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Main Authors: van der Bilt, Willem G M, Bakke, Jostein, Werner, Johannes P, Paasche, Øyvind, Rosqvist, Gunhild C, Solheim Vatle, Sunniva
Format: Dataset Open Access
Language:en
Published: PANGAEA 2017
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Online Access:https://doi.org/10.1594/PANGAEA.882398
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author van der Bilt, Willem G M
Bakke, Jostein
Werner, Johannes P
Paasche, Øyvind
Rosqvist, Gunhild C
Solheim Vatle, Sunniva
author_facet van der Bilt, Willem G M
Bakke, Jostein
Werner, Johannes P
Paasche, Øyvind
Rosqvist, Gunhild C
Solheim Vatle, Sunniva
collection Datos científicos de ciencias marinas y ambientales
contents Observational data show that climate in the Southern Ocean region is rapidly changing. However, past the instrumental period, our understanding of climate variability in the region is limited by a scarcity of high-resolution palaeoclimate records. Alpine glaciers, present on many Southern Ocean islands, may provide such data because changes in their mass balance, extent and erosion rates often mark a response to climate shifts. Rock flour, the fine-grained fraction of the glacial erosion process, is suspended in meltwater streams and transferred into the sediments of downstream lakes, continuously recording glacier variations. Here, we utilize this relationship to present a reconstruction of the Late Holocene glacier history of subantarctic South Georgia, using sediments from the glacier-fed Middle Hamberg Lake. To fingerprint a glacial erosion/size signal, we used titanium counts, validated against changes in sediment density and grain size, allowing a continuous reconstruction of glacier variations over the past 1250 years.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_882398
institution PANGAEA
language en
publishDate 2017
publisher PANGAEA
record_format pangaea
spellingShingle Raw 500-µm XRF titanium counts for core MLHP608, South Georgia
van der Bilt, Willem G M
Bakke, Jostein
Werner, Johannes P
Paasche, Øyvind
Rosqvist, Gunhild C
Solheim Vatle, Sunniva
AGE; Core; CORE; MHLP608; South Georgia; Titanium
Observational data show that climate in the Southern Ocean region is rapidly changing. However, past the instrumental period, our understanding of climate variability in the region is limited by a scarcity of high-resolution palaeoclimate records. Alpine glaciers, present on many Southern Ocean islands, may provide such data because changes in their mass balance, extent and erosion rates often mark a response to climate shifts. Rock flour, the fine-grained fraction of the glacial erosion process, is suspended in meltwater streams and transferred into the sediments of downstream lakes, continuously recording glacier variations. Here, we utilize this relationship to present a reconstruction of the Late Holocene glacier history of subantarctic South Georgia, using sediments from the glacier-fed Middle Hamberg Lake. To fingerprint a glacial erosion/size signal, we used titanium counts, validated against changes in sediment density and grain size, allowing a continuous reconstruction of glacier variations over the past 1250 years.
title Raw 500-µm XRF titanium counts for core MLHP608, South Georgia
topic AGE; Core; CORE; MHLP608; South Georgia; Titanium
url https://doi.org/10.1594/PANGAEA.882398