Increased sensitivity to climate change in disturbed ecosystems

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Increased sensitivity to climate change in disturbed ecosystems. / Kroel-Dulay, G.; Ransijn, J.; Schmidt, I.K. et al.
Yn: Nature Communications, Cyfrol 6, Rhif 6682, 24.03.2015.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Kroel-Dulay, G, Ransijn, J, Schmidt, IK, Beier, C, De Angelis, P, de Dato, G, Dukes, JS, Emmett, B, Estiarte, M, Garadnai, J, Kongstad, J, Kovacs-Lang, E, Larsen, KL, Liberati, D, Ogaya, R, Riis-Nielsen, T, Smith, A, Sowerby, A, Tietma, A & Penuelas, J 2015, 'Increased sensitivity to climate change in disturbed ecosystems', Nature Communications, cyfrol. 6, rhif 6682. https://doi.org/10.1038/ncomms7682

APA

Kroel-Dulay, G., Ransijn, J., Schmidt, I. K., Beier, C., De Angelis, P., de Dato, G., Dukes, J. S., Emmett, B., Estiarte, M., Garadnai, J., Kongstad, J., Kovacs-Lang, E., Larsen, K. L., Liberati, D., Ogaya, R., Riis-Nielsen, T., Smith, A., Sowerby, A., Tietma, A., & Penuelas, J. (2015). Increased sensitivity to climate change in disturbed ecosystems. Nature Communications, 6(6682). https://doi.org/10.1038/ncomms7682

CBE

Kroel-Dulay G, Ransijn J, Schmidt IK, Beier C, De Angelis P, de Dato G, Dukes JS, Emmett B, Estiarte M, Garadnai J, et al. 2015. Increased sensitivity to climate change in disturbed ecosystems. Nature Communications. 6(6682). https://doi.org/10.1038/ncomms7682

MLA

VancouverVancouver

Kroel-Dulay G, Ransijn J, Schmidt IK, Beier C, De Angelis P, de Dato G et al. Increased sensitivity to climate change in disturbed ecosystems. Nature Communications. 2015 Maw 24;6(6682). doi: 10.1038/ncomms7682

Author

Kroel-Dulay, G. ; Ransijn, J. ; Schmidt, I.K. et al. / Increased sensitivity to climate change in disturbed ecosystems. Yn: Nature Communications. 2015 ; Cyfrol 6, Rhif 6682.

RIS

TY - JOUR

T1 - Increased sensitivity to climate change in disturbed ecosystems

AU - Kroel-Dulay, G.

AU - Ransijn, J.

AU - Schmidt, I.K.

AU - Beier, C.

AU - De Angelis, P.

AU - de Dato, G.

AU - Dukes, J.S.

AU - Emmett, B.

AU - Estiarte, M.

AU - Garadnai, J.

AU - Kongstad, J.

AU - Kovacs-Lang, E.

AU - Larsen, K.L.

AU - Liberati, D.

AU - Ogaya, R.

AU - Riis-Nielsen, T.

AU - Smith, A.

AU - Sowerby, A.

AU - Tietma, A.

AU - Penuelas, J.

PY - 2015/3/24

Y1 - 2015/3/24

N2 - Human domination of the biosphere includes changes to disturbance regimes, which push many ecosystems towards early-successional states. Ecological theory predicts that early-successional ecosystems are more sensitive to perturbations than mature systems, but little evidence supports this relationship for the perturbation of climate change. Here we show that vegetation (abundance, species richness and species composition) across seven European shrublands is quite resistant to moderate experimental warming and drought, and responsiveness is associated with the dynamic state of the ecosystem, with recently disturbed sites responding to treatments. Furthermore, most of these responses are not rapid (2–5 years) but emerge over a longer term (7–14 years). These results suggest that successional state influences the sensitivity of ecosystems to climate change, and that ecosystems recovering from disturbances may be sensitive to even modest climatic changes. A research bias towards undisturbed ecosystems might thus lead to an underestimation of the impacts of climate change.

AB - Human domination of the biosphere includes changes to disturbance regimes, which push many ecosystems towards early-successional states. Ecological theory predicts that early-successional ecosystems are more sensitive to perturbations than mature systems, but little evidence supports this relationship for the perturbation of climate change. Here we show that vegetation (abundance, species richness and species composition) across seven European shrublands is quite resistant to moderate experimental warming and drought, and responsiveness is associated with the dynamic state of the ecosystem, with recently disturbed sites responding to treatments. Furthermore, most of these responses are not rapid (2–5 years) but emerge over a longer term (7–14 years). These results suggest that successional state influences the sensitivity of ecosystems to climate change, and that ecosystems recovering from disturbances may be sensitive to even modest climatic changes. A research bias towards undisturbed ecosystems might thus lead to an underestimation of the impacts of climate change.

UR - https://static-content.springer.com/esm/art%3A10.1038%2Fncomms7682/MediaObjects/41467_2015_BFncomms7682_MOESM1475_ESM.pdf

U2 - 10.1038/ncomms7682

DO - 10.1038/ncomms7682

M3 - Article

VL - 6

JO - Nature Communications

JF - Nature Communications

SN - 2041-1723

IS - 6682

ER -