The release of legacy contaminants such as fallout radionuclides (FRNs) in response to glacier retreat is a process that has received relatively little attention to date, yet may have consequences as a source of secondary contamination as glaciers melt and down-waste in response to a warming climate. The presence of FRNs in glacier-fed catchments is poorly understood in comparison to other contaminants, yet there is now emerging evidence from multiple regions of the global cryosphere for substantially augmented FRN activities in cryoconite. Here we report concentrated FRNs in both cryoconite and proglacial sediments from the Isfallsglaciären catchment in Arctic Sweden. Activities of some FRNs in cryoconite are 2 orders of magnitude above th...
Globally emitted contaminants accumulate in the Arctic and are stored in the frozen environments of ...
A study of hazardous trace element accumulation in cryoconite from three glaciers in Ny-Ålesund; Aus...
Dark dust accumulates on the surfaces of glaciers ablation zones where it aggregates and forms cryoc...
Abstract. The release of legacy contaminants such as fallout radionuclides (FRNs) in response to gla...
The release of legacy fallout radionuclides (FRNs) in response to glacier retreat is a process that ...
Abstract. Cryoconite is rich in natural and artificial radioactivity, but a discussion about its abi...
<p><strong>Abstract.</strong> Cryoconite is extremely rich...
This study is a first survey of the occurrence of artificial (137Cs, 241Am, 207Bi, Pu isotopes) and ...
Cryoconite is the dark, granular sediment, that is globally found on the ablation surface of mountai...
Cryoconite, the typical sediment found on the surface of glaciers, is mainly known in relation to it...
Cryoconite is granular sediment found on glacier surfaces comprising both mineral and biological mat...
Anthropogenic contamination has been detected in glacial and proglacial environments around the glob...
Cryoconite is granular sediment found on glacier surfaces comprising both mineral and biological mat...
Glaciers are not only contributors to the sea level rise but also important players in the circulati...
Cryoconites are airborne sediments which accumulate on the surface of glaciers. In samples of cryoco...
Globally emitted contaminants accumulate in the Arctic and are stored in the frozen environments of ...
A study of hazardous trace element accumulation in cryoconite from three glaciers in Ny-Ålesund; Aus...
Dark dust accumulates on the surfaces of glaciers ablation zones where it aggregates and forms cryoc...
Abstract. The release of legacy contaminants such as fallout radionuclides (FRNs) in response to gla...
The release of legacy fallout radionuclides (FRNs) in response to glacier retreat is a process that ...
Abstract. Cryoconite is rich in natural and artificial radioactivity, but a discussion about its abi...
<p><strong>Abstract.</strong> Cryoconite is extremely rich...
This study is a first survey of the occurrence of artificial (137Cs, 241Am, 207Bi, Pu isotopes) and ...
Cryoconite is the dark, granular sediment, that is globally found on the ablation surface of mountai...
Cryoconite, the typical sediment found on the surface of glaciers, is mainly known in relation to it...
Cryoconite is granular sediment found on glacier surfaces comprising both mineral and biological mat...
Anthropogenic contamination has been detected in glacial and proglacial environments around the glob...
Cryoconite is granular sediment found on glacier surfaces comprising both mineral and biological mat...
Glaciers are not only contributors to the sea level rise but also important players in the circulati...
Cryoconites are airborne sediments which accumulate on the surface of glaciers. In samples of cryoco...
Globally emitted contaminants accumulate in the Arctic and are stored in the frozen environments of ...
A study of hazardous trace element accumulation in cryoconite from three glaciers in Ny-Ålesund; Aus...
Dark dust accumulates on the surfaces of glaciers ablation zones where it aggregates and forms cryoc...