecosystems requires the incorporation of reproduction, which can be highly variable. Our results suggest that future response of growth dynamics to climate change in this species will be strongly influenced by the response of reproduction.",

keywords = "Dendrochronology, European beech, Fagus sylvatica, SEM, drought, forest growth, masting, path analysis, structural equation modelling, trade-off",

author = "Hacket-Pain, \{Andrew J.\} and Davide Ascoli and Giorgio Vacchiano and Franco Biondi and Liam Cavin and Marco Conedera and Igor Drobyshev and Li{\~n}{\'a}n, \{Isabel Dorado\} and Friend, \{Andrew D.\} and Michael Grabner and Claudia Hartl and Juergen Kreyling and Fran{\c c}ois Lebourgeois and Tom Levani{\v c} and Annette Menzel and \{van der Maaten\}, Ernst and \{van der Maaten-Theunissen\}, Marieke and Lena Muffler and Renzo Motta and Roibu, \{Catalin Constantin\} and Ionel Popa and Tobias Scharnweber and Robert Weigel and Martin Wilmking and Zang, \{Christian S.\}",

note = "Publisher Copyright: {\textcopyright} 2018 The Authors Ecology Letters published by CNRS and John Wiley \& Sons Ltd",

year = "2018",

month = dec,

doi = "10.1111/ele.13158",

language = "English",

volume = "21",

pages = "1833--1844",

journal = "Ecology Letters",

issn = "1461-023X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "12",

}

Hacket-Pain, AJ, Ascoli, D, Vacchiano, G, Biondi, F, Cavin, L, Conedera, M, Drobyshev, I, Liñán, ID, Friend, AD, Grabner, M, Hartl, C, Kreyling, J, Lebourgeois, F, Levanič, T, Menzel, A, van der Maaten, E, van der Maaten-Theunissen, M, Muffler, L, Motta, R, Roibu, CC, Popa, I, Scharnweber, T, Weigel, R, Wilmking, M & Zang, CS 2018, 'Climatically controlled reproduction drives interannual growth variability in a temperate tree species', Ecology Letters, vol. 21, no. 12, pp. 1833-1844. https://doi.org/10.1111/ele.13158

TY - JOUR

T1 - Climatically controlled reproduction drives interannual growth variability in a temperate tree species

AU - Hacket-Pain, Andrew J.

AU - Ascoli, Davide

AU - Vacchiano, Giorgio

AU - Biondi, Franco

AU - Cavin, Liam

AU - Conedera, Marco

AU - Drobyshev, Igor

AU - Liñán, Isabel Dorado

AU - Friend, Andrew D.

AU - Grabner, Michael

AU - Hartl, Claudia

AU - Kreyling, Juergen

AU - Lebourgeois, François

AU - Levanič, Tom

AU - Menzel, Annette

AU - van der Maaten, Ernst

AU - van der Maaten-Theunissen, Marieke

AU - Muffler, Lena

AU - Motta, Renzo

AU - Roibu, Catalin Constantin

AU - Popa, Ionel

AU - Scharnweber, Tobias

AU - Weigel, Robert

AU - Wilmking, Martin

AU - Zang, Christian S.

PY - 2018/12

Y1 - 2018/12

N2 - Climatically controlled allocation to reproduction is a key mechanism by which climate influences tree growth and may explain lagged correlations between climate and growth. We used continent-wide datasets of tree-ring chronologies and annual reproductive effort in Fagus sylvatica from 1901 to 2015 to characterise relationships between climate, reproduction and growth. Results highlight that variable allocation to reproduction is a key factor for growth in this species, and that high reproductive effort (‘mast years’) is associated with stem growth reduction. Additionally, high reproductive effort is associated with previous summer temperature, creating lagged climate effects on growth. Consequently, understanding growth variability in forest ecosystems requires the incorporation of reproduction, which can be highly variable. Our results suggest that future response of growth dynamics to climate change in this species will be strongly influenced by the response of reproduction.

AB - Climatically controlled allocation to reproduction is a key mechanism by which climate influences tree growth and may explain lagged correlations between climate and growth. We used continent-wide datasets of tree-ring chronologies and annual reproductive effort in Fagus sylvatica from 1901 to 2015 to characterise relationships between climate, reproduction and growth. Results highlight that variable allocation to reproduction is a key factor for growth in this species, and that high reproductive effort (‘mast years’) is associated with stem growth reduction. Additionally, high reproductive effort is associated with previous summer temperature, creating lagged climate effects on growth. Consequently, understanding growth variability in forest ecosystems requires the incorporation of reproduction, which can be highly variable. Our results suggest that future response of growth dynamics to climate change in this species will be strongly influenced by the response of reproduction.

KW - Dendrochronology

KW - European beech

KW - Fagus sylvatica

KW - SEM

KW - drought

KW - forest growth

KW - masting

KW - path analysis

KW - structural equation modelling

KW - trade-off

UR - https://www.scopus.com/pages/publications/85053532407

U2 - 10.1111/ele.13158

DO - 10.1111/ele.13158

M3 - Letter

C2 - 30230201

AN - SCOPUS:85053532407

SN - 1461-023X

VL - 21

SP - 1833

EP - 1844

JO - Ecology Letters

JF - Ecology Letters

IS - 12

ER -

Climatically controlled reproduction drives interannual growth variability in a temperate tree species

Abstract

Keywords

UN SDGs

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