Increasing contribution of peatlands to boreal evapotranspiration in a warming climate

被引:0
|
作者
Manuel Helbig
James Michael Waddington
Pavel Alekseychik
Brian D. Amiro
Mika Aurela
Alan G. Barr
T. Andrew Black
Peter D. Blanken
Sean K. Carey
Jiquan Chen
Jinshu Chi
Ankur R. Desai
Allison Dunn
Eugenie S. Euskirchen
Lawrence B. Flanagan
Inke Forbrich
Thomas Friborg
Achim Grelle
Silvie Harder
Michal Heliasz
Elyn R. Humphreys
Hiroki Ikawa
Pierre-Erik Isabelle
Hiroki Iwata
Rachhpal Jassal
Mika Korkiakoski
Juliya Kurbatova
Lars Kutzbach
Anders Lindroth
Mikaell Ottosson Löfvenius
Annalea Lohila
Ivan Mammarella
Philip Marsh
Trofim Maximov
Joe R. Melton
Paul A. Moore
Daniel F. Nadeau
Erin M. Nicholls
Mats B. Nilsson
Takeshi Ohta
Matthias Peichl
Richard M. Petrone
Roman Petrov
Anatoly Prokushkin
William L. Quinton
David E. Reed
Nigel T. Roulet
Benjamin R. K. Runkle
Oliver Sonnentag
Ian B. Strachan
机构
[1] McMaster University,School of Geography and Earth Sciences
[2] University of Helsinki,Department of Physics
[3] Natural Resources Institute Finland (LUKE),Department of Soil Science
[4] University of Manitoba,Global Institute for Water Security
[5] Finnish Meteorological Institute,Faculty of Land and Food Systems
[6] Climate Research Division,Department of Geography
[7] Environment and Climate Change Canada,Department of Geography, Environment, and Spatial Sciences
[8] University of Saskatchewan,Department of Forest Ecology and Management
[9] The University of British Columbia,Department of Atmospheric and Oceanic Sciences
[10] University of Colorado,Department of Earth, Environment, and Physics
[11] Michigan State University,Institute of Arctic Biology
[12] Swedish University of Agricultural Sciences,Department of Biological Sciences
[13] University of Wisconsin–Madison,The Ecosystems Center
[14] Worcester State University,Department of Geosciences and Natural Resource Management
[15] University of Alaska Fairbanks,Department of Ecology
[16] University of Lethbridge,Department of Geography
[17] Marine Biological Laboratory,Centre for Environmental and Climate Research
[18] University of Copenhagen,Department of Geography and Environmental Studies
[19] Swedish University of Agricultural Sciences,Département de Génie Civil et de Génie des Eaux
[20] McGill University,Department of Environmental Science
[21] Lund University,Department of Physical Geography and Ecosystem Science
[22] Carleton University,Cold Regions Research Centre
[23] Institute for Agro-Environmental Sciences National Agriculture and Food Research Organization,Graduate School of Bioagricultural Sciences
[24] Université Laval,Department of Geography and Environmental Management
[25] Shinshu University,Department of Biological and Agricultural Engineering
[26] A.N. Severtsov Institute of Ecology and Evolution,Département de Géographie and Centre d’Études Nordiques
[27] Russian Academy of Sciences,Department of Natural Resource Sciences
[28] Institute of Soil Science,School of Forest Sciences
[29] University of Hamburg,Graduate School of Life and Environmental Sciences
[30] Lund University,Institute of Botany and Landscape Ecology
[31] Wilfrid Laurier University,Department of Earth and Planetary Sciences
[32] Institute for Biological Problems of Cryolithozone,Department of Physics and Atmospheric Science
[33] Siberian Branch of the Russian Academy of Sciences,undefined
[34] Climate Research Division,undefined
[35] Environment and Climate Change Canada,undefined
[36] Nagoya University,undefined
[37] University of Waterloo,undefined
[38] V.N. Sukachev Institute of Forest,undefined
[39] Siberian Branch of the Russian Academy of Sciences,undefined
[40] University of Arkansas,undefined
[41] Université de Montréal,undefined
[42] McGill University,undefined
[43] Université du Québec à Montréal—Geotop,undefined
[44] University of Eastern Finland,undefined
[45] Osaka Prefecture University,undefined
[46] University of Greifswald,undefined
[47] Harvard University,undefined
[48] Dalhousie University,undefined
来源
Nature Climate Change | 2020年 / 10卷
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摘要
The response of evapotranspiration (ET) to warming is of critical importance to the water and carbon cycle of the boreal biome, a mosaic of land cover types dominated by forests and peatlands. The effect of warming-induced vapour pressure deficit (VPD) increases on boreal ET remains poorly understood because peatlands are not specifically represented as plant functional types in Earth system models. Here we show that peatland ET increases more than forest ET with increasing VPD using observations from 95 eddy covariance tower sites. At high VPD of more than 2 kPa, peatland ET exceeds forest ET by up to 30%. Future (2091–2100) mid-growing season peatland ET is estimated to exceed forest ET by over 20% in about one-third of the boreal biome for RCP4.5 and about two-thirds for RCP8.5. Peatland-specific ET responses to VPD should therefore be included in Earth system models to avoid biases in water and carbon cycle projections.
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页码:555 / 560
页数:5
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