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Scott Goetz
Northern Arizona UniversityMeeting roles in:
The Resilience and Vulnerability of Arctic and Boreal Ecosystems to Climate Change I Oral
Advancing earth systems research through NASA’s multi-disciplinary Arctic Boreal Vulnerability Experiment (ABoVE) coordinated field campaigns: A brief synopsis of outcomes and lessons learned
Exploring Research Topics for the Fifth International Polar Year
The Resilience and Vulnerability of Arctic and Boreal Ecosystems to Climate Change IV Poster
250+ Datasets and Growing: Making NASA's ABoVE Arctic Research Archive Accessible to All
Burned area mapping across the Arctic-boreal zone with Landsat and Sentinel-2 imagery
Changes in Albedo and Land Surface Temperature Following Short-Interval Reburn Events in the North American Boreal
Increased deciduous tree dominance reduces wildfire C losses in northwestern North American boreal forests
Characterizing soil organic carbon distribution and disturbance effects in Arctic and Boreal ecosystems using a two-stage deep learning framework
The Resilience and Vulnerability of Arctic and Boreal Ecosystems to Climate Change V Oral
Constraining shoulder season carbon fluxes (CO2 and CH4) from the Arctic-Boreal zone using remote-sensing observations
The Resilience and Vulnerability of Arctic and Boreal Ecosystems to Climate Change VI Oral
Plant biomass and woody dominance increased with climate warming across the Arctic tundra biome
Monitoring Arctic Ecosystem Change: Lessons Learned from the 2017–2024 ABoVE Airborne Campaigns
Airborne and In Situ Campaigns Cover the Earth's Climate and Floristic Variation
Structural overshoot weakens boreal forest resilience
Wildfire Impacts on Long-Term Soil Carbon Storage Across Boreal and Arctic Ecosystems
Quantifying the Controls on Boreal Forest Reburning with Interpretable Machine Learning
Characterizing wildfire fuels and severity with satellite laser altimetry: a path from GEDI to EDGE
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