|Quantifying global soil carbon losses in response to warming|
TW Crowther, KEO Todd-Brown, CW Rowe, WR Wieder, JC Carey, ...
Nature 540 (7631), 104, 2016
|Patterns and dynamics of dissolved organic carbon (DOC) in boreal streams: the role of processes, connectivity, and scaling|
H Laudon, M Berggren, A Ågren, I Buffam, K Bishop, T Grabs, M Jansson, ...
Ecosystems 14 (6), 880-893, 2011
|Resolving the double paradox of rapidly mobilized old water with highly variable responses in runoff chemistry|
K Bishop, J Seibert, S Köhler, H Laudon
Hydrological processes 18 (1), 185-189, 2004
|Thirty‐five years of synchrony in the organic matter concentrations of Swedish rivers explained by variation in flow and sulphate|
M Erlandsson, I Buffam, J Fölster, H Laudon, J Temnerud, ...
Global Change Biology 14 (5), 1191-1198, 2008
|Contemporary carbon accumulation in a boreal oligotrophic minerogenic mire–a significant sink after accounting for all C‐fluxes|
M Nilsson, J Sagerfors, I Buffam, H Laudon, T Eriksson, A Grelle, ...
Global Change Biology 14 (10), 2317-2332, 2008
|Seasonal TOC export from seven boreal catchments in northern Sweden|
H Laudon, S Köhler, I Buffam
Aquatic Sciences 66 (2), 223-230, 2004
|Aqua Incognita: the unknown headwaters|
K Bishop, I Buffam, M Erlandsson, J Fölster, H Laudon, J Seibert, ...
Hydrological Processes: An International Journal 22 (8), 1239-1242, 2008
|Importance of seasonality and small streams for the landscape regulation of dissolved organic carbon export|
A Ågren, I Buffam, M Jansson, H Laudon
Journal of Geophysical Research: Biogeosciences 112 (G3), 2007
|The role of catchment scale and landscape characteristics for runoff generation of boreal streams|
H Laudon, V Sjöblom, I Buffam, J Seibert, M Mörth
Journal of Hydrology 344 (3-4), 198-209, 2007
|Modeling spatial patterns of saturated areas: A comparison of the topographic wetness index and a dynamic distributed model|
T Grabs, J Seibert, K Bishop, H Laudon
Journal of Hydrology 373 (1-2), 15-23, 2009
|Sources of and processes controlling CO2 emissions change with the size of streams and rivers|
ER Hotchkiss, RO Hall Jr, RA Sponseller, D Butman, J Klaminder, ...
Nature Geoscience 8 (9), 696, 2015
|Hydrological flow paths during snowmelt: Congruence between hydrometric measurements and oxygen 18 in meltwater, soil water, and runoff|
H Laudon, J Seibert, S Köhler, K Bishop
Water resources research 40 (3), 2004
|Landscape‐scale variability of acidity and dissolved organic carbon during spring flood in a boreal stream network|
I Buffam, H Laudon, J Temnerud, CM Mörth, K Bishop
Journal of Geophysical Research: Biogeosciences 112 (G1), 2007
|How does landscape structure influence catchment transit time across different geomorphic provinces?|
D Tetzlaff, J Seibert, KJ McGuire, H Laudon, DA Burns, SM Dunn, ...
Hydrological Processes: An International Journal 23 (6), 945-953, 2009
|Hydrograph separation using stable isotopes, silica and electrical conductivity: an alpine example|
H Laudon, O Slaymaker
Journal of Hydrology 201 (1-4), 82-101, 1997
|The Krycklan Catchment Study—A flagship infrastructure for hydrology, biogeochemistry, and climate research in the boreal landscape|
H Laudon, I Taberman, A Ågren, M Futter, M Ottosson‐Löfvenius, ...
Water Resources Research 49 (10), 7154-7158, 2013
|Linking soil-and stream-water chemistry based on a Riparian Flow-Concentration Integration Model|
J Seibert, T Grabs, S Köhler, H Laudon, M Winterdahl, K Bishop
Hydrology and earth system sciences 13 (12), 2287-2297, 2009
|Evasion of CO2 from streams – The dominant component of the carbon export through the aquatic conduit in a boreal landscape|
MB Wallin, T Grabs, I Buffam, H Laudon, A Ågren, MG Öquist, K Bishop
Global Change Biology 19 (3), 785-797, 2013
|High DON bioavailability in boreal streams during a spring flood|
R Stepanauskas, H Laudon, NOG Jørgensen
Limnology and Oceanography 45 (6), 1298-1307, 2000
|Climate change impact on snow and soil temperature in boreal Scots pine stands|
PE Mellander, MO Löfvenius, H Laudon
Climatic Change 85 (1-2), 179-193, 2007