Microclimate moderates plant responses to macroclimate warming

Pieter De Frenne; Francisco Rodriguez-Sanchez; David Anthony Coomes; Lander Baeten; Gorik Verstraeten; Mark Vellend; Markus Bernhardt-Roemermann; Carissa D. Brown; Jorg Brunet; Johnny Cornelis; Guillaume M. Decocq; Hartmut Dierschke; Ove Eriksson; Frank S. Gilliam; Radim Hedl; Thilo Heinken; Martin Hermy; Patrick Hommel; Michael A. Jenkins; Daniel L. Kelly; Keith J. Kirby; Fraser J. G. Mitchell; Tobias Naaf; Miles Newman; George Peterken; Petr Petrik; Jan Schultz; Gregory Sonnier; Hans Van Calster; Donald M. Waller; Gian-Reto Walther; Peter S. White; Kerry D. Woods; Monika Wulf; Bente Jessen Graae; Kris Verheyen

doi:10.1073/pnas.1311190110

Microclimate moderates plant responses to macroclimate warming

Pieter De Frenne, Francisco Rodriguez-Sanchez, David Anthony Coomes, Lander Baeten, Gorik Verstraeten, Mark Vellend, Markus Bernhardt-Roemermann, Carissa D. Brown, Jorg Brunet, Johnny Cornelis, Guillaume M. Decocq, Hartmut Dierschke, Ove Eriksson, Frank S. Gilliam, Radim Hedl, Thilo Heinken, Martin Hermy, Patrick Hommel, Michael A. Jenkins, Daniel L. KellyKeith J. Kirby, Fraser J. G. Mitchell, Tobias Naaf, Miles Newman, George Peterken, Petr Petrik, Jan Schultz, Gregory Sonnier, Hans Van Calster, Donald M. Waller, Gian-Reto Walther, Peter S. White, Kerry D. Woods, Monika Wulf, Bente Jessen Graae, Kris Verheyen

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Recent global warming is acting across marine, freshwater, and terrestrial ecosystems to favor species adapted to warmer conditions and/or reduce the abundance of cold-adapted organisms (i.e., ``thermophilization'' of communities). Lack of community responses to increased temperature, however, has also been reported for several taxa and regions, suggesting that ``climatic lags'' may be frequent. Here we show that microclimatic effects brought about by forest canopy closure can buffer biotic responses to macroclimate warming, thus explaining an apparent climatic lag. Using data from 1,409 vegetation plots in European and North American temperate forests, each surveyed at least twice over an interval of 12-67 y, we document significant thermophilization of ground-layer plant communities. These changes reflect concurrent declines in species adapted to cooler conditions and increases in species adapted to warmer conditions. However, thermophilization, particularly the increase of warm-adapted species, is attenuated in forests whose canopies have become denser, probably reflecting cooler growing-season ground temperatures via increased shading. As standing stocks of trees have increased in many temperate forests in recent decades, local microclimatic effects may commonly be moderating the impacts of macroclimate warming on forest understories. Conversely, increases in harvesting woody biomass-e.g., for bioenergy-may open forest canopies and accelerate thermophilization of temperate forest biodiversity.

Oorspronkelijke taal	Engels
Tijdschrift	Proceedings of the National Acadamy of Sciences
Volume	110
Exemplaarnummer	46
Pagina's (van-tot)	18561-18565
Aantal pagina’s	5
DOI's	https://doi.org/10.1073/pnas.1311190110
Publicatiestatus	Gepubliceerd - 12-nov.-2013

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10.1073/pnas.1311190110

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Dit citeren

De Frenne, P., Rodriguez-Sanchez, F., Coomes, D. A., Baeten, L., Verstraeten, G., Vellend, M., Bernhardt-Roemermann, M., Brown, C. D., Brunet, J., Cornelis, J., Decocq, G. M., Dierschke, H., Eriksson, O., Gilliam, F. S., Hedl, R., Heinken, T., Hermy, M., Hommel, P., Jenkins, M. A., ... Verheyen, K. (2013). Microclimate moderates plant responses to macroclimate warming. Proceedings of the National Acadamy of Sciences, 110(46), 18561-18565. https://doi.org/10.1073/pnas.1311190110

