|Responses of tundra plants to experimental warming: meta‐analysis of the international tundra experiment|
AM Arft, MD Walker, J Gurevitch, JM Alatalo, MS Bret-Harte, M Dale, ...
Ecological monographs 69 (4), 491-511, 1999
|Shrub expansion in tundra ecosystems: dynamics, impacts and research priorities|
IH Myers-Smith, BC Forbes, M Wilmking, M Hallinger, T Lantz, D Blok, ...
Environmental Research Letters 6 (4), 045509, 2011
|Open‐top designs for manipulating field temperature in high‐latitude ecosystems|
GM Marion, GHR Henry, DW Freckman, J Johnstone, G Jones, MH Jones, ...
Global Change Biology 3 (S1), 20-32, 1997
|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, 2012
|Climate sensitivity of shrub growth across the tundra biome|
IH Myers-Smith, SC Elmendorf, PSA Beck, M Wilmking, M Hallinger, ...
Nature Climate Change 5 (9), 887, 2015
|Experiment, monitoring, and gradient methods used to infer climate change effects on plant communities yield consistent patterns|
SC Elmendorf, GHR Henry, RD Hollister, AM Fosaa, WA Gould, ...
Proceedings of the National Academy of Sciences 112 (2), 448-452, 2015
|Recent expansion of erect shrubs in the Low Arctic: evidence from Eastern Nunavik|
B Tremblay, E Lévesque, S Boudreau
Environmental Research Letters 7 (3), 035501, 2012
|Home range and movements of a wood turtle (Clemmys insculpta) population at the northern limit of its range|
M Arvisais, JC Bourgeois, E Levesque, C Daigle, D Masse, J Jutras
Canadian Journal of Zoology 80 (3), 402-408, 2002
|Methods for measuring arctic and alpine shrub growth: a review|
IH Myers-Smith, M Hallinger, D Blok, U Sass-Klaassen, SA Rayback, ...
Earth-Science Reviews 140, 1-13, 2015
|Habitat selection by the wood turtle (Clemmys insculpta) at the northern limit of its range|
M Arvisais, E Lévesque, JC Bourgeois, C Daigle, D Masse, J Jutras
Canadian Journal of Zoology 82 (3), 391-398, 2004
|The influence of biological soil crusts on soil characteristics along a High Arctic glacier foreland, Nunavut, Canada|
K Breen, E Lévesque
Arctic, Antarctic, and Alpine Research 40 (2), 287-297, 2008
|Proglacial succession of biological soil crusts and vascular plants: biotic interactions in the High Arctic|
K Breen, E Levesque
Botany 84 (11), 1714-1731, 2006
|Phenological and growth responses of Papaver radicatum along altitudinal gradients in the Canadian High Arctic|
E Lévesque, GHR Henry, J Svoboda
Global Change Biology 3 (S1), 125-145, 1997
|Effects of experimental warming on nitrogen concentration and biomass of forage plants for an arctic herbivore|
M Doiron, G Gauthier, E Lévesque
Journal of Ecology 102 (2), 508-517, 2014
|Trophic mismatch and its effects on the growth of young in an Arctic herbivore|
M Doiron, G Gauthier, E Lévesque
Global Change Biology 21 (12), 4364-4376, 2015
|Plant functional trait change across a warming tundra biome|
AD Bjorkman, IH Myers-Smith, SC Elmendorf, S Normand, N Rüger, ...
Nature 562 (7725), 57, 2018
|Greater temperature sensitivity of plant phenology at colder sites: implications for convergence across northern latitudes|
J Prevéy, M Vellend, N Rüger, RD Hollister, AD Bjorkman, ...
Global Change Biology 23 (7), 2660-2671, 2017
|Assessing permafrost degradation and land cover changes (1986–2009) using remote sensing data over Umiujaq, sub‐arctic Québec|
I Beck, R Ludwig, M Bernier, E Lévesque, J Boike
Permafrost and Periglacial Processes 26 (2), 129-141, 2015
|Effects of observed and experimental climate change on terrestrial ecosystems in northern Canada: results from the Canadian IPY program|
GHR Henry, KA Harper, W Chen, JR Deslippe, RF Grant, PM Lafleur, ...
Climatic Change 115 (1), 207-234, 2012
|Broad‐scale satellite N ormalized D ifference V egetation I ndex data predict plant biomass and peak date of nitrogen concentration in A rctic tundra vegetation|
M Doiron, P Legagneux, G Gauthier, E Lévesque
Applied Vegetation Science 16 (2), 343-351, 2013