Thermal differences between juveniles and adults increased over time in European forest trees

Maria Mercedes Caron; Florian Zellweger; Kris Verheyen; Lander Baeten; Radim Hédl; Markus Bernhardt-Römermann; Imre Berki; Jörg Brunet; Guillaume Decocq; Sandra Díaz; Thomas Dirnböck; Tomasz Durak; Thilo Heinken; Bogdan Jaroszewicz; Martin Kopecký; Jonathan Lenoir; Martin Macek; Marek Malicki; František Máliš; Thomas A. Nagel; Michael P. Perring; Petr Petřík; Kamila Reczyńska; Remigiusz Pielech; Wolfgang Schmidt; Krzysztof Świerkosz; Balázs Teleki; Monika Wulf; Pieter De Frenne

doi:10.1111/1365-2745.13773

Thermal differences between juveniles and adults increased over time in European forest trees

Maria Mercedes Caron, Florian Zellweger, Kris Verheyen, Lander Baeten, Radim Hédl, Markus Bernhardt-Römermann, Imre Berki, Jörg Brunet, Guillaume Decocq, Sandra Díaz, Thomas Dirnböck, Tomasz Durak, Thilo Heinken, Bogdan Jaroszewicz, Martin Kopecký, Jonathan Lenoir, Martin Macek, Marek Malicki, František Máliš, Thomas A. NagelMichael P. Perring, Petr Petřík, Kamila Reczyńska, Remigiusz Pielech, Wolfgang Schmidt, Krzysztof Świerkosz, Balázs Teleki, Monika Wulf, Pieter De Frenne

School of Biological Sciences

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

11 Citations (Scopus)

Abstract

Woody species' requirements and environmental sensitivity change from seedlings to adults, a process referred to as ontogenetic shift. Such shifts can be increased by climate change. To assess the changes in the difference of temperature experienced by seedlings and adults in the context of climate change, it is essential to have reliable climatic data over long periods that capture the thermal conditions experienced by the individuals throughout their life cycle. Here we used a unique cross-European database of 2,195 pairs of resurveyed forest plots with a mean intercensus time interval of 37 years. We inferred macroclimatic temperature (free-air conditions above tree canopies—representative of the conditions experienced by adult trees) and microclimatic temperature (representative of the juvenile stage at the forest floor, inferred from the relationship between canopy cover, distance to the coast and below-canopy temperature) at both surveys. We then address the long-term, large-scale and multitaxa dynamics of the difference between the temperatures experienced by adults and juveniles of 25 temperate tree species. We found significant, but species-specific, variations in the perceived temperature (calculated from presence/absence data) between life stages during both surveys. Additionally, the difference of the temperature experienced by the adult versus juveniles significantly increased between surveys for 8 of 25 species. We found evidence of a relationship between the difference of temperature experienced by juveniles and adults over time and one key functional trait (i.e. leaf area). Together, these results suggest that the temperatures experienced by adults versus juveniles became more decoupled over time for a subset of species, probably due to the combination of climate change and a recorded increase of canopy cover between the surveys resulting in higher rates of macroclimate than microclimate warming. Synthesis. We document warming and canopy-cover induced changes in the difference of the temperature experienced by juveniles and adults. These findings have implications for forest management adaptation to climate change such as the promotion of tree regeneration by creating suitable species-specific microclimatic conditions. Such adaptive management will help to mitigate the macroclimate change in the understorey layer.

Original language	English
Pages (from-to)	3944-3957
Number of pages	14
Journal	Journal of Ecology
Volume	109
Issue number	11
DOIs	https://doi.org/10.1111/1365-2745.13773
Publication status	Published - Nov 2021

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10.1111/1365-2745.13773

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Caron, M. M., Zellweger, F., Verheyen, K., Baeten, L., Hédl, R., Bernhardt-Römermann, M., Berki, I., Brunet, J., Decocq, G., Díaz, S., Dirnböck, T., Durak, T., Heinken, T., Jaroszewicz, B., Kopecký, M., Lenoir, J., Macek, M., Malicki, M., Máliš, F., ... De Frenne, P. (2021). Thermal differences between juveniles and adults increased over time in European forest trees. Journal of Ecology, 109(11), 3944-3957. https://doi.org/10.1111/1365-2745.13773

@article{22f2b07aeeac48ebb1d1424f406d80fc,

title = "Thermal differences between juveniles and adults increased over time in European forest trees",

