|Global-scale similarities in nitrogen release patterns during long-term decomposition|
W Parton, WL Silver, IC Burke, L Grassens, ME Harmon, WS Currie, ...
science 315 (5810), 361-364, 2007
|Methane and nitrogen oxide fluxes in tropical agricultural soils: sources, sinks and mechanisms|
A Mosier, R Wassmann, L Verchot, J King, C Palm
Environment, Development and Sustainability 6, 11-49, 2004
|The role of photodegradation in surface litter decomposition across a grassland ecosystem precipitation gradient|
LA Brandt, JY King, SE Hobbie, DG Milchunas, RL Sinsabaugh
Ecosystems 13, 765-781, 2010
|Methane emission and transport by arctic sedges in Alaska: Results of a vegetation removal experiment|
JY King, WS Reeburgh, SK Regli
Journal of Geophysical Research: Atmospheres 103 (D22), 29083-29092, 1998
|Shedding light on plant litter decomposition: advances, implications and new directions in understanding the role of photodegradation|
JY King, LA Brandt, EC Adair
Biogeochemistry 111, 57-81, 2012
|Effects of ultraviolet radiation on litter decomposition depend on precipitation and litter chemistry in a shortgrass steppe ecosystem|
LA Brandt, JY King, DG Milchunas
Global Change Biology 13 (10), 2193-2205, 2007
|Photochemically induced carbon dioxide production as a mechanism for carbon loss from plant litter in arid ecosystems|
LA Brandt, C Bohnet, JY King
Journal of Geophysical Research: Biogeosciences 114 (G2), 2009
|Energy and trace-gas fluxes across a soil pH boundary in the Arctic|
DA Walker, NA Auerbach, JG Bockheim, FS Chapin III, W Eugster, ...
Nature 394 (6692), 469-472, 1998
|Response of soil microbial biomass and enzyme activities to the transient elevation of carbon dioxide in a semi-arid grassland|
E Kandeler, AR Mosier, JA Morgan, DG Milchunas, JY King, S Rudolph, ...
Soil Biology and Biochemistry 38 (8), 2448-2460, 2006
|Phylogenetic and functional characteristics of household yard floras and their changes along an urbanization gradient|
S Knapp, L Dinsmore, C Fissore, SE Hobbie, I Jakobsdottir, J Kattge, ...
Ecology 93 (sp8), S83-S98, 2012
|A pulse-labeling experiment to determine the contribution of recent plant photosynthates to net methane emission in arctic wet sedge tundra|
JY King, WS Reeburgh
Soil Biology and Biochemistry 34 (2), 173-180, 2002
|Soil-atmosphere exchange of CH4, CO2, NOx, and N2O in the Colorado shortgrass steppe under elevated CO2|
AR Mosier, JA Morgan, JY King, D Lecain, DG Milchunas
Plant and Soil 240, 201-211, 2002
|Carbon, nitrogen, and phosphorus fluxes in household ecosystems in the Minneapolis‐Saint Paul, Minnesota, urban region|
C Fissore, LA Baker, SE Hobbie, JY King, JP McFadden, KC Nelson, ...
Ecological Applications 21 (3), 619-639, 2011
|Elevated atmospheric CO2 effects and soil water feedbacks on soil respiration components in a Colorado grassland|
E Pendall, S Del Grosso, JY King, DR LeCain, DG Milchunas, JA Morgan, ...
Global Biogeochemical Cycles 17 (2), 2003
|Elevated CO2 and defoliation effects on a shortgrass steppe: forage quality versus quantity for ruminants|
DG Milchunas, AR Mosier, JA Morgan, DR LeCain, JY King, JA Nelson
Agriculture, ecosystems & environment 111 (1-4), 166-184, 2005
|A CH4 emission estimate for the Kuparuk River basin, Alaska|
WS Reeburgh, JY King, SK Regli, GW Kling, NA Auerbach, DA Walker
Journal of Geophysical Research: Atmospheres 103 (D22), 29005-29013, 1998
|Pulse‐labeling studies of carbon cycling in Arctic tundra ecosystems: The contribution of photosynthates to methane emission|
JY King, WS Reeburgh, KK Thieler, GW Kling, WM Loya, LC Johnson, ...
Global Biogeochemical Cycles 16 (4), 10-1-10-8, 2002
|Landscape-level terrestrial methane flux observed from a very tall tower|
AR Desai, K Xu, H Tian, P Weishampel, J Thom, D Baumann, ...
Agricultural and Forest Meteorology 201, 61-75, 2015
|Carbon pools and productivity in a 1-km2 heterogeneous forest and peatland mosaic in Minnesota, USA|
P Weishampel, R Kolka, JY King
Forest Ecology and Management 257 (2), 747-754, 2009
|Long‐term enhancement of N availability and plant growth under elevated CO2 in a semi‐arid grassland|
FA Dijkstra, E Pendall, AR Mosier, JY King, DG Milchunas, JA Morgan
Functional Ecology 22 (6), 975-982, 2008