@article{f4ca2df1485a4064a6c697527c0d1118,

title = "Microclimate moderates plant responses to macroclimate warming",

abstract = "Recent global warming is acting across marine, freshwater, and terrestrial ecosystems to favor species adapted to warmer conditions and/or reduce the abundance of cold-adapted organisms (i.e., ``thermophilization'' of communities). Lack of community responses to increased temperature, however, has also been reported for several taxa and regions, suggesting that ``climatic lags'' may be frequent. Here we show that microclimatic effects brought about by forest canopy closure can buffer biotic responses to macroclimate warming, thus explaining an apparent climatic lag. Using data from 1,409 vegetation plots in European and North American temperate forests, each surveyed at least twice over an interval of 12-67 y, we document significant thermophilization of ground-layer plant communities. These changes reflect concurrent declines in species adapted to cooler conditions and increases in species adapted to warmer conditions. However, thermophilization, particularly the increase of warm-adapted species, is attenuated in forests whose canopies have become denser, probably reflecting cooler growing-season ground temperatures via increased shading. As standing stocks of trees have increased in many temperate forests in recent decades, local microclimatic effects may commonly be moderating the impacts of macroclimate warming on forest understories. Conversely, increases in harvesting woody biomass-e.g., for bioenergy-may open forest canopies and accelerate thermophilization of temperate forest biodiversity.",

author = "{De Frenne}, Pieter and Francisco Rodriguez-Sanchez and Coomes, {David Anthony} and Lander Baeten and Gorik Verstraeten and Mark Vellend and Markus Bernhardt-Roemermann and Brown, {Carissa D.} and Jorg Brunet and Johnny Cornelis and Decocq, {Guillaume M.} and Hartmut Dierschke and Ove Eriksson and Gilliam, {Frank S.} and Radim Hedl and Thilo Heinken and Martin Hermy and Patrick Hommel and Jenkins, {Michael A.} and Kelly, {Daniel L.} and Kirby, {Keith J.} and Mitchell, {Fraser J. G.} and Tobias Naaf and Miles Newman and George Peterken and Petr Petrik and Jan Schultz and Gregory Sonnier and {Van Calster}, Hans and Waller, {Donald M.} and Gian-Reto Walther and White, {Peter S.} and Woods, {Kerry D.} and Monika Wulf and Graae, {Bente Jessen} and Kris Verheyen",

year = "2013",

month = nov,

day = "12",

doi = "10.1073/pnas.1311190110",

language = "English",

volume = "110",

pages = "18561--18565",

journal = "Proceedings of the National Acadamy of Sciences",

number = "46",

}

De Frenne, P, Rodriguez-Sanchez, F, Coomes, DA, Baeten, L, Verstraeten, G, Vellend, M, Bernhardt-Roemermann, M, Brown, CD, Brunet, J, Cornelis, J, Decocq, GM, Dierschke, H, Eriksson, O, Gilliam, FS, Hedl, R, Heinken, T, Hermy, M, Hommel, P, Jenkins, MA, Kelly, DL, Kirby, KJ, Mitchell, FJG, Naaf, T, Newman, M, Peterken, G, Petrik, P, Schultz, J, Sonnier, G, Van Calster, H, Waller, DM, Walther, G-R, White, PS, Woods, KD, Wulf, M, Graae, BJ & Verheyen, K 2013, 'Microclimate moderates plant responses to macroclimate warming', Proceedings of the National Acadamy of Sciences, vol. 110, nr. 46, blz. 18561-18565. https://doi.org/10.1073/pnas.1311190110

TY - JOUR

T1 - Microclimate moderates plant responses to macroclimate warming

AU - De Frenne, Pieter

AU - Rodriguez-Sanchez, Francisco

AU - Coomes, David Anthony

AU - Baeten, Lander

AU - Verstraeten, Gorik

AU - Vellend, Mark

AU - Bernhardt-Roemermann, Markus

AU - Brown, Carissa D.

