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SC Elmendorf, GHR Henry, RD Hollister, RG Björk, AD Bjorkman, ...
Ecology letters 15 (2), 164-175, 2012
|Global patterns of foliar nitrogen isotopes and their relationships with climate, mycorrhizal fungi, foliar nutrient concentrations, and nitrogen availability|
JM Craine, AJ Elmore, MPM Aidar, M Bustamante, TE Dawson, ...
New Phytologist 183 (4), 980-992, 2009
|Plot-scale evidence of tundra vegetation change and links to recent summer warming|
SC Elmendorf, GHR Henry, RD Hollister, RG Björk, N Boulanger-Lapointe, ...
Nature Climate Change 2 (6), 453-457, 2012
|Quantifying global soil carbon losses in response to warming|
TW Crowther, KEO Todd-Brown, CW Rowe, WR Wieder, JC Carey, ...
Nature 540 (7631), 104-108, 2016
|Global change and arctic ecosystems: is lichen decline a function of increases in vascular plant biomass?|
JHC Cornelissen, TV Callaghan, JM Alatalo, A Michelsen, E Graglia, ...
Journal of Ecology 89 (6), 984-994, 2001
|Global negative vegetation feedback to climate warming responses of leaf litter decomposition rates in cold biomes|
JHC Cornelissen, PM Van Bodegom, R Aerts, TV Callaghan, ...
Ecology letters 10 (7), 619-627, 2007
|Responses in microbes and plants to changed temperature, nutrient, and light regimes in the arctic|
S Jonasson, A Michelsen, IK Schmidt, EV Nielsen
Ecology 80 (6), 1828-1843, 1999
|Leaf 15N abundance of subarctic plants provides field evidence that ericoid, ectomycorrhizal and non-and arbuscular mycorrhizal species access different sources …|
A Michelsen, IK Schmidt, S Jonasson, C Quarmby, D Sleep
Oecologia 105 (1), 53-63, 1996
|Freeze–thaw regime effects on carbon and nitrogen dynamics in sub-arctic heath tundra mesocosms|
P Grogan, A Michelsen, P Ambus, S Jonasson
Soil Biology and Biochemistry 36 (4), 641-654, 2004
|Long‐term ecosystem level experiments at Toolik Lake, Alaska, and at Abisko, Northern Sweden: generalizations and differences in ecosystem and plant type responses to global change|
MT Van Wijk, KE Clemmensen, GR Shaver, M Williams, TV Callaghan, ...
Global Change Biology 10 (1), 105-123, 2004
|Microbial biomass C, N and P in two arctic soils and responses to addition of NPK fertilizer and sugar: implications for plant nutrient uptake|
S Jonasson, A Michelsen, IK Schmidt, EV Nielsen, TV Callaghan
Oecologia 106 (4), 507-515, 1996
|Fifteen years of climate change manipulations alter soil microbial communities in a subarctic heath ecosystem|
R Rinnan, A Michelsen, E Bååth, S Jonasson
Global Change Biology 13 (1), 28-39, 2007
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A Michelsen, C Quarmby, D Sleep, S Jonasson
Oecologia 115 (3), 406-418, 1998
|Repeated freeze–thaw cycles and their effects on biological processes in two arctic ecosystem types|
KS Larsen, S Jonasson, A Michelsen
Applied Soil Ecology 21 (3), 187-195, 2002
|Mineralization and microbial immobilization of N and P in arctic soils in relation to season, temperature and nutrient amendment|
IK Schmidt, S Jonasson, A Michelsen
Applied Soil Ecology 11 (2-3), 147-160, 1999
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KE Clemmensen, A Michelsen, S Jonasson, GR Shaver
New phytologist 171 (2), 391-404, 2006
|Mineralization and distribution of nutrients in plants and microbes in four arctic ecosystems: responses to warming|
IK Schmidt, S Jonasson, GR Shaver, A Michelsen, A Nordin
Plant and Soil 242 (1), 93-106, 2002
|Reduced N cycling in response to elevated CO2, warming, and drought in a Danish heathland: Synthesizing results of the CLIMAITE project after two years of …|
KS Larsen, LC Andresen, C Beier, S Jonasson, KR Albert, PER Ambus, ...
Global Change Biology 17 (5), 1884-1899, 2011
|Coupling of nutrient cycling and carbon dynamics in the Arctic, integration of soil microbial and plant processes|
S Jonasson, A Michelsen, IK Schmidt
Applied Soil Ecology 11 (2-3), 135-146, 1999
|Plant functional trait change across a warming tundra biome|
AD Bjorkman, IH Myers-Smith, SC Elmendorf, S Normand, N Rüger, ...
Nature 562 (7725), 57-62, 2018