|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
|Biomass offsets little or none of permafrost carbon release from soils, streams, and wildfire: an expert assessment|
BW Abbott, JB Jones, EAG Schuur, FS Chapin III, WB Bowden, ...
Environmental Research Letters 11 (3), 034014, 2016
|Early stage litter decomposition across biomes|
I Djukic, S Kepfer-Rojas, IK Schmidt, KS Larsen, C Beier, B Berg, ...
Science of the total environment 628, 1369-1394, 2018
|Refining the oak‐fire hypothesis for management of oak-dominated forests of the eastern United States|
MA Arthur, HD Alexander, DC Dey, CJ Schweitzer, DL Loftis
Journal of Forestry 110 (5), 257-266, 2012
|The impacts and implications of an intensifying fire regime on Alaskan boreal forest composition and albedo|
PSA Beck, SJ Goetz, MC Mack, HD Alexander, Y Jin, JT Randerson, ...
Global Change Biology 17 (9), 2853-2866, 2011
|Carbon loss from boreal forest wildfires offset by increased dominance of deciduous trees|
MC Mack, XJ Walker, JF Johnstone, HD Alexander, AM Melvin, M Jean, ...
Science 372 (6539), 280-283, 2021
|Survival and growth of upland oak and co-occurring competitor seedlings following single and repeated prescribed fires|
HD Alexander, MA Arthur, DL Loftis, SR Green
Forest Ecology and Management 256 (5), 1021-1030, 2008
|Increasing fire and the decline of fire adapted black spruce in the boreal forest|
JL Baltzer, NJ Day, XJ Walker, D Greene, MC Mack, HD Alexander, ...
Proceedings of the National Academy of Sciences 118 (45), e2024872118, 2021
|Implications of a predicted shift from upland oaks to red maple on forest hydrology and nutrient availability|
HD Alexander, MA Arthur
Canadian Journal of Forest Research 40 (4), 716-726, 2010
|Freshwater inundation effects on emergent vegetation of a hypersaline salt marsh|
HD Elexander, KH Dunton
Estuaries 25, 1426-1435, 2002
|Changes in stand structure and tree vigor with repeated prescribed fire in an Appalachian hardwood forest|
MA Arthur, BA Blankenship, A Schörgendorfer, DL Loftis, HD Alexander
Forest Ecology and Management 340, 46-61, 2015
|Mesophication of oak landscapes: Evidence, knowledge gaps, and future research|
HD Alexander, C Siegert, JS Brewer, J Kreye, MA Lashley, JK McDaniel, ...
BioScience 71 (5), 531-542, 2021
|Tundra Trait Team: A database of plant traits spanning the tundra biome|
AD Bjorkman, IH Myers‐Smith, SC Elmendorf, S Normand, HJD Thomas, ...
Global Ecology and Biogeography 27 (12), 1402-1411, 2018
|Carbon Accumulation Patterns During Post-Fire Succession in Cajander Larch (Larix cajanderi) Forests of Siberia|
HD Alexander, MC Mack, S Goetz, MM Loranty, PSA Beck, K Earl, ...
Ecosystems 15, 1065-1082, 2012
|Biomass allometry for alder, dwarf birch, and willow in boreal forest and tundra ecosystems of far northeastern Siberia and north-central Alaska|
LT Berner, HD Alexander, MM Loranty, P Ganzlin, MC Mack, SP Davydov, ...
Forest Ecology and Management 337, 110-118, 2015
|Increasing red maple leaf litter alters decomposition rates and nitrogen cycling in historically oak-dominated forests of the eastern US|
HD Alexander, MA Arthur
Ecosystems 17, 1371-1383, 2014
|Implications of increased deciduous cover on stand structure and aboveground carbon pools of Alaskan boreal forests|
HD Alexander, MC Mack, S Goetz, PSA Beck, EF Belshe
Ecosphere 3 (5), 1-21, 2012
|Fire severity effects on soil carbon and nutrients and microbial processes in a Siberian larch forest|
SM Ludwig, HD Alexander, K Kielland, PJ Mann, SM Natali, RW Ruess
Global change biology 24 (12), 5841-5852, 2018
|Cajander larch (Larix cajanderi) biomass distribution, fire regime and post-fire recovery in northeastern Siberia|
LT Berner, PSA Beck, MM Loranty, HD Alexander, MC Mack, SJ Goetz
Biogeosciences 9 (10), 3943-3959, 2012
|Reconstructing disturbances and their biogeochemical consequences over multiple timescales|
KK McLauchlan, PE Higuera, DG Gavin, SS Perakis, MC Mack, ...
BioScience 64 (2), 105-116, 2014