Add to ORKGPermafrost underlies approximately one quarter of Northern Hemisphere terrestrial surfaces and contains 25-50% of the global soil carbon (C) pool. Permafrost soils and the C stocks within are vulnerable to ongoing and future projected climate warming. The biogeography of microbial communities inhabiting permafrost has not been examined beyond a small number of sites focused on local-scale variation. Permafrost is different from other soils. Perennially frozen conditions in permafrost dictate that microbial communities do not turn over quickly, thus possibly providing strong linkages to past environments. Thus, the factors structuring the composition and function of microbial communities may differ from patterns observed in other terrestrial...
Abstract Northern permafrost soils store more than half of the global soil carbon. Frozen for at le...
As global temperatures rise, large amounts of carbon sequestered in permafrost are becoming availabl...
Thawing permafrost can stimulate microbial activity, leading to faster decomposition of formerly pre...
Background: Global warming is affecting all cold environments, including the European Alps and Arcti...
Permafrost soil in high latitude tundra is one of the largest terrestrial carbon (C) stocks and is h...
Permafrost underlies a large portion of the land in the Northern Hemisphere. It is proposed to be an...
Permanently frozen soil, or permafrost, covers a large portion of the Earth's terrestrial surface an...
Warming-induced microbial decomposition of organic matter in permafrost soils constitutes a climate-...
The fate of the carbon stocked in permafrost following global warming and permafrost thaw is of majo...
Climate change threatens the Earth’s biggest terrestrial organic carbon reservoir: permafrost soils....
The warming-induced thawing of permafrost promotes microbial activity, often resulting in enhanced g...
Global warming in mid-latitude alpine regions results in permafrost thawing, together with greater a...
The fate of the carbon stocked in permafrost following global warming and permafrost thaw is of majo...
Permafrost-affected soils are among the most obvious ecosystems in which current microbial controls ...
Permafrost-affected soils are among the most obvious ecosystems in which current microbial controls ...
Abstract Northern permafrost soils store more than half of the global soil carbon. Frozen for at le...
As global temperatures rise, large amounts of carbon sequestered in permafrost are becoming availabl...
Thawing permafrost can stimulate microbial activity, leading to faster decomposition of formerly pre...
Background: Global warming is affecting all cold environments, including the European Alps and Arcti...
Permafrost soil in high latitude tundra is one of the largest terrestrial carbon (C) stocks and is h...
Permafrost underlies a large portion of the land in the Northern Hemisphere. It is proposed to be an...
Permanently frozen soil, or permafrost, covers a large portion of the Earth's terrestrial surface an...
Warming-induced microbial decomposition of organic matter in permafrost soils constitutes a climate-...
The fate of the carbon stocked in permafrost following global warming and permafrost thaw is of majo...
Climate change threatens the Earth’s biggest terrestrial organic carbon reservoir: permafrost soils....
The warming-induced thawing of permafrost promotes microbial activity, often resulting in enhanced g...
Global warming in mid-latitude alpine regions results in permafrost thawing, together with greater a...
The fate of the carbon stocked in permafrost following global warming and permafrost thaw is of majo...
Permafrost-affected soils are among the most obvious ecosystems in which current microbial controls ...
Permafrost-affected soils are among the most obvious ecosystems in which current microbial controls ...
Abstract Northern permafrost soils store more than half of the global soil carbon. Frozen for at le...
As global temperatures rise, large amounts of carbon sequestered in permafrost are becoming availabl...
Thawing permafrost can stimulate microbial activity, leading to faster decomposition of formerly pre...