Add to ORKG[1] Extensive new data from previously unstudied Siberian streams and rivers suggest that mobilization of currently frozen, high-latitude soil carbon is likely over the next century in response to predicted Arctic warming. We present dissolved organic carbon (DOC) measurements from ninety-six watersheds in West Siberia, a region that contains the world’s largest stores of peat carbon, exports massive volumes of freshwater and DOC to the Arctic Ocean, and is warming faster than the Arctic as a whole. The sample sites span 106 km2 over a large climatic gradient (55–68N), providing data on a much broader spatial scale than previous studies and for the first time explicitly examining stream DOC in permafrost peatland environments. Our results s...
[1] Arctic warming may cause the release of vast amounts of soil organic carbon (SOC) from permafros...
High latitude terrestrial ecosystems are considered key components in the global carbon (C) cycle an...
International audienceMobilization of dissolved organic carbon (DOC) and related trace elements (TEs...
Extensive new data from previously unstudied Siberian streams and rivers suggest that mobilization o...
Climate warming is expected to mobilize northern permafrost and peat organic carbon (PP-C), yet magn...
High-latitude regions play a key role in the carbon (C) cycle and climate system. An important quest...
Over decadal-centennial timescales, only a few mechanisms in the carbon-climate system could cause a...
Soil pore waters are a vital component of the ecosystem as they are efficient tracers of mineral wea...
Abstract The fate of the vast stocks of organic carbon stored in permafrost of the Western Siberian...
International audienceThe fate of the vast stocks of organic carbon stored in permafrost of the West...
[1] Arctic warming may cause the release of vast amounts of soil organic carbon (SOC) from permafros...
High latitude terrestrial ecosystems are considered key components in the global carbon (C) cycle an...
International audienceMobilization of dissolved organic carbon (DOC) and related trace elements (TEs...
Extensive new data from previously unstudied Siberian streams and rivers suggest that mobilization o...
Climate warming is expected to mobilize northern permafrost and peat organic carbon (PP-C), yet magn...
High-latitude regions play a key role in the carbon (C) cycle and climate system. An important quest...
Over decadal-centennial timescales, only a few mechanisms in the carbon-climate system could cause a...
Soil pore waters are a vital component of the ecosystem as they are efficient tracers of mineral wea...
Abstract The fate of the vast stocks of organic carbon stored in permafrost of the Western Siberian...
International audienceThe fate of the vast stocks of organic carbon stored in permafrost of the West...
[1] Arctic warming may cause the release of vast amounts of soil organic carbon (SOC) from permafros...
High latitude terrestrial ecosystems are considered key components in the global carbon (C) cycle an...
International audienceMobilization of dissolved organic carbon (DOC) and related trace elements (TEs...