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Environmentally clean access to Antarctic subglacial aquatic environments (2020)

Michaud, Alexander B. ; Vick-Majors, Trista J. ; Achberger, Amanda M. ; [et al.]

Cambridge University Press

In: Antarctic Science. 2020; 32(5): 329-340. Published 2020 Apr 21. doi: 10.1017/s0954102020000231.

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Publication Date: 2020-04-21

Description: Subglacial Antarctic aquatic environments are important targets for scientific exploration due to the unique ecosystems they support and their sediments containing palaeoenvironmental records. Directly accessing these environments while preventing forward contamination and demonstrating that it has not been introduced is logistically challenging. The Whillans Ice Stream Subglacial Access Research Drilling (WISSARD) project designed, tested and implemented a microbiologically and chemically clean method of hot-water drilling that was subsequently used to access subglacial aquatic environments. We report microbiological and biogeochemical data collected from the drilling system and underlying water columns during sub-ice explorations beneath the McMurdo and Ross ice shelves and Whillans Ice Stream. Our method reduced microbial concentrations in the drill water to values three orders of magnitude lower than those observed in Whillans Subglacial Lake. Furthermore, the water chemistry and composition of microorganisms in the drill water were distinct from those in the subglacial water cavities. The submicron filtration and ultraviolet irradiation of the water provided drilling conditions that satisfied environmental recommendations made for such activities by national and international committees. Our approach to minimizing forward chemical and microbiological contamination serves as a prototype for future efforts to access subglacial aquatic environments beneath glaciers and ice sheets.

Print ISSN: 0954-1020

Electronic ISSN: 1365-2079

Topics: Biology , Geography , Geosciences

Published by Cambridge University Press

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Comments on the use of chemically based mixing models in glacier hydrology (1995)

Sharp, Martin ; Brown, Giles H. ; Tranter, Martyn ; [et al.]

Cambridge University Press

In: Journal of Glaciology. 1995; 41(138): 241-246. Published 1995 Jan 01. doi: 10.1017/s0022143000016142.

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Publication Date: 1995-01-01

Description: The assumptions involved in the use of chemically based mixing models for analysis of flow routing of meltwaters in glacierized basins are critically evaluated. The assumption that glacial drainage systems consist of only two primary flow components is arbitrary and must be supported by independent evidence. Recent studies of the processes by which meltwaters acquire solute indicate that the assumption that flow components have unique and constant chemical compositions is unlikely to be correct. Source-water composition and weathering potential will vary over the course of a melt season, and the extent of subglacial weathering is strongly dependent upon such factors as meltwater residence time and the availability of reactive sediment, both of which are known to vary on diurnal to seasonal time-scales. Mixing of flow components does not appear to be confined to the terminal regions of glaciers and is therefore unlikely to be conservative as assumed. A multi-parameter mixing model is applied to the analysis of data on the chemistry of waters sampled from boreholes drilled through Haut Glacier d’Arolla, Switzerland, to demonstrate the range of dissolved species for which the assumption of conservative mixing is violated. The consequences of this violation for quantitative hydrograph separation are shown to be highly significant. The utility of mixing models as a tool for the investigation of glacier hydrological systems is questionable and the results of previous studies are unreliable.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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Evolution of cryoconite holes and their contribution to meltwater runoff from glaciers in the McMurdo Dry Valleys, Antarctica (2004)

Fountain, Andrew G. ; Tranter, Martyn ; Nylen, Thomas H. ; [et al.]

Cambridge University Press

In: Journal of Glaciology. 2004; 50(168): 35-45. Published 2004 Jan 01. doi: 10.3189/172756504781830312.

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Publication Date: 2004-01-01

Description: Cryoconite holes are water-filled holes in the surface of a glacier caused by enhanced ice melt around trapped sediment. Measurements on the ablation zones of four glaciers in Taylor Valley, Antarctica, show that cryoconite holes cover about 4–6% of the ice surface. They typically vary in diameter from 5 to 145 cm, with depths ranging from 4 to 56 cm. In some cases, huge holes form with 5 m depths and 30 m diameters. Unlike cryoconite holes elsewhere, these have ice lids up to 36 cm thick and melt from within each spring. About one-half of the holes are connected to the near-surface hydrologic system and the remainder are isolated. The duration of isolation, estimated from the chloride accumulation in hole waters, commonly shows ages of several years, with one hole of 10 years. The cryoconite holes in the McMurdo Dry Valleys create a near-surface hydrologic system tens of cm below the ice surface. The glacier surface itself is generally frozen and dry. Comparison of water levels between holes a few meters apart shows independent cycles of water storage and release. Most likely, local freeze–thaw effects control water passage and therefore temporary storage. Rough calculations indicate that the holes generate at least 13% of the observed runoff on the one glacier measured. This hydrologic system represents the transition between a melting ice cover with supraglacial streams and one entirely frozen and absent of water.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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Comments on the use of chemically based mixing models in glacier hydrology (1995)

Sharp, Martin ; Brown, Giles H. ; Tranter, Martyn ; [et al.]

