Torben R Christensen
Torben R Christensen
Aarhus University & University of Oulu
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Ecological dynamics across the Arctic associated with recent climate change
E Post, MC Forchhammer, MS Bret-Harte, TV Callaghan, TR Christensen, ...
science 325 (5946), 1355-1358, 2009
Sensitivity of the carbon cycle in the Arctic to climate change
AD McGuire, LG Anderson, TR Christensen, S Dallimore, L Guo, ...
Ecological Monographs 79 (4), 523-555, 2009
The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data
G Pastorello, C Trotta, E Canfora, H Chu, D Christianson, YW Cheah, ...
Scientific data 7 (1), 225, 2020
Thawing sub‐arctic permafrost: Effects on vegetation and methane emissions
TR Christensen, T Johansson, HJ Åkerman, M Mastepanov, N Malmer, ...
Geophysical research letters 31 (4), 2004
Key indicators of Arctic climate change: 1971–2017
JE Box, WT Colgan, TR Christensen, NM Schmidt, M Lund, ...
Environmental Research Letters 14 (4), 045010, 2019
Climate change and Arctic ecosystems: 2. Modeling, paleodata‐model comparisons, and future projections
JO Kaplan, NH Bigelow, IC Prentice, SP Harrison, PJ Bartlein, ...
Journal of Geophysical Research: Atmospheres 108 (D19), 2003
Factors controlling large scale variations in methane emissions from wetlands
TR Christensen, A Ekberg, L Ström, M Mastepanov, N Panikov, M Öquist, ...
Geophysical Research Letters 30 (7), 2003
Vascular plant controls on methane emissions from northern peatforming wetlands
A Joabsson, TR Christensen, B Wallén
Trends in Ecology & Evolution 14 (10), 385-388, 1999
The polar regions in a 2 C warmer world
E Post, RB Alley, TR Christensen, M Macias-Fauria, BC Forbes, ...
Science advances 5 (12), eaaw9883, 2019
Species-specific effects of vascular plants on carbon turnover and methane emissions from wetlands
L Ström, M Mastepanov, TR Christensen
Biogeochemistry 75, 65-82, 2005
The effect of vascular plants on carbon turnover and methane emissions from a tundra wetland
L Ström, A Ekberg, M Mastepanov, T Røjle Christensen
Global Change Biology 9 (8), 1185-1192, 2003
Large tundra methane burst during onset of freezing
M Mastepanov, C Sigsgaard, EJ Dlugokencky, S Houweling, L Ström, ...
Nature 456 (7222), 628-630, 2008
An assessment of the carbon balance of Arctic tundra: comparisons among observations, process models, and atmospheric inversions
AD McGuire, TR Christensen, D Hayes, A Heroult, E Euskirchen, ...
Biogeosciences 9 (8), 3185-3204, 2012
Climate change and Arctic ecosystems: 1. Vegetation changes north of 55° N between the last glacial maximum, mid‐Holocene, and present
NH Bigelow, LB Brubaker, ME Edwards, SP Harrison, IC Prentice, ...
Journal of Geophysical Research: Atmospheres 108 (D19), 2003
Expert assessment of vulnerability of permafrost carbon to climate change
EAG Schuur, BW Abbott, WB Bowden, V Brovkin, P Camill, JG Canadell, ...
Climatic Change 119, 359-374, 2013
Methane emissions from wetlands and their relationship with vascular plants: an Arctic example
A Joabsson, TR Christensen
Global Change Biology 7 (8), 919-932, 2001
Decadal vegetation changes in a northern peatland, greenhouse gas fluxes and net radiative forcing
T Johansson, N Malmer, PM Crill, T Friborg, JH Åkerman, M Mastepanov, ...
Global change biology 12 (12), 2352-2369, 2006
Variability in exchange of CO2 across 12 northern peatland and tundra sites
M Lund, PM Lafleur, NT Roulet, A Lindroth, TR Christensen, M Aurela, ...
Global Change Biology 16 (9), 2436-2448, 2010
A new climate era in the sub‐Arctic: Accelerating climate changes and multiple impacts
TV Callaghan, F Bergholm, TR Christensen, C Jonasson, U Kokfelt, ...
Geophysical Research Letters 37 (14), 2010
Biodiversity, distributions and adaptations of Arctic species in the context of environmental change
TV Callaghan, LO Björn, Y Chernov, T Chapin, TR Christensen, B Huntley, ...
AMBIO: A Journal of the Human Environment 33 (7), 404-417, 2004
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