Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology

Direct exploration of subglacial lakes buried deep under the Antarctic Ice Sheet has yet to be achieved. However, at retreating margins of the ice sheet, there are a number of locations where former subglacial lakes are emerging from under the ice but remain perennially ice covered. One of these lak...

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Published in:Quaternary Science Reviews
Main Authors: Hodgson, D.A., Roberts, S.J., Bentley, M.J., Carmichael, E.L., Smith, J.A., Verleyen, E., Vyverman, W., Geissler, P., Leng, M.J., Sanderson, D.
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier 2009
Subjects:
GE Environmental Sciences
Antarctic
Hodgson
Hodgson Lake
The Antarctic
Antarc*
Antarctica
Ice Sheet
Online Access:http://eprints.gla.ac.uk/45993/
http://www.elsevier.com/locate/quascirev
id ftuglasgow:oai:eprints.gla.ac.uk:45993
record_format openpolar
institution Open Polar
collection University of Glasgow: Enlighten - Publications
op_collection_id ftuglasgow
language unknown
topic GE Environmental Sciences
spellingShingle GE Environmental Sciences
Hodgson, D.A.
Roberts, S.J.
Bentley, M.J.
Carmichael, E.L.
Smith, J.A.
Verleyen, E.
Vyverman, W.
Geissler, P.
Leng, M.J.
Sanderson, D.
Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology
topic_facet GE Environmental Sciences
description Direct exploration of subglacial lakes buried deep under the Antarctic Ice Sheet has yet to be achieved. However, at retreating margins of the ice sheet, there are a number of locations where former subglacial lakes are emerging from under the ice but remain perennially ice covered. One of these lakes, Hodgson Lake (7200.5490S, 06827.7080W) has emerged from under more than 297–465 m of glacial ice during the last few thousand years. This paper presents data from a multidisciplinary investigation of the palaeolimnology of this lake through a study of a 3.8 m sediment core extracted at a depth of 93.4 m below the ice surface. The core was dated using a combination of radiocarbon, optically stimulated luminescence, and relative palaeomagnetic intensity dating incorporated into a chronological model. Stratigraphic analyses included magnetic susceptibility, clast provenance, organic content, carbonate composition, siliceous microfossils, isotope and biogeochemical markers. Based on the chronological model we provisionally assign a well-defined magnetic polarity reversal event at ca 165 cm in the lake sediments to the Mono Lake excursion (ca 30–34 ka), whilst OSL measurements suggest that material incorporated into the basal sediments might date to 93 9 ka. Four stratigraphic zones (A–D) were identified in the sedimentological data. The chronological model suggests that zones A–C were deposited between Marine Isotope Stages 5–2 and zone A during Stage 1, the Holocene. The palaeolimnological record tracks changes in the subglacial depositional environment linked principally to changing glacier dynamics and mass transport and indirectly to climate change. The sediment composition in zones A–C consists of fine-grained sediments together with sands, gravels and small clasts. There is no evidence of overriding glaciers being in contact with the bed reworking the stratigraphy or removing this sediment. This suggests that the lake existed in a subglacial cavity beneath overriding LGM ice. In zone D there is a transition to finer grained sediments characteristic of lower energy delivery coupled with a minor increase in the organic content attributed either to increases in allochthonous organic material being delivered from the deglaciating catchment, a minor increase in within-lake production or to an analytical artefact associated with an increase in the clay fraction. Evidence of biological activity is sparse. Total organic carbon varies from 0.2 to 0.6%, and cannot be unequivocally linked to in situ biological activity as comparisons of δ 13 C and C/N values with local reference data suggest that much of it is derived from the incorporation of carbon in catchment soils and gravels and possibly old CO 2 in meteoric ice. We use the data from this study to provide guidelines for the study of deep continental subglacial lakes including establishing sediment geochronologies, determining the extent to which subglacial sediments might provide a record of glaciological and environmental change and a brief review of methods to use in the search for life.
format Article in Journal/Newspaper
author Hodgson, D.A.
Roberts, S.J.
Bentley, M.J.
Carmichael, E.L.
Smith, J.A.
Verleyen, E.
Vyverman, W.
Geissler, P.
Leng, M.J.
Sanderson, D.
author_facet Hodgson, D.A.
Roberts, S.J.
Bentley, M.J.
Carmichael, E.L.
Smith, J.A.
Verleyen, E.
Vyverman, W.
Geissler, P.
Leng, M.J.
Sanderson, D.
author_sort Hodgson, D.A.
title Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology
title_short Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology
title_full Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology
title_fullStr Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology
title_full_unstemmed Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology
title_sort exploring former subglacial hodgson lake, antarctica. paper ii: palaeolimnology
publisher Elsevier
publishDate 2009
url http://eprints.gla.ac.uk/45993/
http://www.elsevier.com/locate/quascirev
long_lat ENVELOPE(166.083,166.083,-78.117,-78.117)
