|Recent acceleration of biomass burning and carbon losses in Alaskan forests and peatlands|
MR Turetsky, ES Kane, JW Harden, RD Ottmar, KL Manies, E Hoy, ...
Nature Geoscience 4 (1), 27, 2011
|Towards a global assessment of pyrogenic carbon from vegetation fires|
C Santin, SH Doerr, ES Kane, CA Masiello, M Ohlson, JM de la Rosa, ...
Global Change Biology 22 (1), 76-91, 2016
|Evaluation of the composite burn index for assessing fire severity in Alaskan black spruce forests|
ES Kasischke, MR Turetsky, RD Ottmar, NHF French, EE Hoy, ES Kane
International Journal of Wildland Fire 17 (4), 515-526, 2008
|Potential carbon emissions dominated by carbon dioxide from thawed permafrost soils|
C Schädel, MKF Bader, EAG Schuur, C Biasi, R Bracho, P Čapek, ...
Nature Climate Change 6 (10), 950, 2016
|Soil carbon distribution in Alaska in relation to soil-forming factors|
KD Johnson, J Harden, AD McGuire, NB Bliss, JG Bockheim, M Clark, ...
Geoderma 167, 71-84, 2011
|Sphagnum mosses limit total carbon consumption during fire in Alaskan black spruce forests|
G Shetler, MR Turetsky, E Kane, E Kasischke
Canadian Journal of Forest Research 38 (8), 2328-2336, 2008
|Topographic influences on wildfire consumption of soil organic carbon in interior Alaska: implications for black carbon accumulation|
ES Kane, ES Kasischke, DW Valentine, MR Turetsky, AD McGuire
Journal of Geophysical Research: Biogeosciences 112 (G3), 2007
|Soil carbon stabilization along climate and stand productivity gradients in black spruce forests of interior Alaska|
ES Kane, DW Valentine, EAG Schuur, K Dutta
Canadian Journal of Forest Research 35 (9), 2118-2129, 2005
|Modeling fire severity in black spruce stands in the Alaskan boreal forest using spectral and non-spectral geospatial data|
K Barrett, ES Kasischke, AD McGuire, MR Turetsky, ES Kane
Remote Sensing of Environment 114 (7), 1494-1503, 2010
|Source water controls on the character and origin of dissolved organic matter in streams of the Yukon River basin, Alaska|
JA O'Donnell, GR Aiken, ES Kane, JB Jones
Journal of Geophysical Research: Biogeosciences 115 (G3), 2010
|Topographic controls on black carbon accumulation in Alaskan black spruce forest soils: implications for organic matter dynamics|
ES Kane, WC Hockaday, MR Turetsky, CA Masiello, DW Valentine, ...
Biogeochemistry 100 (1-3), 39-56, 2010
|Patterns of total ecosystem carbon storage with changes in soil temperature in boreal black spruce forests|
ES Kane, JG Vogel
Ecosystems 12 (2), 322-335, 2009
|Soil respiration along environmental gradients in Olympic National Park|
ES Kane, KS Pregitzer, AJ Burton
Ecosystems, 326-335, 2003
|Forest ecosystem vulnerability assessment and synthesis for northern Wisconsin and western Upper Michigan: a report from the Northwoods Climate Change Response Framework project|
MK Janowiak, LR Iverson, DJ Mladenoff, E Peters, KR Wythers, W Xi, ...
Gen. Tech. Rep. NRS-136. Newtown Square, PA: US Department of Agriculture …, 2014
|Response of anaerobic carbon cycling to water table manipulation in an Alaskan rich fen|
ES Kane, MR Chivers, MR Turetsky, CC Treat, DG Petersen, M Waldrop, ...
Soil Biology and Biochemistry 58, 50-60, 2013
|Seasonal ice and hydrologic controls on dissolved organic carbon and nitrogen concentrations in a boreal‐rich fen|
ES Kane, MR Turetsky, JW Harden, AD McGuire, JM Waddington
Journal of Geophysical Research: Biogeosciences 115 (G4), 2010
|Carbon stores and biogeochemical properties of soils under black spruce forest, Alaska|
CL Ping, GJ Michaelson, ES Kane, EC Packee, CA Stiles, DK Swanson, ...
Soil Science Society of America Journal 74 (3), 969-978, 2010
|Effects of water table position and plant functional group on plant community, aboveground production, and peat properties in a peatland mesocosm experiment (PEATcosm)|
LR Potvin, ES Kane, RA Chimner, RK Kolka, EA Lilleskov
Plant and soil 387 (1-2), 277-294, 2015
|The response of soil organic carbon of a rich fen peatland in interior Alaska to projected climate change|
Z Fan, A David McGuire, MR Turetsky, JW Harden, J Michael Waddington, ...
Global change biology 19 (2), 604-620, 2013
|Aboveground biomass equations for the trees of interior Alaska|
J Yarie, E Kane, M Mack
School of Agriculture and Land Resources Management, Agricultural and …, 2007