abstract = "Woody species' requirements and environmental sensitivity change from seedlings to adults, a process referred to as ontogenetic shift. Such shifts can be increased by climate change. To assess the changes in the difference of temperature experienced by seedlings and adults in the context of climate change, it is essential to have reliable climatic data over long periods that capture the thermal conditions experienced by the individuals throughout their life cycle. Here we used a unique cross-European database of 2,195 pairs of resurveyed forest plots with a mean intercensus time interval of 37 years. We inferred macroclimatic temperature (free-air conditions above tree canopies—representative of the conditions experienced by adult trees) and microclimatic temperature (representative of the juvenile stage at the forest floor, inferred from the relationship between canopy cover, distance to the coast and below-canopy temperature) at both surveys. We then address the long-term, large-scale and multitaxa dynamics of the difference between the temperatures experienced by adults and juveniles of 25 temperate tree species. We found significant, but species-specific, variations in the perceived temperature (calculated from presence/absence data) between life stages during both surveys. Additionally, the difference of the temperature experienced by the adult versus juveniles significantly increased between surveys for 8 of 25 species. We found evidence of a relationship between the difference of temperature experienced by juveniles and adults over time and one key functional trait (i.e. leaf area). Together, these results suggest that the temperatures experienced by adults versus juveniles became more decoupled over time for a subset of species, probably due to the combination of climate change and a recorded increase of canopy cover between the surveys resulting in higher rates of macroclimate than microclimate warming. Synthesis. We document warming and canopy-cover induced changes in the difference of the temperature experienced by juveniles and adults. These findings have implications for forest management adaptation to climate change such as the promotion of tree regeneration by creating suitable species-specific microclimatic conditions. Such adaptive management will help to mitigate the macroclimate change in the understorey layer.",

keywords = "climate change, forestREplot, microclimate, ontogenetic shift, plant functional traits, resurvey, temperate tree species",

author = "Caron, {Maria Mercedes} and Florian Zellweger and Kris Verheyen and Lander Baeten and Radim H{\'e}dl and Markus Bernhardt-R{\"o}mermann and Imre Berki and J{\"o}rg Brunet and Guillaume Decocq and Sandra D{\'i}az and Thomas Dirnb{\"o}ck and Tomasz Durak and Thilo Heinken and Bogdan Jaroszewicz and Martin Kopeck{\'y} and Jonathan Lenoir and Martin Macek and Marek Malicki and Franti{\v s}ek M{\'a}li{\v s} and Nagel, {Thomas A.} and Perring, {Michael P.} and Petr Pet{\v r}{\'i}k and Kamila Reczy{\'n}ska and Remigiusz Pielech and Wolfgang Schmidt and Krzysztof {\'S}wierkosz and Bal{\'a}zs Teleki and Monika Wulf and {De Frenne}, Pieter",

note = "Funding Information: Mercedes Caron was supported by FONCyT PICT‐2017‐2245 and by CESAM Visiting Staff Platform (2019)—Ghent University. Florian Zellweger received funding from the Swiss National Science Foundation (project 172198 and 193645). Kris Verheyen and Michael Perring were supported by the European Research Council (ERC) UnderSCORE grant #861957. Sandra D{\'i}az was supported by FONCyT PICT‐2017‐1084. Radim H{\'e}dl, Martin Macek, Petr Pet{\v r}{\'i}k and Martin Kopeck{\'y} were supported by the long‐term research development project No. RVO 67985939 of the Czech Academy of Sciences. Franti{\v s}ek M{\'a}li{\v s} was funded by Slovak Research and Development Agency grant No. APVV‐19‐0319. Pieter De Frenne received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme (ERC Starting Grant FORMICA 757833). Publisher Copyright: {\textcopyright} 2021 British Ecological Society",

year = "2021",

month = nov,

doi = "10.1111/1365-2745.13773",

language = "English",

volume = "109",

pages = "3944--3957",

journal = "Journal of Ecology",

issn = "0022-0477",

publisher = "John Wiley & Sons",

number = "11",

}

Caron, MM, Zellweger, F, Verheyen, K, Baeten, L, Hédl, R, Bernhardt-Römermann, M, Berki, I, Brunet, J, Decocq, G, Díaz, S, Dirnböck, T, Durak, T, Heinken, T, Jaroszewicz, B, Kopecký, M, Lenoir, J, Macek, M, Malicki, M, Máliš, F, Nagel, TA, Perring, MP, Petřík, P, Reczyńska, K, Pielech, R, Schmidt, W, Świerkosz, K, Teleki, B, Wulf, M & De Frenne, P 2021, 'Thermal differences between juveniles and adults increased over time in European forest trees', Journal of Ecology, vol. 109, no. 11, pp. 3944-3957. https://doi.org/10.1111/1365-2745.13773

TY - JOUR

T1 - Thermal differences between juveniles and adults increased over time in European forest trees

AU - Caron, Maria Mercedes

AU - Zellweger, Florian

AU - Verheyen, Kris

AU - Baeten, Lander

AU - Hédl, Radim

AU - Bernhardt-Römermann, Markus

AU - Berki, Imre

AU - Brunet, Jörg

AU - Decocq, Guillaume

AU - Díaz, Sandra

AU - Dirnböck, Thomas

AU - Durak, Tomasz

AU - Heinken, Thilo

AU - Jaroszewicz, Bogdan

AU - Kopecký, Martin

AU - Lenoir, Jonathan

AU - Macek, Martin

AU - Malicki, Marek

AU - Máliš, František

AU - Nagel, Thomas A.

AU - Perring, Michael P.

