Tree diversity does not always improve resistance of forest ecosystems to drought

Charlotte Grossiord; André Granier; Sophia Ratcliffe; Olivier Bouriaud; Helge Bruelheide; Ewa  Chećko; D.I. Forrester; Seid Muhie Dawud; Leena Finér; Martina Pollastrini; Michael Scherer-Lorenzen; Fernando Valladares; Damien Bonal; Arthur Gessler

doi:10.1073/pnas.1411970111

Tree diversity does not always improve resistance of forest ecosystems to drought

Charlotte Grossiord, André Granier, Sophia Ratcliffe, Olivier Bouriaud, Helge Bruelheide, Ewa Chećko, D.I. Forrester, Seid Muhie Dawud, Leena Finér, Martina Pollastrini, Michael Scherer-Lorenzen, Fernando Valladares, Damien Bonal, Arthur Gessler

LUKKET: Skov, natur og biomasse

154 Citationer (Scopus)

Abstract

Climate models predict an increase in the intensity and frequency of drought episodes in the Northern Hemisphere. Among terrestrial ecosystems, forests will be profoundly impacted by drier climatic conditions, with drastic consequences for the functions and services they supply. Simultaneously, biodiversity is known to support a wide range of forest ecosystem functions and services. However, whether biodiversity also improves the resistance of these ecosystems to drought remains unclear. We compared soil drought exposure levels in a total of 160 forest stands within five major forest types across Europe along a gradient of tree species diversity. We assessed soil drought exposure in each forest stand by calculating the stand-level increase in carbon isotope composition of late wood from a wet to a dry year (Δδ¹³C_S). Δδ¹³C_S exhibited a negative linear relationship with tree species diversity in two forest types, suggesting that species interactions in these forests diminished the drought exposure of the ecosystem. However, the other three forest types were unaffected by tree species diversity. We conclude that higher diversity enhances resistance to drought events only in drought-prone environments. Managing forest ecosystems for high tree species diversity does not necessarily assure improved adaptability to the more severe and frequent drought events predicted for the future.

Originalsprog	Engelsk
Tidsskrift	Proceedings of the National Academy of Sciences of the United States of America
Vol/bind	111
Udgave nummer	41
Sider (fra-til)	14812-14815
Antal sider	4
ISSN	0027-8424
DOI	https://doi.org/10.1073/pnas.1411970111
Status	Udgivet - 14 okt. 2014

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10.1073/pnas.1411970111

Tree diversity does not always improveForlagets udgivne version, 596 KB

http://www.pnas.org/content/111/41/14812.abstract?sid=1eb30710-76f3-40fb-b18f-fa023b8dc311

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Grossiord, C., Granier, A., Ratcliffe, S., Bouriaud, O., Bruelheide, H., Chećko, E., Forrester, D. I., Dawud, S. M., Finér, L., Pollastrini, M., Scherer-Lorenzen, M., Valladares, F., Bonal, D., & Gessler, A. (2014). Tree diversity does not always improve resistance of forest ecosystems to drought. Proceedings of the National Academy of Sciences of the United States of America, 111(41), 14812-14815. https://doi.org/10.1073/pnas.1411970111

Grossiord, C, Granier, A, Ratcliffe, S, Bouriaud, O, Bruelheide, H, Chećko, E, Forrester, DI, Dawud, SM, Finér, L, Pollastrini, M, Scherer-Lorenzen, M, Valladares, F, Bonal, D & Gessler, A 2014, 'Tree diversity does not always improve resistance of forest ecosystems to drought', Proceedings of the National Academy of Sciences of the United States of America, bind 111, nr. 41, s. 14812-14815. https://doi.org/10.1073/pnas.1411970111

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abstract = "Climate models predict an increase in the intensity and frequency of drought episodes in the Northern Hemisphere. Among terrestrial ecosystems, forests will be profoundly impacted by drier climatic conditions, with drastic consequences for the functions and services they supply. Simultaneously, biodiversity is known to support a wide range of forest ecosystem functions and services. However, whether biodiversity also improves the resistance of these ecosystems to drought remains unclear. We compared soil drought exposure levels in a total of 160 forest stands within five major forest types across Europe along a gradient of tree species diversity. We assessed soil drought exposure in each forest stand by calculating the stand-level increase in carbon isotope composition of late wood from a wet to a dry year (Δδ13CS). Δδ13CS exhibited a negative linear relationship with tree species diversity in two forest types, suggesting that species interactions in these forests diminished the drought exposure of the ecosystem. However, the other three forest types were unaffected by tree species diversity. We conclude that higher diversity enhances resistance to drought events only in drought-prone environments. Managing forest ecosystems for high tree species diversity does not necessarily assure improved adaptability to the more severe and frequent drought events predicted for the future. ",

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AU - Grossiord, Charlotte

AU - Granier, André

AU - Ratcliffe, Sophia

AU - Bouriaud, Olivier

AU - Bruelheide, Helge

AU - Chećko, Ewa

AU - Forrester, D.I.

AU - Dawud, Seid Muhie

AU - Finér, Leena

AU - Pollastrini, Martina

AU - Scherer-Lorenzen, Michael

AU - Valladares, Fernando

AU - Bonal, Damien

AU - Gessler, Arthur

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N2 - Climate models predict an increase in the intensity and frequency of drought episodes in the Northern Hemisphere. Among terrestrial ecosystems, forests will be profoundly impacted by drier climatic conditions, with drastic consequences for the functions and services they supply. Simultaneously, biodiversity is known to support a wide range of forest ecosystem functions and services. However, whether biodiversity also improves the resistance of these ecosystems to drought remains unclear. We compared soil drought exposure levels in a total of 160 forest stands within five major forest types across Europe along a gradient of tree species diversity. We assessed soil drought exposure in each forest stand by calculating the stand-level increase in carbon isotope composition of late wood from a wet to a dry year (Δδ13CS). Δδ13CS exhibited a negative linear relationship with tree species diversity in two forest types, suggesting that species interactions in these forests diminished the drought exposure of the ecosystem. However, the other three forest types were unaffected by tree species diversity. We conclude that higher diversity enhances resistance to drought events only in drought-prone environments. Managing forest ecosystems for high tree species diversity does not necessarily assure improved adaptability to the more severe and frequent drought events predicted for the future.

AB - Climate models predict an increase in the intensity and frequency of drought episodes in the Northern Hemisphere. Among terrestrial ecosystems, forests will be profoundly impacted by drier climatic conditions, with drastic consequences for the functions and services they supply. Simultaneously, biodiversity is known to support a wide range of forest ecosystem functions and services. However, whether biodiversity also improves the resistance of these ecosystems to drought remains unclear. We compared soil drought exposure levels in a total of 160 forest stands within five major forest types across Europe along a gradient of tree species diversity. We assessed soil drought exposure in each forest stand by calculating the stand-level increase in carbon isotope composition of late wood from a wet to a dry year (Δδ13CS). Δδ13CS exhibited a negative linear relationship with tree species diversity in two forest types, suggesting that species interactions in these forests diminished the drought exposure of the ecosystem. However, the other three forest types were unaffected by tree species diversity. We conclude that higher diversity enhances resistance to drought events only in drought-prone environments. Managing forest ecosystems for high tree species diversity does not necessarily assure improved adaptability to the more severe and frequent drought events predicted for the future.

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Tree diversity does not always improve resistance of forest ecosystems to drought

Abstract

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