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Hydro-Functional Traits and Their Dissimilarity to the Neighbourhood Buffer Tree Growth Against the 2018–2020 Central European Drought

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Standard

Hydro-Functional Traits and Their Dissimilarity to the Neighbourhood Buffer Tree Growth Against the 2018–2020 Central European Drought. / Sachsenmaier, Lena; Schnabel, Florian; Tezeh, Fon R. et al.
in: Global Change Biology, Jahrgang 31, Nr. 11, e70588, 11.2025.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Harvard

Sachsenmaier, L, Schnabel, F, Tezeh, FR, Castro Sánchez-Bermejo, P, Eisenhauer, N, Ferlian, O, Haider, S, Richter, R, Paligi, SS, Schuldt, B & Wirth, C 2025, 'Hydro-Functional Traits and Their Dissimilarity to the Neighbourhood Buffer Tree Growth Against the 2018–2020 Central European Drought', Global Change Biology, Jg. 31, Nr. 11, e70588. https://doi.org/10.1111/gcb.70588

APA

Sachsenmaier, L., Schnabel, F., Tezeh, F. R., Castro Sánchez-Bermejo, P., Eisenhauer, N., Ferlian, O., Haider, S., Richter, R., Paligi, S. S., Schuldt, B., & Wirth, C. (2025). Hydro-Functional Traits and Their Dissimilarity to the Neighbourhood Buffer Tree Growth Against the 2018–2020 Central European Drought. Global Change Biology, 31(11), Artikel e70588. https://doi.org/10.1111/gcb.70588

Vancouver

Sachsenmaier L, Schnabel F, Tezeh FR, Castro Sánchez-Bermejo P, Eisenhauer N, Ferlian O et al. Hydro-Functional Traits and Their Dissimilarity to the Neighbourhood Buffer Tree Growth Against the 2018–2020 Central European Drought. Global Change Biology. 2025 Nov;31(11):e70588. doi: 10.1111/gcb.70588

Bibtex

@article{c7d6d1c8052e4909949957c9de4a0176,
title = "Hydro-Functional Traits and Their Dissimilarity to the Neighbourhood Buffer Tree Growth Against the 2018–2020 Central European Drought",
abstract = "Climate change is predicted to increase the frequency and duration of drought events, threatening the functioning of Central European forests. While diverse forests often promote long-term growth stability, their performance during extreme drought events remains debated. Understanding the effects of forest diversity on tree growth during drought requires not only a consideration of tree interactions with direct neighbouring trees but also of the species' morphological and physiological characteristics, i.e., a trait-based approach. Contrasting species-specific drought responses might be driven by hydro-functional traits, which shape a tree's hydraulic safety and stomatal control strategy. We investigated individual tree growth before, during, and after the unprecedented 2018–2020 Central European drought, from a hydro-functional perspective. We analysed annual growth data from 2611 trees in a temperate tree diversity experiment (MyDiv experiment, Germany), measured 14 hydro-functional traits, and modelled individual tree growth across the years 2016–2021, considering the interaction of climatic conditions with hydro-functional trait syndromes. Our results reveal that traits related to hydraulic safety and stomatal control potential were key drivers of tree growth across drought and non-drought years. During the severe multi-year drought, the growth of focal trees increased with either higher hydraulic safety or tighter stomatal control potential. Trait syndromes that were less advantageous under normal conditions provided beneficial effects under drought stress, reflecting a trade-off in performance across conditions. Additionally, we found that hydro-functional dissimilarity between a tree and its surrounding neighbors provided benefits for tree growth during drought. Therefore, our study suggests that planting tree mixtures with distinct hydro-functional strategies can enhance resistance to future droughts.",
keywords = "biodiversity-ecosystem functioning, climate change, forest, hydraulic safety, neighbourhood, stomatal control, trait dissimilarity, tree diversity, TreeDivNet, Biology",
author = "Lena Sachsenmaier and Florian Schnabel and Tezeh, {Fon R.} and {Castro S{\'a}nchez-Bermejo}, Pablo and Nico Eisenhauer and Olga Ferlian and Sylvia Haider and Ronny Richter and Paligi, {Sharath S.} and Bernhard Schuldt and Christian Wirth",
note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Global Change Biology published by John Wiley & Sons Ltd.",
year = "2025",
month = nov,
doi = "10.1111/gcb.70588",
language = "English",
volume = "31",
journal = "Global Change Biology",
issn = "1354-1013",
publisher = "Wiley-Blackwell Publishing Ltd.",
number = "11",

}

RIS

TY - JOUR

T1 - Hydro-Functional Traits and Their Dissimilarity to the Neighbourhood Buffer Tree Growth Against the 2018–2020 Central European Drought

AU - Sachsenmaier, Lena

AU - Schnabel, Florian

AU - Tezeh, Fon R.

