Add to ORKGMicrobial processes that mineralize organic carbon and enhance solute production at the bed of polar ice sheets could be of a magnitude sufficient to affect global elemental cycles. To investigate the biogeochemistry of a polar subglacial microbial ecosystem, we analyzed water discharged during the summer of 2012 and 2013 from Russell Glacier, a land-terminating outlet glacier at the western margin of the Greenland Ice Sheet. The molecular data implied that the most abundant and active component of the subglacial microbial community at these marginal locations were bacteria within the order Methylococcales (59-100% of reverse transcribed (RT)-rRNA sequences). mRNA transcripts of the particulate methane monooxygenase (pmoA) from these taxa w...
The base of glaciers and ice sheets provide environments suitable for the production of methane. Hig...
The Greenland Ice Sheet harbours a wealth of microbial life, yet the total biomass stored or exporte...
Subglacial environments are cold, dark, and possess a range of redox conditions. These environments ...
Microbial processes that mineralize organic carbon and enhance solute production at the bed of polar...
Aquatic habitats beneath ice masses contain active microbial ecosystems capable of cycling important...
Methane is a potent greenhouse gas, but a complete accounting of global methane sources and sinks is...
Subglacial environments, located at the interface of glacier ice and bedrock, represent one of the m...
Despite the fact that microorganisms are the major drivers of global biogeochemical cycles, the rela...
Ice sheets are currently ignored in global methane budgets1,2. Although ice sheets have been propose...
Ice currently covers approximately 10% of the Earth’s land mass, yet the role of sub-ice biomes in g...
Wet-based regions of glaciers and ice sheets are now recognized to host unique and diverse microbial...
Greenland's Dark Zone is the largest contiguous region of bare terrestrial ice in the Northern Hemis...
The melting of the Greenland Ice Sheet provides direct connections between atmospheric, supraglacial...
The Watson River drains a portion of the SW Greenland ice sheet, transporting microbial communities ...
Methanogenic archaea have a unique role in Earth's global carbon cycle as producers of the greenhous...
The base of glaciers and ice sheets provide environments suitable for the production of methane. Hig...
The Greenland Ice Sheet harbours a wealth of microbial life, yet the total biomass stored or exporte...
Subglacial environments are cold, dark, and possess a range of redox conditions. These environments ...
Microbial processes that mineralize organic carbon and enhance solute production at the bed of polar...
Aquatic habitats beneath ice masses contain active microbial ecosystems capable of cycling important...
Methane is a potent greenhouse gas, but a complete accounting of global methane sources and sinks is...
Subglacial environments, located at the interface of glacier ice and bedrock, represent one of the m...
Despite the fact that microorganisms are the major drivers of global biogeochemical cycles, the rela...
Ice sheets are currently ignored in global methane budgets1,2. Although ice sheets have been propose...
Ice currently covers approximately 10% of the Earth’s land mass, yet the role of sub-ice biomes in g...
Wet-based regions of glaciers and ice sheets are now recognized to host unique and diverse microbial...
Greenland's Dark Zone is the largest contiguous region of bare terrestrial ice in the Northern Hemis...
The melting of the Greenland Ice Sheet provides direct connections between atmospheric, supraglacial...
The Watson River drains a portion of the SW Greenland ice sheet, transporting microbial communities ...
Methanogenic archaea have a unique role in Earth's global carbon cycle as producers of the greenhous...
The base of glaciers and ice sheets provide environments suitable for the production of methane. Hig...
The Greenland Ice Sheet harbours a wealth of microbial life, yet the total biomass stored or exporte...
Subglacial environments are cold, dark, and possess a range of redox conditions. These environments ...