High-latitude ecosystems store approximately 1700Pg of soil carbon (C), which is twice as much C as is currently contained in the atmosphere. Permafrost thaw and subsequent microbial decomposition of permafrost organic matter could add large amounts of C to the atmosphere, thereby influencing the global C cycle. The rates at which C is being released from the permafrost zone at different soil depths and across different physiographic regions are poorly understood but crucial in understanding future changes in permafrost C storage with climate change. We assessed the inherent decomposability of C from the permafrost zone by assembling a database of long-term (>1year) aerobic soil incubations from 121 individual samples from 23 high-latitude ...
We present an approach to estimate the feedback from large-scale thawing of permafrost soils using a...
Thawing of permafrost and the associated release of carbon constitutes a positive feedback in the cl...
Thaw and release of permafrost carbon (C) due to climate change is likely to offset increased vegeta...
High-latitude ecosystems store approximately 1700Pg of soil carbon (C), which is twice as much C as ...
Approximately twice as much soil carbon is stored in the northern circumpolar permafrost zone than i...
Organic matter (OM) in arctic permafrost ground contains about twice as much carbon (C) as is curren...
Permafrost soils contain more than 1300 Pg of carbon (C), twice the amount of C in the atmosphere. T...
© 2016 Macmillan Publishers Limited, part of Springer Nature. Increasing temperatures in northern hi...
High latitude terrestrial ecosystems are considered key components in the global carbon (C) cycle an...
Recent studies have shown that permafrost soils in the northern circumpolar region store almost twic...
Almost half of the global terrestrial soil carbon (C) is stored in the northern circumpolar permafro...
The soils of the northern hemispheric permafrost region are estimated to contain 1100 to 1500Pg of c...
Large stocks of soil organic carbon (SOC) accumulated in the Northern Hemisphere permafrost regions ...
Rapid warming and changing precipitation patterns in northern regions are alleviating temperature an...
The large stocks of soil organic carbon (SOC) in soils and deposits of the northern permafrost regio...
We present an approach to estimate the feedback from large-scale thawing of permafrost soils using a...
Thawing of permafrost and the associated release of carbon constitutes a positive feedback in the cl...
Thaw and release of permafrost carbon (C) due to climate change is likely to offset increased vegeta...
High-latitude ecosystems store approximately 1700Pg of soil carbon (C), which is twice as much C as ...
Approximately twice as much soil carbon is stored in the northern circumpolar permafrost zone than i...
Organic matter (OM) in arctic permafrost ground contains about twice as much carbon (C) as is curren...
Permafrost soils contain more than 1300 Pg of carbon (C), twice the amount of C in the atmosphere. T...
© 2016 Macmillan Publishers Limited, part of Springer Nature. Increasing temperatures in northern hi...
High latitude terrestrial ecosystems are considered key components in the global carbon (C) cycle an...
Recent studies have shown that permafrost soils in the northern circumpolar region store almost twic...
Almost half of the global terrestrial soil carbon (C) is stored in the northern circumpolar permafro...
The soils of the northern hemispheric permafrost region are estimated to contain 1100 to 1500Pg of c...
Large stocks of soil organic carbon (SOC) accumulated in the Northern Hemisphere permafrost regions ...
Rapid warming and changing precipitation patterns in northern regions are alleviating temperature an...
The large stocks of soil organic carbon (SOC) in soils and deposits of the northern permafrost regio...
We present an approach to estimate the feedback from large-scale thawing of permafrost soils using a...
Thawing of permafrost and the associated release of carbon constitutes a positive feedback in the cl...
Thaw and release of permafrost carbon (C) due to climate change is likely to offset increased vegeta...