Hydrological controls on glacially exported microbial assemblages
Hydrological controls on glacially exported microbial assemblages
The Greenland Ice Sheet (GrIS) exports approximately 400 km3 of freshwater annually to downstream freshwater and marine ecosystems. These meltwaters originate in a wide range of well-defined habitats that can be associated with very different physical environments within the ice sheet, ranging from oxygenated surface environments that are exposed to light and supplied with nutrients from atmospheric/aeolian sources to subglacial environments that are permanently dark, isolated from the atmosphere, and potentially anoxic. Hydrological conditions in the latter likely favor prolonged rock-water contact. The seasonally evolving hydrological system that drains meltwaters from the GrIS connects these distinct microbial habitats and exports the microbes contained within them to downstream ecosystems. The microbial assemblages exported in glacier meltwater may have an impact on downstream ecosystem function and development. We explored how the seasonal development of a glacial drainage system influences the character of microbial assemblages exported from the GrIS by monitoring the seasonal changes in hydrology, water chemistry, and microbial assemblage composition of meltwaters draining from a glacier in southwest Greenland. We found that the microbial assemblages exported in meltwaters varied in response to glacier hydrological flow path characteristics. Whether or not meltwaters passed through the subglacial environment was the first-order control on the composition of the microbial assemblages exported from the glacier, while water source (i.e., supraglacial or extraglacial) and subglacial residence times were second-order controls. Glacier hydrology therefore plays a fundamental role in determining the microbial exports from glaciated watersheds.
1049-1061
Dubnick, Ashley
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Kazemi, Sina
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Sharp, Martin
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Wadham, Jemma
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Hawkings, Jon
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Beaton, Alexander
02f38dc0-7db0-488c-af92-465275f9d584
Lanoil, Brian
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May 2017
Dubnick, Ashley
93639e21-43a3-4c6b-8b1f-b1914ffeb03c
Kazemi, Sina
1d667971-3a5a-4b0e-bffc-bb4c50828312
Sharp, Martin
b5e26bc9-fca9-4385-bf20-0ceb725d7cb9
Wadham, Jemma
6bb72698-4d22-4e1b-baad-48c06859b1e5
Hawkings, Jon
0bdb224b-872a-44d2-9f22-3b09a9e69694
Beaton, Alexander
02f38dc0-7db0-488c-af92-465275f9d584
Lanoil, Brian
72b8bbb9-bba0-4d26-aa60-c010e5c086c3
Dubnick, Ashley, Kazemi, Sina, Sharp, Martin, Wadham, Jemma, Hawkings, Jon, Beaton, Alexander and Lanoil, Brian
(2017)
Hydrological controls on glacially exported microbial assemblages.
Journal of Geophysical Research: Biogeosciences, 122 (5), .
(doi:10.1002/jgrg.v122.5).
Abstract
The Greenland Ice Sheet (GrIS) exports approximately 400 km3 of freshwater annually to downstream freshwater and marine ecosystems. These meltwaters originate in a wide range of well-defined habitats that can be associated with very different physical environments within the ice sheet, ranging from oxygenated surface environments that are exposed to light and supplied with nutrients from atmospheric/aeolian sources to subglacial environments that are permanently dark, isolated from the atmosphere, and potentially anoxic. Hydrological conditions in the latter likely favor prolonged rock-water contact. The seasonally evolving hydrological system that drains meltwaters from the GrIS connects these distinct microbial habitats and exports the microbes contained within them to downstream ecosystems. The microbial assemblages exported in glacier meltwater may have an impact on downstream ecosystem function and development. We explored how the seasonal development of a glacial drainage system influences the character of microbial assemblages exported from the GrIS by monitoring the seasonal changes in hydrology, water chemistry, and microbial assemblage composition of meltwaters draining from a glacier in southwest Greenland. We found that the microbial assemblages exported in meltwaters varied in response to glacier hydrological flow path characteristics. Whether or not meltwaters passed through the subglacial environment was the first-order control on the composition of the microbial assemblages exported from the glacier, while water source (i.e., supraglacial or extraglacial) and subglacial residence times were second-order controls. Glacier hydrology therefore plays a fundamental role in determining the microbial exports from glaciated watersheds.
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Accepted/In Press date: 13 April 2017
e-pub ahead of print date: 6 May 2017
Published date: May 2017
Identifiers
Local EPrints ID: 418339
URI: http://eprints.soton.ac.uk/id/eprint/418339
ISSN: 2169-8953
PURE UUID: b568913e-7d17-4b70-993c-6c19e1a8280b
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Date deposited: 01 Mar 2018 17:30
Last modified: 15 Mar 2024 18:42
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Contributors
Author:
Ashley Dubnick
Author:
Sina Kazemi
Author:
Martin Sharp
Author:
Jemma Wadham
Author:
Jon Hawkings
Author:
Alexander Beaton
Author:
Brian Lanoil
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