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Edward Schuur
Northern Arizona UniversityMeeting roles in:
Abrupt permafrost thaw increases old carbon losses despite increases in plant carbon inputs
Rapid assessment of terrestrial CO2 and CH4 fluxes reveals responses to the warmest Arctic-Boreal winter on record
Operational near real-time fluxes of CO2 and CH4 across the Arctic-Boreal region
Near Real-Time Measurements Reveal Record Carbon Dioxide and Methane Emissions and Release of Old Carbon From Tundra and Boreal Ecosystems in the Permafrost Region
Informing Land Surface Model Performance Through Functional Relationship Benchmarks: A Case Study of High-Latitude Respiration Sensitivity to Temperature
Quantifying FF-CO2 emissions across the Arizona Urban Megaregion using 14C measurements of annual plants
Vulnerability of Permafrost Carbon to Climate Change I Poster
Permafrost Thaw Causes Shift in Tundra Nitrogen Cycling and Vegetation Regimes
Vulnerability of Permafrost Carbon to Climate Change II Oral
Permafrost Methane Source-Sink Dynamics in Upland Tundra over a Decade of Thaw
Decadal Trends in Old Carbon Mobilization from Sub-Arctic Permafrost Ecosystems
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