Geomicrobiology of Subglacial Meltwater Samples From Store Landgletscher and Russell Glacier, West Greenland

Cameron, K.A. , Dieser, M., Choquette, K., Christner, B.C., Hagedorn, B., Harrold, Z., Liu, L., Sletten, R.S. and Junge, K. (2012) Geomicrobiology of Subglacial Meltwater Samples From Store Landgletscher and Russell Glacier, West Greenland. AGU Fall Meeting, San Francisco, CA USA, 3-7 Dec 2012.

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Publisher's URL: https://ui.adsabs.harvard.edu/abs/2012AGUFM.C13B0618C/abstract

Abstract

The melting of the Greenland Ice Sheet provides direct connections between atmospheric, supraglacial and subglacial environments. The intraglacial hydrological pathways that result are believed to accommodate the microbial colonization of subglacial environments; however, little is known about the abundance, diversity and activity of microorganisms within these niches. The Greenland Ice Sheet (1.7 million square kilometers) and its associated surpaglacial and subglacial ecosystems may contribute significantly to biogeochemical cycling processes. We analyzed subglacial microbial assemblages in subglacial outflows, near Thule and Kangerlussuaq, West Greenland. The investigative approach included correlating microbial diversity, inferred function, abundance, melt water chemistry, O-18 water isotope ratios, alkalinity and sediment load. Using Illumina sequencing, bacterial small subunit ribosomal RNA hypervariable regions have been targeted and amplified from both extracted DNA and reverse transcribed rRNA. Over 3 billion sequence reads have been generated to create a comprehensive diversity profile. Total abundances ranged from 2.24E+04 to 1.58E+06 cells mL-1. In comparison, the total abundance of supraglacial early season snow samples ranged from 3.35E+02 to 2.8E+04 cells mL-1. 65 % of samples incubated with cyano ditoyl tetrazolium chloride (CTC), used to identify actively respiring cells, contained CTC-positive cells. On average, these cells represented 1.9 % of the estimated total abundance (1.86E+02 to 2.19E+03 CTC positive cells mL-1; 1.39E+03 cells mL-1 standard deviation); comparative to those measured in temperate freshwater lakes. The overarching objective of our research is to provide data that indicates the role of microbial communities, associated with ice sheets, in elemental cycling and in the release of biomass and nutrients to the surrounding marine biome.

Item Type:Conference or Workshop Item
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Cameron, Dr Karen
Authors: Cameron, K.A., Dieser, M., Choquette, K., Christner, B.C., Hagedorn, B., Harrold, Z., Liu, L., Sletten, R.S., and Junge, K.
College/School:College of Science and Engineering > School of Geographical and Earth Sciences

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