Climate change is predicted to have far reaching consequences for the mobility of carbon in arctic landscapes. On a regional scale, carbon cycling is highly dependent on interactions between terrestrial and aquatic parts of a catchment. Despite this, studies that integrate the terrestrial and aquatic systems and study entire catchments using site-specific data are rare. In this work, we use data partly published by Lindborg et al. (2016a) to calculate a whole-catchment carbon mass-balance budget for a periglacial catchment in West Greenland. Our budget shows that terrestrial net primary production is the main input of carbon (99% of input), and that most carbon leaves the system through soil respiration (90% of total export/storage). The la...
No other region has warmed as rapidly in the past decades as the Arctic. Funded by the British Natur...
Arctic lakes are poised for substantial changes to their carbon (C) cycles in the near future. Autoc...
Author Posting. © The Author(s), 2013. This is the author's version of the work. It is posted here ...
Climate change is predicted to have far reaching consequences for the mobility of carbon in arctic l...
Climate change is predicted to have far reaching consequences for the mobility of carbon in arctic l...
Arctic organic carbon (OC) stores are substantial and have accumulated over millennia as a function ...
Intensifying permafrost thaw alters carbon cycling by mobilizing large amounts of terrestrial substr...
The aquatic pathway is increasingly being recognized as an important component of landscape scale gr...
Climate change poses a substantial threat to the stability of the Arctic terrestrial carbon (C)pool ...
The marine Arctic is considered a net carbon sink, with large regional differences in uptake rates. ...
The Arctic is rapidly changing, disrupting biogeochemical cycles and the processing, delivery and se...
The Arctic is rapidly changing, disrupting biogeochemical cycles and the processing, delivery and se...
A large amount of organic carbon is stored in highlatitude soils. A substantial proportion of this c...
Arctic permafrost landscapes have functioned as a global carbon sink for millennia. These landscapes...
Climate change poses a substantial threat to the stability of the Arctic terrestrial carbon (C) pool...
No other region has warmed as rapidly in the past decades as the Arctic. Funded by the British Natur...
Arctic lakes are poised for substantial changes to their carbon (C) cycles in the near future. Autoc...
Author Posting. © The Author(s), 2013. This is the author's version of the work. It is posted here ...
Climate change is predicted to have far reaching consequences for the mobility of carbon in arctic l...
Climate change is predicted to have far reaching consequences for the mobility of carbon in arctic l...
Arctic organic carbon (OC) stores are substantial and have accumulated over millennia as a function ...
Intensifying permafrost thaw alters carbon cycling by mobilizing large amounts of terrestrial substr...
The aquatic pathway is increasingly being recognized as an important component of landscape scale gr...
Climate change poses a substantial threat to the stability of the Arctic terrestrial carbon (C)pool ...
The marine Arctic is considered a net carbon sink, with large regional differences in uptake rates. ...
The Arctic is rapidly changing, disrupting biogeochemical cycles and the processing, delivery and se...
The Arctic is rapidly changing, disrupting biogeochemical cycles and the processing, delivery and se...
A large amount of organic carbon is stored in highlatitude soils. A substantial proportion of this c...
Arctic permafrost landscapes have functioned as a global carbon sink for millennia. These landscapes...
Climate change poses a substantial threat to the stability of the Arctic terrestrial carbon (C) pool...
No other region has warmed as rapidly in the past decades as the Arctic. Funded by the British Natur...
Arctic lakes are poised for substantial changes to their carbon (C) cycles in the near future. Autoc...
Author Posting. © The Author(s), 2013. This is the author's version of the work. It is posted here ...
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