AU - Brunet, Jorg

AU - Cornelis, Johnny

AU - Decocq, Guillaume M.

AU - Dierschke, Hartmut

AU - Eriksson, Ove

AU - Gilliam, Frank S.

AU - Hedl, Radim

AU - Heinken, Thilo

AU - Hermy, Martin

AU - Hommel, Patrick

AU - Jenkins, Michael A.

AU - Kelly, Daniel L.

AU - Kirby, Keith J.

AU - Mitchell, Fraser J. G.

AU - Naaf, Tobias

AU - Newman, Miles

AU - Peterken, George

AU - Petrik, Petr

AU - Schultz, Jan

AU - Sonnier, Gregory

AU - Van Calster, Hans

AU - Waller, Donald M.

AU - Walther, Gian-Reto

AU - White, Peter S.

AU - Woods, Kerry D.

AU - Wulf, Monika

AU - Graae, Bente Jessen

AU - Verheyen, Kris

PY - 2013/11/12

Y1 - 2013/11/12

N2 - Recent global warming is acting across marine, freshwater, and terrestrial ecosystems to favor species adapted to warmer conditions and/or reduce the abundance of cold-adapted organisms (i.e., ``thermophilization'' of communities). Lack of community responses to increased temperature, however, has also been reported for several taxa and regions, suggesting that ``climatic lags'' may be frequent. Here we show that microclimatic effects brought about by forest canopy closure can buffer biotic responses to macroclimate warming, thus explaining an apparent climatic lag. Using data from 1,409 vegetation plots in European and North American temperate forests, each surveyed at least twice over an interval of 12-67 y, we document significant thermophilization of ground-layer plant communities. These changes reflect concurrent declines in species adapted to cooler conditions and increases in species adapted to warmer conditions. However, thermophilization, particularly the increase of warm-adapted species, is attenuated in forests whose canopies have become denser, probably reflecting cooler growing-season ground temperatures via increased shading. As standing stocks of trees have increased in many temperate forests in recent decades, local microclimatic effects may commonly be moderating the impacts of macroclimate warming on forest understories. Conversely, increases in harvesting woody biomass-e.g., for bioenergy-may open forest canopies and accelerate thermophilization of temperate forest biodiversity.

AB - Recent global warming is acting across marine, freshwater, and terrestrial ecosystems to favor species adapted to warmer conditions and/or reduce the abundance of cold-adapted organisms (i.e., ``thermophilization'' of communities). Lack of community responses to increased temperature, however, has also been reported for several taxa and regions, suggesting that ``climatic lags'' may be frequent. Here we show that microclimatic effects brought about by forest canopy closure can buffer biotic responses to macroclimate warming, thus explaining an apparent climatic lag. Using data from 1,409 vegetation plots in European and North American temperate forests, each surveyed at least twice over an interval of 12-67 y, we document significant thermophilization of ground-layer plant communities. These changes reflect concurrent declines in species adapted to cooler conditions and increases in species adapted to warmer conditions. However, thermophilization, particularly the increase of warm-adapted species, is attenuated in forests whose canopies have become denser, probably reflecting cooler growing-season ground temperatures via increased shading. As standing stocks of trees have increased in many temperate forests in recent decades, local microclimatic effects may commonly be moderating the impacts of macroclimate warming on forest understories. Conversely, increases in harvesting woody biomass-e.g., for bioenergy-may open forest canopies and accelerate thermophilization of temperate forest biodiversity.

U2 - 10.1073/pnas.1311190110

DO - 10.1073/pnas.1311190110

M3 - A1: Web of Science-article

VL - 110

SP - 18561

EP - 18565

JO - Proceedings of the National Acadamy of Sciences

JF - Proceedings of the National Acadamy of Sciences

IS - 46

ER -