Underground smouldering fires resurfaced early in 2020, contributing to the unprecedented wildfires that tore through the Arctic this spring and summer. An international effort is needed to manage a changing fire regime in the vulnerable Arctic
Boreal forests and arctic tundra cover 33% of global land area and store an estimated 50% of total s...
Understanding factors driving fire activity helps reveal the degree and geographical variability in ...
Warming and modifications to climate has led an increase in fire occurrence in the tundra, a biome n...
Underground smouldering fires resurfaced early in 2020, contributing to the unprecedented wildfires ...
In recent years, the pan-Arctic region has experienced increasingly extreme fire seasons. Fires in t...
Arctic fires can release large amounts of carbon from permafrost peatlands. Satellite observations r...
In recent years, the pan-Arctic region has experienced increasingly extreme fire seasons. Fires in t...
Wildfires are increasingly understood as an ecological driver within the entire Arctic biome. Arctic...
Wildfires can be divided into two types, flaming or smouldering, depending on the dominant combustio...
Climate change has increased the area affected by wildfire events in different parts of the Arctic. ...
Anthropogenic warming is amplified in the northern high latitudes, and disturbance processes such as...
The 13th Symposium on Polar Science/Ordinary sessions [OM] Polar meteorology and glaciology, Wed. 16...
Fire-induced permafrost degradation is well documented in boreal forests, but the role of fires in i...
Wildfires in permafrost areas, including smoldering fires (e.g., “zombie fires”), have increasingly ...
Carbon release through boreal fires could considerably accelerate Arctic warming; however, boreal fi...
Boreal forests and arctic tundra cover 33% of global land area and store an estimated 50% of total s...
Understanding factors driving fire activity helps reveal the degree and geographical variability in ...
Warming and modifications to climate has led an increase in fire occurrence in the tundra, a biome n...
Underground smouldering fires resurfaced early in 2020, contributing to the unprecedented wildfires ...
In recent years, the pan-Arctic region has experienced increasingly extreme fire seasons. Fires in t...
Arctic fires can release large amounts of carbon from permafrost peatlands. Satellite observations r...
In recent years, the pan-Arctic region has experienced increasingly extreme fire seasons. Fires in t...
Wildfires are increasingly understood as an ecological driver within the entire Arctic biome. Arctic...
Wildfires can be divided into two types, flaming or smouldering, depending on the dominant combustio...
Climate change has increased the area affected by wildfire events in different parts of the Arctic. ...
Anthropogenic warming is amplified in the northern high latitudes, and disturbance processes such as...
The 13th Symposium on Polar Science/Ordinary sessions [OM] Polar meteorology and glaciology, Wed. 16...
Fire-induced permafrost degradation is well documented in boreal forests, but the role of fires in i...
Wildfires in permafrost areas, including smoldering fires (e.g., “zombie fires”), have increasingly ...
Carbon release through boreal fires could considerably accelerate Arctic warming; however, boreal fi...
Boreal forests and arctic tundra cover 33% of global land area and store an estimated 50% of total s...
Understanding factors driving fire activity helps reveal the degree and geographical variability in ...
Warming and modifications to climate has led an increase in fire occurrence in the tundra, a biome n...
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