Cambridge University Press

In: Journal of Glaciology. 1995; 41(138): 241-246. Published 1995 Jan 01. doi: 10.3189/s0022143000016142.

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Publication Date: 1995-01-01

Description: The assumptions involved in the use of chemically based mixing models for analysis of flow routing of meltwaters in glacierized basins are critically evaluated. The assumption that glacial drainage systems consist of only two primary flow components is arbitrary and must be supported by independent evidence. Recent studies of the processes by which meltwaters acquire solute indicate that the assumption that flow components have unique and constant chemical compositions is unlikely to be correct. Source-water composition and weathering potential will vary over the course of a melt season, and the extent of subglacial weathering is strongly dependent upon such factors as meltwater residence time and the availability of reactive sediment, both of which are known to vary on diurnal to seasonal time-scales. Mixing of flow components does not appear to be confined to the terminal regions of glaciers and is therefore unlikely to be conservative as assumed. A multi-parameter mixing model is applied to the analysis of data on the chemistry of waters sampled from boreholes drilled through Haut Glacier d’Arolla, Switzerland, to demonstrate the range of dissolved species for which the assumption of conservative mixing is violated. The consequences of this violation for quantitative hydrograph separation are shown to be highly significant. The utility of mixing models as a tool for the investigation of glacier hydrological systems is questionable and the results of previous studies are unreliable.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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A conceptual model of solute acquisition by Alpine glacial meltwaters (1993)

Tranter, Martyn ; Brown, Giles ; Raiswell, Robert ; [et al.]

Cambridge University Press

In: Journal of Glaciology. 1993; 39(133): 573-581. Published 1993 Jan 01. doi: 10.3189/s0022143000016464.

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Publication Date: 1993-01-01

Description: Solute acquisition by Alpine glacial meltwaters is the result of the coupling of different pairs of reactions, one of which usually involves dissolved gases. Hence, the availability of atmospheric gases to solution is an important control on the composition of glacial meltwaters. The chemical compositions of the two main components of the bulk meltwater, quick flow and delayed flow, are dominated by different geochemical processes. Delayed flow waters are solute-rich and exhibit high p(CO2) characteristics. The slow transit of these waters through a distributed drainage system and the predominance of relatively rapid reactions, such as sulphide oxidation and carbonate dissolution, in this environment maximize solute acquisition. Quick-flow waters are dilute, both because of their rapid transit through ice-walled conduits and open channels, and because the weathering reactions are fuelled by relatively slow gaseous diffusion of (CO2) into solution, despite solute acquisition being dominated by rapid surface exchange reactions. As a consequence, quick flow usually bears a low or open-system p(CO2) signature. Bulk meltwaters are more likely to exhibit low p(CO2) values when suspended-sediment concentrations are high, which promotes post-mixing reactions. This conceptual model suggests that the composition of both quick flow and delayed flow is likely to be temporally variable, since kinetic, rather than equilibrium, factors determine the composition.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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The composition of the englacial and subglacial component in bulk meltwaters draining the Gornergletscher, Switzerland (1991)

Tranter, Martyn ; Raiswell, Robert

Cambridge University Press

In: Journal of Glaciology. 1991; 37(125): 59-66. Published 1991 Jan 01. doi: 10.3189/s0022143000042805.

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Publication Date: 1991-01-01

Description: A new method of hydrograph separation for bulk meltwaters draining Alpine glaciers is proposed. It is based on the two-component (subglacial and englacial) mixing model of Collins (1978), but allows the composition of the subglacial component to vary between ascending and descending lines of the hydrograph. The mean englacial component can be derived from linear relationships between sulphate concentrations and other ions in bulk meltwaters. On certain occasions during the ablation season, the maximum concentration of ions in the subglacial component can be determined from the linear relationship between bulk meltwater sulphate concentrations and discharge. The bulk discharge is then a direct measure of the mass fraction of the englacial component. At maximum discharge, the contribution of the subglacial component approaches zero, which has implications for the storage and mixing of waters in subglacial reservoirs. Further, the subglacial component is not of constant composition, and may itself be a mixture of dilute supraglacial and concentrated subglacial water.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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7

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The composition of the englacial and subglacial component in bulk meltwaters draining the Gornergletscher, Switzerland (1991)

Tranter, Martyn ; Raiswell, Robert

Cambridge University Press

In: Journal of Glaciology. 1991; 37(125): 59-66. Published 1991 Jan 01. doi: 10.1017/s0022143000042805.

