Add to ORKGThicker snowpacks and their insulation effects cause winter-warming and invoke thaw of permafrost ecosystems. Temperature-dependent decomposition of previously frozen carbon (C) is currently considered one of the strongest feedbacks between the Arctic and the climate system, but the direction and magnitude of the net C balance remains uncertain. This is because winter effects are rarely integrated with C fluxes during the snow-free season and because predicting the net C balance from both surface processes and thawing deep layers remains challenging. In this study, we quantified changes in the long-term net C balance (net ecosystem production) in a subarctic peat plateau subjected to 10 years of experimental winter-warming. By combining(210...
Northern peatlands in permafrost regions contain a large amount of organic carbon (C) in the soil. C...
Thaw and release of permafrost carbon (C) due to climate change is likely to offset increased vegeta...
Permafrost peatlands store large amounts of carbon potentially vulnerable to decomposition. However,...
Thicker snowpacks and their insulation effects cause winter-warming and invoke thaw of permafrost ec...
Climate warming in high-latitude regions is thawing carbon-rich permafrost soils, which can release ...
Permafrost peatlands contain globally important amounts of soil organic carbon, owing to cold condit...
Soil carbon (C) in permafrost peatlands is vulnerable to decomposition with thaw under a warming cli...
Permafrost stores globally significant amounts of carbon (C) which may start to decompose and be rel...
Permafrost peatlands are biogeochemical hot spots in the Arctic as they store vast amounts of carbon...
With a warming climate, permafrost thaw is widespread across subarctic regions. Feedbacks of peatlan...
Rapid, ongoing permafrost thaw of peatlands in the discontinuous permafrost zone is exposing a globa...
Peat in the discontinuous permafrost zone contains a globally significant reservoir of carbon that h...
Models predict that thaw of permafrost soils at northern high-latitudes will release tens of billion...
This is the final version. Available from American Geophysical Union (AGU) / Wiley via the DOI in th...
Northern peatlands in permafrost regions contain a large amount of organic carbon (C) in the soil. C...
Thaw and release of permafrost carbon (C) due to climate change is likely to offset increased vegeta...
Permafrost peatlands store large amounts of carbon potentially vulnerable to decomposition. However,...
Thicker snowpacks and their insulation effects cause winter-warming and invoke thaw of permafrost ec...
Climate warming in high-latitude regions is thawing carbon-rich permafrost soils, which can release ...
Permafrost peatlands contain globally important amounts of soil organic carbon, owing to cold condit...
Soil carbon (C) in permafrost peatlands is vulnerable to decomposition with thaw under a warming cli...
Permafrost stores globally significant amounts of carbon (C) which may start to decompose and be rel...
Permafrost peatlands are biogeochemical hot spots in the Arctic as they store vast amounts of carbon...
With a warming climate, permafrost thaw is widespread across subarctic regions. Feedbacks of peatlan...
Rapid, ongoing permafrost thaw of peatlands in the discontinuous permafrost zone is exposing a globa...
Peat in the discontinuous permafrost zone contains a globally significant reservoir of carbon that h...
Models predict that thaw of permafrost soils at northern high-latitudes will release tens of billion...
This is the final version. Available from American Geophysical Union (AGU) / Wiley via the DOI in th...
Northern peatlands in permafrost regions contain a large amount of organic carbon (C) in the soil. C...
Thaw and release of permafrost carbon (C) due to climate change is likely to offset increased vegeta...
Permafrost peatlands store large amounts of carbon potentially vulnerable to decomposition. However,...