AU - Petřík, Petr

AU - Reczyńska, Kamila

AU - Pielech, Remigiusz

AU - Schmidt, Wolfgang

AU - Świerkosz, Krzysztof

AU - Teleki, Balázs

AU - Wulf, Monika

AU - De Frenne, Pieter

N1 - Funding Information: Mercedes Caron was supported by FONCyT PICT‐2017‐2245 and by CESAM Visiting Staff Platform (2019)—Ghent University. Florian Zellweger received funding from the Swiss National Science Foundation (project 172198 and 193645). Kris Verheyen and Michael Perring were supported by the European Research Council (ERC) UnderSCORE grant #861957. Sandra Díaz was supported by FONCyT PICT‐2017‐1084. Radim Hédl, Martin Macek, Petr Petřík and Martin Kopecký were supported by the long‐term research development project No. RVO 67985939 of the Czech Academy of Sciences. František Máliš was funded by Slovak Research and Development Agency grant No. APVV‐19‐0319. Pieter De Frenne received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme (ERC Starting Grant FORMICA 757833). Publisher Copyright: © 2021 British Ecological Society

PY - 2021/11

Y1 - 2021/11

N2 - Woody species' requirements and environmental sensitivity change from seedlings to adults, a process referred to as ontogenetic shift. Such shifts can be increased by climate change. To assess the changes in the difference of temperature experienced by seedlings and adults in the context of climate change, it is essential to have reliable climatic data over long periods that capture the thermal conditions experienced by the individuals throughout their life cycle. Here we used a unique cross-European database of 2,195 pairs of resurveyed forest plots with a mean intercensus time interval of 37 years. We inferred macroclimatic temperature (free-air conditions above tree canopies—representative of the conditions experienced by adult trees) and microclimatic temperature (representative of the juvenile stage at the forest floor, inferred from the relationship between canopy cover, distance to the coast and below-canopy temperature) at both surveys. We then address the long-term, large-scale and multitaxa dynamics of the difference between the temperatures experienced by adults and juveniles of 25 temperate tree species. We found significant, but species-specific, variations in the perceived temperature (calculated from presence/absence data) between life stages during both surveys. Additionally, the difference of the temperature experienced by the adult versus juveniles significantly increased between surveys for 8 of 25 species. We found evidence of a relationship between the difference of temperature experienced by juveniles and adults over time and one key functional trait (i.e. leaf area). Together, these results suggest that the temperatures experienced by adults versus juveniles became more decoupled over time for a subset of species, probably due to the combination of climate change and a recorded increase of canopy cover between the surveys resulting in higher rates of macroclimate than microclimate warming. Synthesis. We document warming and canopy-cover induced changes in the difference of the temperature experienced by juveniles and adults. These findings have implications for forest management adaptation to climate change such as the promotion of tree regeneration by creating suitable species-specific microclimatic conditions. Such adaptive management will help to mitigate the macroclimate change in the understorey layer.

AB - Woody species' requirements and environmental sensitivity change from seedlings to adults, a process referred to as ontogenetic shift. Such shifts can be increased by climate change. To assess the changes in the difference of temperature experienced by seedlings and adults in the context of climate change, it is essential to have reliable climatic data over long periods that capture the thermal conditions experienced by the individuals throughout their life cycle. Here we used a unique cross-European database of 2,195 pairs of resurveyed forest plots with a mean intercensus time interval of 37 years. We inferred macroclimatic temperature (free-air conditions above tree canopies—representative of the conditions experienced by adult trees) and microclimatic temperature (representative of the juvenile stage at the forest floor, inferred from the relationship between canopy cover, distance to the coast and below-canopy temperature) at both surveys. We then address the long-term, large-scale and multitaxa dynamics of the difference between the temperatures experienced by adults and juveniles of 25 temperate tree species. We found significant, but species-specific, variations in the perceived temperature (calculated from presence/absence data) between life stages during both surveys. Additionally, the difference of the temperature experienced by the adult versus juveniles significantly increased between surveys for 8 of 25 species. We found evidence of a relationship between the difference of temperature experienced by juveniles and adults over time and one key functional trait (i.e. leaf area). Together, these results suggest that the temperatures experienced by adults versus juveniles became more decoupled over time for a subset of species, probably due to the combination of climate change and a recorded increase of canopy cover between the surveys resulting in higher rates of macroclimate than microclimate warming. Synthesis. We document warming and canopy-cover induced changes in the difference of the temperature experienced by juveniles and adults. These findings have implications for forest management adaptation to climate change such as the promotion of tree regeneration by creating suitable species-specific microclimatic conditions. Such adaptive management will help to mitigate the macroclimate change in the understorey layer.

KW - climate change

KW - forestREplot

KW - microclimate

KW - ontogenetic shift

KW - plant functional traits

KW - resurvey

KW - temperate tree species

UR - http://www.scopus.com/inward/record.url?scp=85114663494&partnerID=8YFLogxK

U2 - 10.1111/1365-2745.13773

DO - 10.1111/1365-2745.13773

M3 - Article

AN - SCOPUS:85114663494

SN - 0022-0477

VL - 109

SP - 3944

EP - 3957

JO - Journal of Ecology

JF - Journal of Ecology

IS - 11

ER -

Thermal differences between juveniles and adults increased over time in European forest trees

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