AU - Castro Sánchez-Bermejo, Pablo

AU - Eisenhauer, Nico

AU - Ferlian, Olga

AU - Haider, Sylvia

AU - Richter, Ronny

AU - Paligi, Sharath S.

AU - Schuldt, Bernhard

AU - Wirth, Christian

N1 - Publisher Copyright: © 2025 The Author(s). Global Change Biology published by John Wiley & Sons Ltd.

PY - 2025/11

Y1 - 2025/11

N2 - Climate change is predicted to increase the frequency and duration of drought events, threatening the functioning of Central European forests. While diverse forests often promote long-term growth stability, their performance during extreme drought events remains debated. Understanding the effects of forest diversity on tree growth during drought requires not only a consideration of tree interactions with direct neighbouring trees but also of the species' morphological and physiological characteristics, i.e., a trait-based approach. Contrasting species-specific drought responses might be driven by hydro-functional traits, which shape a tree's hydraulic safety and stomatal control strategy. We investigated individual tree growth before, during, and after the unprecedented 2018–2020 Central European drought, from a hydro-functional perspective. We analysed annual growth data from 2611 trees in a temperate tree diversity experiment (MyDiv experiment, Germany), measured 14 hydro-functional traits, and modelled individual tree growth across the years 2016–2021, considering the interaction of climatic conditions with hydro-functional trait syndromes. Our results reveal that traits related to hydraulic safety and stomatal control potential were key drivers of tree growth across drought and non-drought years. During the severe multi-year drought, the growth of focal trees increased with either higher hydraulic safety or tighter stomatal control potential. Trait syndromes that were less advantageous under normal conditions provided beneficial effects under drought stress, reflecting a trade-off in performance across conditions. Additionally, we found that hydro-functional dissimilarity between a tree and its surrounding neighbors provided benefits for tree growth during drought. Therefore, our study suggests that planting tree mixtures with distinct hydro-functional strategies can enhance resistance to future droughts.

AB - Climate change is predicted to increase the frequency and duration of drought events, threatening the functioning of Central European forests. While diverse forests often promote long-term growth stability, their performance during extreme drought events remains debated. Understanding the effects of forest diversity on tree growth during drought requires not only a consideration of tree interactions with direct neighbouring trees but also of the species' morphological and physiological characteristics, i.e., a trait-based approach. Contrasting species-specific drought responses might be driven by hydro-functional traits, which shape a tree's hydraulic safety and stomatal control strategy. We investigated individual tree growth before, during, and after the unprecedented 2018–2020 Central European drought, from a hydro-functional perspective. We analysed annual growth data from 2611 trees in a temperate tree diversity experiment (MyDiv experiment, Germany), measured 14 hydro-functional traits, and modelled individual tree growth across the years 2016–2021, considering the interaction of climatic conditions with hydro-functional trait syndromes. Our results reveal that traits related to hydraulic safety and stomatal control potential were key drivers of tree growth across drought and non-drought years. During the severe multi-year drought, the growth of focal trees increased with either higher hydraulic safety or tighter stomatal control potential. Trait syndromes that were less advantageous under normal conditions provided beneficial effects under drought stress, reflecting a trade-off in performance across conditions. Additionally, we found that hydro-functional dissimilarity between a tree and its surrounding neighbors provided benefits for tree growth during drought. Therefore, our study suggests that planting tree mixtures with distinct hydro-functional strategies can enhance resistance to future droughts.

KW - biodiversity-ecosystem functioning

KW - climate change

KW - forest

KW - hydraulic safety

KW - neighbourhood

KW - stomatal control

KW - trait dissimilarity

KW - tree diversity

KW - TreeDivNet

KW - Biology

UR - http://www.scopus.com/inward/record.url?scp=105021655161&partnerID=8YFLogxK

U2 - 10.1111/gcb.70588

DO - 10.1111/gcb.70588

M3 - Journal articles

C2 - 41229366

AN - SCOPUS:105021655161

VL - 31

JO - Global Change Biology

JF - Global Change Biology

SN - 1354-1013

IS - 11

M1 - e70588

ER -

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