Scott  J. Davidson
Scott J. Davidson
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Cited by
Cited by
Natural climate solutions for Canada
CR Drever, SC Cook-Patton, F Akhter, PH Badiou, GL Chmura, ...
Science Advances 7 (23), eabd6034, 2021
Vegetation type dominates the spatial variability in CH4 emissions across multiple arctic tundra landscapes
SJ Davidson, VL Sloan, GK Phoenix, R Wagner, JP Fisher, WC Oechel, ...
Ecosystems 19 (6), 1116-1132, 2016
Mapping Arctic tundra vegetation communities using field spectroscopy and multispectral satellite data in North Alaska, USA
SJ Davidson, MJ Santos, VL Sloan, JD Watts, GK Phoenix, WC Oechel, ...
Remote Sensing 8 (12), 978, 2016
Arctic greening associated with lengthening growing seasons in Northern Alaska
KA Arndt, MJ Santos, S Ustin, SJ Davidson, D Stow, WC Oechel, TTP Tran, ...
Environmental Research Letters 14 (12), 125018, 2019
The essential carbon service provided by northern peatlands
LI Harris, K Richardson, KA Bona, SJ Davidson, SA Finkelstein, ...
Frontiers in Ecology and the Environment, 2021
The potential of peatlands as nature-based climate solutions
M Strack, SJ Davidson, T Hirano, C Dunn
Current Climate Change Reports 8 (3), 71-82, 2022
Seismic line disturbance alters soil physical and chemical properties across boreal forest and peatland soils
SJ Davidson, EM Goud, C Franklin, SE Nielsen, M Strack
Frontiers in Earth Science 8, 281, 2020
The Alaska Arctic Vegetation Archive. 2016b
DA Walker, AL Breen, LA Druckenmiller, LW Wirth, W Fisher, ...
Phytocoenologia doi: http://dx. doi. org/10.1127/phyto/2016/0128, 2016
Upscaling CH4 Fluxes Using High-Resolution Imagery in Arctic Tundra Ecosystems
SJ Davidson, MJ Santos, VL Sloan, K Reuss-Schmidt, GK Phoenix, ...
Remote Sensing 9 (12), 1227, 2017
Disturbances in North American boreal forest and Arctic tundra: impacts, interactions, and responses
AC Foster, JA Wang, GV Frost, SJ Davidson, E Hoy, KW Turner, ...
Environmental Research Letters 17 (11), 113001, 2022
Remote sensing of tundra ecosystems using high spectral resolution reflectance: opportunities and challenges
PR Nelson, AJ Maguire, Z Pierrat, EL Orcutt, D Yang, S Serbin, GV Frost, ...
Journal of Geophysical Research: Biogeosciences 127 (2), e2021JG006697, 2022
Wildfire and degradation accelerate northern peatland carbon release
SL Wilkinson, R Andersen, PA Moore, SJ Davidson, G Granath, ...
Nature Climate Change 13 (5), 456-461, 2023
Linear disturbances shift boreal peatland plant communities toward earlier peak greenness
SJ Davidson, EM Goud, A Malhotra, CO Estey, P Korsah, M Strack
Journal of Geophysical Research: Biogeosciences 126 (8), e2021JG006403, 2021
Controls on soil carbon dioxide (CO2) and methane (CH4) fluxes from a peat swamp vary by hydrogeomorphic setting
SJ Davidson, M Strack, RA Bourbonniere, JM Waddington
Ecohydrology, 2019
The unrecognized importance of carbon stocks and fluxes from swamps in Canada and the USA
SJ Davidson, E Daze, E Byun, D Hiler, M Kangur, J Talbot, S Finkelstein, ...
Environmental Research Letters, 2022
Wildfire overrides hydrological controls on boreal peatland methane emissions
SJ Davidson, CV Beest, R Petrone, M Strack
Biogeosciences 16 (13), 2651-2660, 2019
Hydrogeologic setting overrides any influence of wildfire on pore water dissolved organic carbon (DOC) concentration and quality at a boreal fen
SJ Davidson, MC Elmes, H Rogers, C van Beest, R Petrone, JS Price, ...
Ecohydrology, e2141, 2019
High sulfate concentrations maintain low methane emissions at a constructed fen over the first seven years of ecosystem development
SJ Davidson, M Smith, E Prystupa, K Murray, FC Nwaishi, RM Petrone, ...
Science of the Total Environment 789, 148014, 2021
Magnitude, dynamics, and control of the carbon flow to mycorrhizas
KJ Field, SJ Davidson, SA Alghamdi, DD Cameron
Mycorrhizal mediation of soil, 375-393, 2017
Ecohydrological interactions in a boreal fen‐swamp complex, Alberta, Canada
MC Elmes, SJ Davidson, JS Price
Ecohydrology, e2335, 2021
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