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Publication Date: 1991-01-01

Description: A new method of hydrograph separation for bulk meltwaters draining Alpine glaciers is proposed. It is based on the two-component (subglacial and englacial) mixing model of Collins (1978), but allows the composition of the subglacial component to vary between ascending and descending lines of the hydrograph. The mean englacial component can be derived from linear relationships between sulphate concentrations and other ions in bulk meltwaters. On certain occasions during the ablation season, the maximum concentration of ions in the subglacial component can be determined from the linear relationship between bulk meltwater sulphate concentrations and discharge. The bulk discharge is then a direct measure of the mass fraction of the englacial component. At maximum discharge, the contribution of the subglacial component approaches zero, which has implications for the storage and mixing of waters in subglacial reservoirs. Further, the subglacial component is not of constant composition, and may itself be a mixture of dilute supraglacial and concentrated subglacial water.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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8

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A conceptual model of solute acquisition by Alpine glacial meltwaters (1993)

Tranter, Martyn ; Brown, Giles ; Raiswell, Robert ; [et al.]

Cambridge University Press

In: Journal of Glaciology. 1993; 39(133): 573-581. Published 1993 Jan 01. doi: 10.1017/s0022143000016464.

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Publication Date: 1993-01-01

Description: Solute acquisition by Alpine glacial meltwaters is the result of the coupling of different pairs of reactions, one of which usually involves dissolved gases. Hence, the availability of atmospheric gases to solution is an important control on the composition of glacial meltwaters. The chemical compositions of the two main components of the bulk meltwater, quick flow and delayed flow, are dominated by different geochemical processes. Delayed flow waters are solute-rich and exhibit high p(CO2) characteristics. The slow transit of these waters through a distributed drainage system and the predominance of relatively rapid reactions, such as sulphide oxidation and carbonate dissolution, in this environment maximize solute acquisition. Quick-flow waters are dilute, both because of their rapid transit through ice-walled conduits and open channels, and because the weathering reactions are fuelled by relatively slow gaseous diffusion of (CO2) into solution, despite solute acquisition being dominated by rapid surface exchange reactions. As a consequence, quick flow usually bears a low or open-system p(CO2) signature. Bulk meltwaters are more likely to exhibit low p(CO2) values when suspended-sediment concentrations are high, which promotes post-mixing reactions. This conceptual model suggests that the composition of both quick flow and delayed flow is likely to be temporally variable, since kinetic, rather than equilibrium, factors determine the composition.

Print ISSN: 0022-1430

Electronic ISSN: 1727-5652

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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Is Vostok lake in steady state? (2004)

Royston-Bishop, George ; Tranter, Martyn ; Siegert, Martin J. ; [et al.]

Cambridge University Press

In: Annals of Glaciology. 2004; 39: 490-494. Published 2004 Jan 01. doi: 10.3189/172756404781813853.

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Publication Date: 2004-01-01

Description: Stable-isotope (δD and δ18O) data from the Vostok (East Antarctica) ice core are used to explore whether or not subglacial Vostok lake is in isotopic steady state. A simple box model shows that the lake is likely to be in steady state on time-scales of the order of 104–105 years (three to four residence times of the water in the lake), given our current knowledge of north–south and east–west gradients in the stable-isotopic composition of precipitation in the vicinity of Vostok station and Ridge B. However, the lake may not be in perfect steady state depending on the precise location of the melting area, which determines the source region of inflowing ice, and on the magnitude of the east–west gradient in isotopic compositions in the vicinity of Vostok station and Ridge B.

Print ISSN: 0260-3055

Electronic ISSN: 1727-5644

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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Snowmelt modelling on signy island, South Orkney Islands (1998)

Gardiner, Michael J. ; Ellis-Evans, J. Cynan ; Anderson, Malcolm G. ; [et al.]

Cambridge University Press

In: Annals of Glaciology. 1998; 26: 161-166. Published 1998 Jan 01. doi: 10.1017/s0260305500014749.

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Publication Date: 1998-01-01

Description: The ability of the Utah energy-balance and snowmelt model (UEB) to simulate decline in snow water equivalent (SWE) at an extreme location was assessed. Field data were collected at Paternoster Valley, Signy Island, South Orkney Islands (60°43′S) during the austral summer of 1996–97. This is the first application of UEB in a maritime Antarctic site. UEB is a physically based snow melt model using a lumped snow-pack representation with primary state variables SWE and snow pack-energy content (U). Meteorological inputs are air temperature, wind speed, humidity, precipitation and total incoming solar and longwave radiation. The Paternoster Valley catchment was subdivided into eight non-contiguous terrain classes for sampling and modelling using a geographical information system (GIS). Simulations of SWE in each of these classes were compared พ with field observations. It is shown that initial U and snow-surface thermal conductance (Ks) affect model simulations. Good approximations of SWE depletion are obtained using measured incoming solar radiation to drive the model but there are shortcomings in the characterization of long wave radiation and sensible-heat fluxes.

Print ISSN: 0260-3055

Electronic ISSN: 1727-5644

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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