Europe-wide reduction in primary productivity caused by the heat and drought in 2003

Ph Ciais; M. Reichstein; N. Viovy; A. Granier; J. Ogée; V. Allard; M. Aubinet; N. Buchmann; Chr Bernhofer; A. Carrara; F. Chevallier; N. De Noblet; A. D. Friend; P. Friedlingstein; T. Grünwald; B. Heinesch; P. Keronen; A. Knohl; G. Krinner; D. Loustau; G. Manca; G. Matteucci; F. Miglietta; J. M. Ourcival; D. Papale; K. Pilegaard; S. Rambal; G. Seufert; J. F. Soussana; M. J. Sanz; E. D. Schulze; T. Vesala; R. Valentini

doi:10.1038/nature03972

Europe-wide reduction in primary productivity caused by the heat and drought in 2003

Ph Ciais
, M. Reichstein
, N. Viovy
, A. Granier
, J. Ogée
, V. Allard
, M. Aubinet
, N. Buchmann
, Chr Bernhofer
, A. Carrara
, F. Chevallier
, N. De Noblet
, A. D. Friend
, P. Friedlingstein
, T. Grünwald
, B. Heinesch
, P. Keronen
, A. Knohl
, G. Krinner
, D. Loustau

G. Manca, G. Matteucci, F. Miglietta, J. M. Ourcival, D. Papale, K. Pilegaard, S. Rambal, G. Seufert, J. F. Soussana, M. J. Sanz, E. D. Schulze, T. Vesala, R. Valentini

UVSQ
Tuscia University
Potsdam Institute for Climate Impact Research (PIK)
UMR 1092 LERFOB
UR1263 EPHYSE
Grassland Ecosystems Research (UREP)
ETH Zurich
University of Liège
Technical University Dresden
Parque Tecnologico de Paterna
University of Helsinki
Max Planck Institute for Biogeochemistry
Department of Environmental Science, Policy, and Management
UJF
Centro di Ecologia Alpina
European Commission Joint Research Centre
ISAFOM-CNR
Ev-K2-CNR Committee
CNRS
Technical University of Denmark

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Future climate warming is expected to enhance plant growth in temperate ecosystems and to increase carbon sequestration. But although severe regional heatwaves may become more frequent in a changing climate, their impact on terrestrial carbon cycling is unclear. Here we report measurements of ecosystem carbon dioxide fluxes, remotely sensed radiation absorbed by plants, and country-level crop yields taken during the European heatwave in 2003. We use a terrestrial biosphere simulation model to assess continental-scale changes in primary productivity during 2003, and their consequences for the net carbon balance. We estimate a 30 per cent reduction in gross primary productivity over Europe, which resulted in a strong anomalous net source of carbon dioxide (0.5 Pg C yr^-1) to the atmosphere and reversed the effect of four years of net ecosystem carbon sequestration. Our results suggest that productivity reduction in eastern and western Europe can be explained by rainfall deficit and extreme summer heat, respectively. We also find that ecosystem respiration decreased together with gross primary productivity, rather than accelerating with the temperature rise. Model results, corroborated by historical records of crop yields, suggest that such a reduction in Europe's primary productivity is unprecedented during the last century. An increase in future drought events could turn temperate ecosystems into carbon sources, contributing to positive carbon-climate feedbacks already anticipated in the tropics and at high latitudes.

langue originale	Anglais
Pages (de - à)	529-533
Nombre de pages	5
journal	Nature
Volume	437
Numéro de publication	7058
Les DOIs	https://doi.org/10.1038/nature03972
état	Publié - 22 sept. 2005
Modification externe	Oui

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Ce résultat contribue à ou aux Objectifs de développement durable suivants

SDG 13 Action climatique
SDG 15 Vie sur terre

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Ciais, P., Reichstein, M., Viovy, N., Granier, A., Ogée, J., Allard, V., Aubinet, M., Buchmann, N., Bernhofer, C., Carrara, A., Chevallier, F., De Noblet, N., Friend, A. D., Friedlingstein, P., Grünwald, T., Heinesch, B., Keronen, P., Knohl, A., Krinner, G., ... Valentini, R. (2005). Europe-wide reduction in primary productivity caused by the heat and drought in 2003. Nature, 437(7058), 529-533. https://doi.org/10.1038/nature03972

@article{1803bffc509342dca9f2f5e060e0a447,

title = "Europe-wide reduction in primary productivity caused by the heat and drought in 2003",

abstract = "Future climate warming is expected to enhance plant growth in temperate ecosystems and to increase carbon sequestration. But although severe regional heatwaves may become more frequent in a changing climate, their impact on terrestrial carbon cycling is unclear. Here we report measurements of ecosystem carbon dioxide fluxes, remotely sensed radiation absorbed by plants, and country-level crop yields taken during the European heatwave in 2003. We use a terrestrial biosphere simulation model to assess continental-scale changes in primary productivity during 2003, and their consequences for the net carbon balance. We estimate a 30 per cent reduction in gross primary productivity over Europe, which resulted in a strong anomalous net source of carbon dioxide (0.5 Pg C yr-1) to the atmosphere and reversed the effect of four years of net ecosystem carbon sequestration. Our results suggest that productivity reduction in eastern and western Europe can be explained by rainfall deficit and extreme summer heat, respectively. We also find that ecosystem respiration decreased together with gross primary productivity, rather than accelerating with the temperature rise. Model results, corroborated by historical records of crop yields, suggest that such a reduction in Europe's primary productivity is unprecedented during the last century. An increase in future drought events could turn temperate ecosystems into carbon sources, contributing to positive carbon-climate feedbacks already anticipated in the tropics and at high latitudes.",

