Rising global temperatures tied to increases in greenhouse gas emissions are impacting high latitude regions, leading to changes in vegetation composition and feedbacks to climate through increased methane (CH4) emissions. In subarctic peatlands, permafrost collapse has led to shifts in vegetation species on landscape scales with high spatial heterogeneity. Our goal was to provide a baseline for vegetation distribution related to permafrost collapse and changes in biogeochemical processes. We collected unmanned aerial system (UAS) imagery at Stordalen Mire, Abisko, Sweden to classify vegetation cover types. A series of digital image processing routines were used to generate texture attributes within the image for the purpose of characterizi...
Permafrost thaw resulting from climate warming is threatening to release carbon from high latitude p...
Soil organic carbon (SOC) stored in northern peatlands and permafrost-affected soils are key compone...
Permafrost thaw in Arctic regions is increasing methane (CH4) emissions into the atmosphere, but qua...
Rising global temperatures tied to increases in greenhouse gas emissions are impacting high latitude...
A methodology was tested for high‐resolution mapping of vegetation and detailed geoecological patter...
The alpine treeline ecotone is expected to move upwards in elevation with global warming. Thus, mapp...
The Arctic is warming twice as fast as the rest of the planet, leading to rapid changes in species c...
The Arctic is under great pressure due to climate change. Drones are increasingly used as a tool in ...
Restoration of peatland ecosystems is imperative for restoring and retaining the carbon absorption c...
Peatlands are important reserves of terrestrial carbon and biodiversity, and given that many peatlan...
Long-term temperature increases, higher frequencies of extreme weather events and changes in food we...
Permafrost thaw resulting from climate warming is threatening to release carbon from high latitude p...
Soil organic carbon (SOC) stored in northern peatlands and permafrost-affected soils are key compone...
Permafrost thaw in Arctic regions is increasing methane (CH4) emissions into the atmosphere, but qua...
Rising global temperatures tied to increases in greenhouse gas emissions are impacting high latitude...
A methodology was tested for high‐resolution mapping of vegetation and detailed geoecological patter...
The alpine treeline ecotone is expected to move upwards in elevation with global warming. Thus, mapp...
The Arctic is warming twice as fast as the rest of the planet, leading to rapid changes in species c...
The Arctic is under great pressure due to climate change. Drones are increasingly used as a tool in ...
Restoration of peatland ecosystems is imperative for restoring and retaining the carbon absorption c...
Peatlands are important reserves of terrestrial carbon and biodiversity, and given that many peatlan...
Long-term temperature increases, higher frequencies of extreme weather events and changes in food we...
Permafrost thaw resulting from climate warming is threatening to release carbon from high latitude p...
Soil organic carbon (SOC) stored in northern peatlands and permafrost-affected soils are key compone...
Permafrost thaw in Arctic regions is increasing methane (CH4) emissions into the atmosphere, but qua...