Jonathan Sanderman
Jonathan Sanderman
Woodwell Climate Research Center
Verified email at - Homepage
Cited by
Cited by
Natural climate solutions
BW Griscom, J Adams, PW Ellis, RA Houghton, G Lomax, DA Miteva, ...
Proceedings of the National Academy of Sciences 114 (44), 11645-11650, 2017
Soil carbon debt of 12,000 years of human land use
J Sanderman, T Hengl, GJ Fiske
Proceedings of the National Academy of Sciences 114 (36), 9575-9580, 2017
The role of soil carbon in natural climate solutions
DA Bossio, SC Cook-Patton, PW Ellis, J Fargione, J Sanderman, P Smith, ...
Nature Sustainability 3 (5), 391-398, 2020
Natural climate solutions for the United States
JE Fargione, S Bassett, T Boucher, SD Bridgham, RT Conant, ...
Science Advances 4 (11), eaat1869, 2018
Contribution of the land sector to a 1.5 C world
S Roe, C Streck, M Obersteiner, S Frank, B Griscom, L Drouet, O Fricko, ...
Nature Climate Change 9 (11), 817-828, 2019
Towards a global-scale soil climate mitigation strategy
W Amelung, D Bossio, W de Vries, I Kögel-Knabner, J Lehmann, ...
Nature communications 11 (1), 5427, 2020
Pathways of mineral‐associated soil organic matter formation: Integrating the role of plant carbon source, chemistry, and point of entry
NW Sokol, J Sanderman, MA Bradford
Global Change Biology 25 (1), 12-24, 2019
A global map of mangrove forest soil carbon at 30 m spatial resolution
J Sanderman, T Hengl, G Fiske, K Solvik, MF Adame, L Benson, ...
Environmental Research Letters 13 (5), 055002, 2018
Long‐term carbon storage through retention of dissolved aromatic acids by reactive particles in soil
MG Kramer, J Sanderman, OA Chadwick, J Chorover, PM Vitousek
Global Change Biology 18 (8), 2594-2605, 2012
Soil carbon sequestration potential: a review for Australian agriculture.
J Sanderman, R Farquharson, J Baldock
Soil carbon sequestration potential: a review for Australian agriculture., 2009
Dissolved organic carbon chemistry and dynamics in contrasting forest and grassland soils
J Sanderman, JA Baldock, R Amundson
Biogeochemistry 89, 181-198, 2008
Predicting contents of carbon and its component fractions in Australian soils from diffuse reflectance mid-infrared spectra
JA Baldock, B Hawke, J Sanderman, LM Macdonald
Soil Research 51 (8), 577-595, 2013
Microbial community structure mediates response of soil C decomposition to litter addition and warming
CA Creamer, AB de Menezes, ES Krull, J Sanderman, R Newton-Walters, ...
Soil Biology and Biochemistry 80, 175-188, 2015
The global significance of omitting soil erosion from soil organic carbon cycling schemes
A Chappell, J Baldock, J Sanderman
Nature Climate Change 6 (2), 187-191, 2016
Protecting irrecoverable carbon in Earth’s ecosystems
A Goldstein, WR Turner, SA Spawn, KJ Anderson-Teixeira, S Cook-Patton, ...
Nature Climate Change 10 (4), 287-295, 2020
Global-change controls on soil-carbon accumulation and loss in coastal vegetated ecosystems
AC Spivak, J Sanderman, JL Bowen, EA Canuel, CS Hopkinson
Nature Geoscience 12 (9), 685-692, 2019
Salinity and sodicity affect soil respiration and dissolved organic matter dynamics differentially in soils varying in texture
MS Mavi, P Marschner, DJ Chittleborough, JW Cox, J Sanderman
Soil Biology and Biochemistry 45, 8-13, 2012
Accounting for soil carbon sequestration in national inventories: a soil scientist’s perspective
J Sanderman, JA Baldock
Environmental Research Letters 5 (3), 034003, 2010
Land‐based measures to mitigate climate change: Potential and feasibility by country
S Roe, C Streck, R Beach, J Busch, M Chapman, V Daioglou, ...
Global Change Biology 27 (23), 6025-6058, 2021
A comparative study of dissolved organic carbon transport and stabilization in California forest and grassland soils
J Sanderman, R Amundson
Biogeochemistry 89, 309-327, 2008
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