|Hydrological feedbacks in northern peatlands|
JM Waddington, PJ Morris, N Kettridge, G Granath, DK Thompson, ...
Ecohydrology 8 (1), 113-127, 2015
|Climatic modifiers of the response to nitrogen deposition in peat‐forming Sphagnum mosses: a meta‐analysis|
J Limpens, G Granath, U Gunnarsson, R Aerts, S Bayley, L Bragazza, ...
New Phytologist 191 (2), 496-507, 2011
|Rapid ecosystem shifts in peatlands: linking plant physiology and succession|
G Granath, J Strengbom, H Rydin
Ecology 91 (10), 3047-3056, 2010
|Photosynthesis, growth, and decay traits in Sphagnum – a multispecies comparison|
F Bengtsson, G Granath, H Rydin
Ecology and Evolution 6 (10), 3325-3341, 2016
|Photosynthetic performance in Sphagnum transplanted along a latitudinal nitrogen deposition gradient|
G Granath, J Strengbom, A Breeuwer, MMPD Heijmans, F Berendse, ...
Oecologia 159, 705-715, 2009
|Mitigating wildfire carbon loss in managed northern peatlands through restoration|
G Granath, PA Moore, MC Lukenbach, JM Waddington
Scientific reports 6 (1), 28498, 2016
|Evolution of niche preference in Sphagnum peat mosses|
MG Johnson, G Granath, T Tahvanainen, R Pouliot, HK Stenøien, ...
Evolution 69 (1), 90-103, 2015
|Direct physiological effects of nitrogen on Sphagnum: a greenhouse experiment|
G Granath, J Strengbom, H Rydin
Functional Ecology 26 (2), 353-364, 2012
|Global urban environmental change drives adaptation in white clover|
JS Santangelo, RW Ness, B Cohan, CR Fitzpatrick, SG Innes, S Koch, ...
Science 375 (6586), 1275-1281, 2022
|Physiological responses to nitrogen and sulphur addition and raised temperature in Sphagnum balticum|
G Granath, MM Wiedermann, J Strengbom
Oecologia 161, 481-490, 2009
|Tradeoffs and scaling of functional traits in Sphagnum as drivers of carbon cycling in peatlands|
CG Laing, G Granath, LR Belyea, KE Allton, H Rydin
Oikos 123 (7), 817-828, 2014
|Glasshouse vs field experiments: do they yield ecologically similar results for assessing N impacts on peat mosses?|
J Limpens, G Granath, R Aerts, MMPD Heijmans, LJ Sheppard, ...
New Phytologist 195 (2), 408-418, 2012
|The Sphagnome Project: enabling ecological and evolutionary insights through a genus‐level sequencing project|
DJ Weston, MR Turetsky, MG Johnson, G Granath, Z Lindo, LR Belyea, ...
New Phytologist 217 (1), 16-25, 2018
|Variation in the abundance of fungal endophytes in fescue grasses along altitudinal and grazing gradients|
G Granath, M Vicari, DR Bazely, JP Ball, A Puentes, T Rakocevic
Ecography 30 (3), 422-430, 2007
|Crown‐fire severity is more important than ground‐fire severity in determining soil fungal community development in the boreal forest|
L Pérez‐Izquierdo, KE Clemmensen, J Strengbom, G Granath, DA Wardle, ...
Journal of Ecology 109 (1), 504-518, 2021
|Environmental drivers of Sphagnum growth in peatlands across the Holarctic region|
F Bengtsson, H Rydin, JL Baltzer, L Bragazza, ZJ Bu, SJM Caporn, ...
Journal of Ecology 109 (1), 417-431, 2021
|Dispersal limitations and historical factors determine the biogeography of specialized terrestrial protists|
D Singer, EAD Mitchell, RJ Payne, Q Blandenier, C Duckert, ...
Molecular Ecology 28 (12), 3089-3100, 2019
|Post-fire ecohydrological conditions at peatland margins in different hydrogeological settings of the Boreal Plain|
MC Lukenbach, KJ Hokanson, KJ Devito, N Kettridge, RM Petrone, ...
Journal of Hydrology 548, 741-753, 2017
|Spatio-temporal trends of nitrogen deposition and climate effects on Sphagnum productivity in European peatlands|
G Granath, J Limpens, M Posch, S Mücher, W de Vries
Environmental Pollution 187, 73-80, 2014
|Sustained biogeochemical impacts of wildfire in a mountain lake catchment|
CD Evans, IA Malcolm, EM Shilland, NL Rose, SD Turner, A Crilly, ...
Ecosystems 20, 813-829, 2017