ENVELOPE(-68.462,-68.462,-72.009,-72.009)
geographic Antarctic
Hodgson
Hodgson Lake
The Antarctic
geographic_facet Antarctic
Hodgson
Hodgson Lake
The Antarctic
genre Antarc*
Antarctic
Antarctica
Ice Sheet
genre_facet Antarc*
Antarctic
Antarctica
Ice Sheet
op_relation Hodgson, D.A., Roberts, S.J., Bentley, M.J., Carmichael, E.L., Smith, J.A., Verleyen, E., Vyverman, W., Geissler, P., Leng, M.J. and Sanderson, D. <http://eprints.gla.ac.uk/view/author/3913.html> (2009) Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology. Quaternary Science Reviews <http://eprints.gla.ac.uk/view/journal_volume/Quaternary_Science_Reviews.html>, 28(23-24), pp. 2310-2325. (doi:10.1016/j.quascirev.2009.04.014 <http://dx.doi.org/10.1016/j.quascirev.2009.04.014>)
op_doi https://doi.org/10.1016/j.quascirev.2009.04.014
container_title Quaternary Science Reviews
container_volume 28
container_issue 23-24
container_start_page 2310
op_container_end_page 2325
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spelling ftuglasgow:oai:eprints.gla.ac.uk:45993 2023-05-15T13:36:03+02:00 Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology Hodgson, D.A. Roberts, S.J. Bentley, M.J. Carmichael, E.L. Smith, J.A. Verleyen, E. Vyverman, W. Geissler, P. Leng, M.J. Sanderson, D. 2009-11 http://eprints.gla.ac.uk/45993/ http://www.elsevier.com/locate/quascirev unknown Elsevier Hodgson, D.A., Roberts, S.J., Bentley, M.J., Carmichael, E.L., Smith, J.A., Verleyen, E., Vyverman, W., Geissler, P., Leng, M.J. and Sanderson, D. <http://eprints.gla.ac.uk/view/author/3913.html> (2009) Exploring former subglacial Hodgson Lake, Antarctica. Paper II: palaeolimnology. Quaternary Science Reviews <http://eprints.gla.ac.uk/view/journal_volume/Quaternary_Science_Reviews.html>, 28(23-24), pp. 2310-2325. (doi:10.1016/j.quascirev.2009.04.014 <http://dx.doi.org/10.1016/j.quascirev.2009.04.014>) GE Environmental Sciences Articles PeerReviewed 2009 ftuglasgow https://doi.org/10.1016/j.quascirev.2009.04.014 2021-09-23T22:27:54Z Direct exploration of subglacial lakes buried deep under the Antarctic Ice Sheet has yet to be achieved. However, at retreating margins of the ice sheet, there are a number of locations where former subglacial lakes are emerging from under the ice but remain perennially ice covered. One of these lakes, Hodgson Lake (7200.5490S, 06827.7080W) has emerged from under more than 297–465 m of glacial ice during the last few thousand years. This paper presents data from a multidisciplinary investigation of the palaeolimnology of this lake through a study of a 3.8 m sediment core extracted at a depth of 93.4 m below the ice surface. The core was dated using a combination of radiocarbon, optically stimulated luminescence, and relative palaeomagnetic intensity dating incorporated into a chronological model. Stratigraphic analyses included magnetic susceptibility, clast provenance, organic content, carbonate composition, siliceous microfossils, isotope and biogeochemical markers. Based on the chronological model we provisionally assign a well-defined magnetic polarity reversal event at ca 165 cm in the lake sediments to the Mono Lake excursion (ca 30–34 ka), whilst OSL measurements suggest that material incorporated into the basal sediments might date to 93 9 ka. Four stratigraphic zones (A–D) were identified in the sedimentological data. The chronological model suggests that zones A–C were deposited between Marine Isotope Stages 5–2 and zone A during Stage 1, the Holocene. The palaeolimnological record tracks changes in the subglacial depositional environment linked principally to changing glacier dynamics and mass transport and indirectly to climate change. The sediment composition in zones A–C consists of fine-grained sediments together with sands, gravels and small clasts. There is no evidence of overriding glaciers being in contact with the bed reworking the stratigraphy or removing this sediment. This suggests that the lake existed in a subglacial cavity beneath overriding LGM ice. In zone D there is a transition to finer grained sediments characteristic of lower energy delivery coupled with a minor increase in the organic content attributed either to increases in allochthonous organic material being delivered from the deglaciating catchment, a minor increase in within-lake production or to an analytical artefact associated with an increase in the clay fraction. Evidence of biological activity is sparse. Total organic carbon varies from 0.2 to 0.6%, and cannot be unequivocally linked to in situ biological activity as comparisons of δ 13 C and C/N values with local reference data suggest that much of it is derived from the incorporation of carbon in catchment soils and gravels and possibly old CO 2 in meteoric ice. We use the data from this study to provide guidelines for the study of deep continental subglacial lakes including establishing sediment geochronologies, determining the extent to which subglacial sediments might provide a record of glaciological and environmental change and a brief review of methods to use in the search for life. Article in Journal/Newspaper Antarc* Antarctic Antarctica Ice Sheet University of Glasgow: Enlighten - Publications Antarctic Hodgson ENVELOPE(166.083,166.083,-78.117,-78.117) Hodgson Lake ENVELOPE(-68.462,-68.462,-72.009,-72.009) The Antarctic Quaternary Science Reviews 28 23-24 2310 2325

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