Add to ORKGPhotoautotrophic microorganisms, i.e. cyanobacteria and microalgae, are ubiquitous in the glacial ecosystem of the high Arctic archipelago of Svalbard. Their communities play significant roles in the ecosystem, including organic carbon production on the glacier surface and its supply to downstream environments, initiating microbial colonisation after glacier retreat and preparing proglacial substrata for further succession
The debris-rich basal ice layers of a high Arctic glacier were shown to contain metabolically divers...
The supraglacial environment is an integral part of the glacial ecosystem. It is known to harbour an...
Marine microbes are crucial for the marine food web and carbon cycle. Algae are the main source of o...
The microbial communities and photosynthetic capacity of cryoconite holes on the Midre Lovénbreen Gl...
International audienceCyanobacteria are important colonizers of recently deglaciated proglacial soil...
The effects of global warming are pronounced at high northern latitudes, where the warming trend obs...
Most glaciers in Svalbard (High Arctic) have been retreating and thinning since the end of the Littl...
During the summer ablation season, Arctic glacier surfaces host a wealth of microbial life. Here, th...
Over the last decades, the Arctic has experienced a warming trend that is nearly twice as high as th...
There is now compelling evidence that microbially mediated reactions impart a significant effect upo...
Microbial communities occur throughout the cryosphere in a diverse range of ice-dominated habitats i...
Supraglacial environments occupy 11% of Earth’s surface area and represent a critical interface betw...
Subglacial environments are located at the interface of glacier ice and bedrock. They represent one ...
Glaciers and ice sheets, like other biomes, occupy a significant area of the planet and harbour biol...
Global warming is having a great impact on the Arctic region, due to the change of air temperature a...
The debris-rich basal ice layers of a high Arctic glacier were shown to contain metabolically divers...
The supraglacial environment is an integral part of the glacial ecosystem. It is known to harbour an...
Marine microbes are crucial for the marine food web and carbon cycle. Algae are the main source of o...
The microbial communities and photosynthetic capacity of cryoconite holes on the Midre Lovénbreen Gl...
International audienceCyanobacteria are important colonizers of recently deglaciated proglacial soil...
The effects of global warming are pronounced at high northern latitudes, where the warming trend obs...
Most glaciers in Svalbard (High Arctic) have been retreating and thinning since the end of the Littl...
During the summer ablation season, Arctic glacier surfaces host a wealth of microbial life. Here, th...
Over the last decades, the Arctic has experienced a warming trend that is nearly twice as high as th...
There is now compelling evidence that microbially mediated reactions impart a significant effect upo...
Microbial communities occur throughout the cryosphere in a diverse range of ice-dominated habitats i...
Supraglacial environments occupy 11% of Earth’s surface area and represent a critical interface betw...
Subglacial environments are located at the interface of glacier ice and bedrock. They represent one ...
Glaciers and ice sheets, like other biomes, occupy a significant area of the planet and harbour biol...
Global warming is having a great impact on the Arctic region, due to the change of air temperature a...
The debris-rich basal ice layers of a high Arctic glacier were shown to contain metabolically divers...
The supraglacial environment is an integral part of the glacial ecosystem. It is known to harbour an...
Marine microbes are crucial for the marine food web and carbon cycle. Algae are the main source of o...