author = "Ph Ciais and M. Reichstein and N. Viovy and A. Granier and J. Og{\'e}e and V. Allard and M. Aubinet and N. Buchmann and Chr Bernhofer and A. Carrara and F. Chevallier and \{De Noblet\}, N. and Friend, \{A. D.\} and P. Friedlingstein and T. Gr{\"u}nwald and B. Heinesch and P. Keronen and A. Knohl and G. Krinner and D. Loustau and G. Manca and G. Matteucci and F. Miglietta and Ourcival, \{J. M.\} and D. Papale and K. Pilegaard and S. Rambal and G. Seufert and Soussana, \{J. F.\} and Sanz, \{M. J.\} and Schulze, \{E. D.\} and T. Vesala and R. Valentini",

year = "2005",

month = sep,

day = "22",

doi = "10.1038/nature03972",

language = "English",

volume = "437",

pages = "529--533",

journal = "Nature",

issn = "0028-0836",

number = "7058",

}

Ciais, P, Reichstein, M, Viovy, N, Granier, A, Ogée, J, Allard, V, Aubinet, M, Buchmann, N, Bernhofer, C, Carrara, A, Chevallier, F, De Noblet, N, Friend, AD, Friedlingstein, P, Grünwald, T, Heinesch, B, Keronen, P, Knohl, A, Krinner, G, Loustau, D, Manca, G, Matteucci, G, Miglietta, F, Ourcival, JM, Papale, D, Pilegaard, K, Rambal, S, Seufert, G, Soussana, JF, Sanz, MJ, Schulze, ED, Vesala, T & Valentini, R 2005, 'Europe-wide reduction in primary productivity caused by the heat and drought in 2003', Nature, VOL. 437, Numéro 7058, p. 529-533. https://doi.org/10.1038/nature03972

TY - JOUR

T1 - Europe-wide reduction in primary productivity caused by the heat and drought in 2003

AU - Ciais, Ph

AU - Reichstein, M.

AU - Viovy, N.

AU - Granier, A.

AU - Ogée, J.

AU - Allard, V.

AU - Aubinet, M.

AU - Buchmann, N.

AU - Bernhofer, Chr

AU - Carrara, A.

AU - Chevallier, F.

AU - De Noblet, N.

AU - Friend, A. D.

AU - Friedlingstein, P.

AU - Grünwald, T.

AU - Heinesch, B.

AU - Keronen, P.

AU - Knohl, A.

AU - Krinner, G.

AU - Loustau, D.

AU - Manca, G.

AU - Matteucci, G.

AU - Miglietta, F.

AU - Ourcival, J. M.

AU - Papale, D.

AU - Pilegaard, K.

AU - Rambal, S.

AU - Seufert, G.

AU - Soussana, J. F.

AU - Sanz, M. J.

AU - Schulze, E. D.

AU - Vesala, T.

AU - Valentini, R.

PY - 2005/9/22

Y1 - 2005/9/22

N2 - Future climate warming is expected to enhance plant growth in temperate ecosystems and to increase carbon sequestration. But although severe regional heatwaves may become more frequent in a changing climate, their impact on terrestrial carbon cycling is unclear. Here we report measurements of ecosystem carbon dioxide fluxes, remotely sensed radiation absorbed by plants, and country-level crop yields taken during the European heatwave in 2003. We use a terrestrial biosphere simulation model to assess continental-scale changes in primary productivity during 2003, and their consequences for the net carbon balance. We estimate a 30 per cent reduction in gross primary productivity over Europe, which resulted in a strong anomalous net source of carbon dioxide (0.5 Pg C yr-1) to the atmosphere and reversed the effect of four years of net ecosystem carbon sequestration. Our results suggest that productivity reduction in eastern and western Europe can be explained by rainfall deficit and extreme summer heat, respectively. We also find that ecosystem respiration decreased together with gross primary productivity, rather than accelerating with the temperature rise. Model results, corroborated by historical records of crop yields, suggest that such a reduction in Europe's primary productivity is unprecedented during the last century. An increase in future drought events could turn temperate ecosystems into carbon sources, contributing to positive carbon-climate feedbacks already anticipated in the tropics and at high latitudes.

AB - Future climate warming is expected to enhance plant growth in temperate ecosystems and to increase carbon sequestration. But although severe regional heatwaves may become more frequent in a changing climate, their impact on terrestrial carbon cycling is unclear. Here we report measurements of ecosystem carbon dioxide fluxes, remotely sensed radiation absorbed by plants, and country-level crop yields taken during the European heatwave in 2003. We use a terrestrial biosphere simulation model to assess continental-scale changes in primary productivity during 2003, and their consequences for the net carbon balance. We estimate a 30 per cent reduction in gross primary productivity over Europe, which resulted in a strong anomalous net source of carbon dioxide (0.5 Pg C yr-1) to the atmosphere and reversed the effect of four years of net ecosystem carbon sequestration. Our results suggest that productivity reduction in eastern and western Europe can be explained by rainfall deficit and extreme summer heat, respectively. We also find that ecosystem respiration decreased together with gross primary productivity, rather than accelerating with the temperature rise. Model results, corroborated by historical records of crop yields, suggest that such a reduction in Europe's primary productivity is unprecedented during the last century. An increase in future drought events could turn temperate ecosystems into carbon sources, contributing to positive carbon-climate feedbacks already anticipated in the tropics and at high latitudes.

UR - https://www.scopus.com/pages/publications/25644445310

U2 - 10.1038/nature03972

DO - 10.1038/nature03972

M3 - Article

C2 - 16177786

AN - SCOPUS:25644445310

SN - 0028-0836

VL - 437

SP - 529

EP - 533

JO - Nature

JF - Nature

IS - 7058

ER -

Europe-wide reduction in primary productivity caused by the heat and drought in 2003

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