A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA

Physical and geochemical proxy analyses of sediment cores from Harding Lake in central Alaska are used to reconstruct paleoenvironmental change and millennial scale fluctuations in lake level for the last similar to 31,000 years. We analyzed a composite 422 cm core from the lake depocenter (42.1 m w...

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Published in:Quaternary Science Reviews
Main Authors: Finkenbinder, M., Abbott, M., Edwards, M., Langdon, C., Steinman, B., Finney, B.
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Harding
Low Lake
Alaska
Beringia
Online Access:https://eprints.soton.ac.uk/380367/
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spelling ftsouthampton:oai:eprints.soton.ac.uk:380367 2023-07-30T04:07:30+02:00 A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA Finkenbinder, M. Abbott, M. Edwards, M. Langdon, C. Steinman, B. Finney, B. 2014-03-01 https://eprints.soton.ac.uk/380367/ English eng Finkenbinder, M., Abbott, M., Edwards, M., Langdon, C., Steinman, B. and Finney, B. (2014) A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA. Quaternary Science Reviews, 87, 98-113. (doi:10.1016/j.quascirev.2014.01.005 <http://dx.doi.org/10.1016/j.quascirev.2014.01.005>). Article PeerReviewed 2014 ftsouthampton https://doi.org/10.1016/j.quascirev.2014.01.005 2023-07-09T22:00:55Z Physical and geochemical proxy analyses of sediment cores from Harding Lake in central Alaska are used to reconstruct paleoenvironmental change and millennial scale fluctuations in lake level for the last similar to 31,000 years. We analyzed a composite 422 cm core from the lake depocenter (42.1 m water depth) and identified 4 distinct lithologic units based on variability in dry bulk density, organic matter, biogenic silica, carbon to nitrogen mass ratios (C/N), organic matter carbon isotopes (delta C-13), pollen, and elemental abundances via scanning X-ray fluorescence, with age control provided by 16 Accelerator Mass Spectrometry radiocarbon dates and Pb-210 dating. In addition, we analyzed a transect of cores from 7.1 m, 10.75 m, 15.91 m, and 38.05 m water depths to identify lake level fluctuations and to characterize sediment compositional changes as a function of water depth. Organic matter content and magnetic susceptibility values in surface sediments from all transect cores show a strong correlation with water depth. Interpretation of four lithologic units with well-dated contacts produced a record of water-depth variations that is consistent with independent climate records from eastern Beringia. Basal coarse-grained sediments (quartz pebble diamicton) were deposited prior to 30,700 calendar years before present (yr BP), possibly from fluvial reworking or deflation during a period of severe aridity. Unit 1 sediments were deposited between 30,700 and 15,700 yr BP and are characterized by a low organic matter content, a high magnetic susceptibility, and low biogenic silica concentrations resulting from very low lake levels, low terrestrial and in-lake productivity and a high flux of clastic sediment. An abrupt increase in organic matter and biogenic silica concentration marks the transition into Unit 2 sediments, which were deposited between 15,700 and 9,400 yr BP when lake levels were higher and variable (relative to Unit 1). The transition to full interglacial conditions at 9,400 yr BP marks the ... Article in Journal/Newspaper Alaska Beringia University of Southampton: e-Prints Soton Harding ENVELOPE(75.033,75.033,-72.900,-72.900) Low Lake ENVELOPE(142.677,142.677,-66.993,-66.993) Quaternary Science Reviews 87 98 113
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language English
description Physical and geochemical proxy analyses of sediment cores from Harding Lake in central Alaska are used to reconstruct paleoenvironmental change and millennial scale fluctuations in lake level for the last similar to 31,000 years. We analyzed a composite 422 cm core from the lake depocenter (42.1 m water depth) and identified 4 distinct lithologic units based on variability in dry bulk density, organic matter, biogenic silica, carbon to nitrogen mass ratios (C/N), organic matter carbon isotopes (delta C-13), pollen, and elemental abundances via scanning X-ray fluorescence, with age control provided by 16 Accelerator Mass Spectrometry radiocarbon dates and Pb-210 dating. In addition, we analyzed a transect of cores from 7.1 m, 10.75 m, 15.91 m, and 38.05 m water depths to identify lake level fluctuations and to characterize sediment compositional changes as a function of water depth. Organic matter content and magnetic susceptibility values in surface sediments from all transect cores show a strong correlation with water depth. Interpretation of four lithologic units with well-dated contacts produced a record of water-depth variations that is consistent with independent climate records from eastern Beringia. Basal coarse-grained sediments (quartz pebble diamicton) were deposited prior to 30,700 calendar years before present (yr BP), possibly from fluvial reworking or deflation during a period of severe aridity. Unit 1 sediments were deposited between 30,700 and 15,700 yr BP and are characterized by a low organic matter content, a high magnetic susceptibility, and low biogenic silica concentrations resulting from very low lake levels, low terrestrial and in-lake productivity and a high flux of clastic sediment. An abrupt increase in organic matter and biogenic silica concentration marks the transition into Unit 2 sediments, which were deposited between 15,700 and 9,400 yr BP when lake levels were higher and variable (relative to Unit 1). The transition to full interglacial conditions at 9,400 yr BP marks the ...
format Article in Journal/Newspaper
author Finkenbinder, M.
Abbott, M.
Edwards, M.
Langdon, C.
Steinman, B.
Finney, B.
spellingShingle Finkenbinder, M.
Abbott, M.
Edwards, M.
Langdon, C.
Steinman, B.
Finney, B.
A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA
author_facet Finkenbinder, M.
Abbott, M.
Edwards, M.
Langdon, C.
Steinman, B.
Finney, B.
author_sort Finkenbinder, M.
title A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA
title_short A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA
title_full A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA
title_fullStr A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA
title_full_unstemmed A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA
title_sort 31,000 year record of paleoenvironmental and lake-level change from harding lake, alaska, usa
publishDate 2014
url https://eprints.soton.ac.uk/380367/
long_lat ENVELOPE(75.033,75.033,-72.900,-72.900)
ENVELOPE(142.677,142.677,-66.993,-66.993)
geographic Harding
Low Lake
geographic_facet Harding
Low Lake
genre Alaska
Beringia
genre_facet Alaska
Beringia
op_relation Finkenbinder, M., Abbott, M., Edwards, M., Langdon, C., Steinman, B. and Finney, B. (2014) A 31,000 year record of paleoenvironmental and lake-level change from Harding Lake, Alaska, USA. Quaternary Science Reviews, 87, 98-113. (doi:10.1016/j.quascirev.2014.01.005 <http://dx.doi.org/10.1016/j.quascirev.2014.01.005>).
op_doi https://doi.org/10.1016/j.quascirev.2014.01.005
container_title Quaternary Science Reviews
container_volume 87
container_start_page 98
op_container_end_page 113
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