Lake E5, Alaska, 32,000Yr Leaf Wax Hydrogen Isotope Data, and Modern Precipitation Isotope Data

The Late-Quaternary climate of Beringia remains unresolved despite the region’s role in modulating glacial-interglacial climate and as the conduit for human dispersal into the Americas. We investigate Beringian temperature change using an ~32,000-year record of leaf wax hydrogen isotope ratios (δDwa...

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Bibliographic Details
Main Authors: William Daniels, Yongsong Huang, James Russell, Carrie Morrill, William Longo, Anne Giblin, Jeffrey Welker, Xinyu Wen, Aixue Hu, Patrick Holland-Stergar
Format: Dataset
Language:unknown
Published: Arctic Data Center 2019
Subjects:
Arctic
Paleoclimate
Hydrogen Isotopes
Bering Strait
Greenland
Greenland ice cores
Alaska
Beringia
Online Access:https://search.dataone.org/view/urn:uuid:e439bf3a-87d9-4e0e-906d-0809808a1e98
id dataone:urn:uuid:e439bf3a-87d9-4e0e-906d-0809808a1e98
record_format openpolar
spelling dataone:urn:uuid:e439bf3a-87d9-4e0e-906d-0809808a1e98 2024-06-03T18:46:32+00:00 Lake E5, Alaska, 32,000Yr Leaf Wax Hydrogen Isotope Data, and Modern Precipitation Isotope Data William Daniels Yongsong Huang James Russell Carrie Morrill William Longo Anne Giblin Jeffrey Welker Xinyu Wen Aixue Hu Patrick Holland-Stergar Lake E5, Alaska Toolik Field Station, Alaska ENVELOPE(-149.46364,-149.45221,68.644844,68.639404) BEGINDATE: 2014-01-01T00:00:00Z ENDDATE: 2018-01-01T00:00:00Z 2019-12-31T00:00:00Z https://search.dataone.org/view/urn:uuid:e439bf3a-87d9-4e0e-906d-0809808a1e98 unknown Arctic Data Center Arctic Paleoclimate Hydrogen Isotopes Dataset 2019 dataone:urn:node:ARCTIC 2024-06-03T18:13:10Z The Late-Quaternary climate of Beringia remains unresolved despite the region’s role in modulating glacial-interglacial climate and as the conduit for human dispersal into the Americas. We investigate Beringian temperature change using an ~32,000-year record of leaf wax hydrogen isotope ratios (δDwax) archived in lake sediments in Arctic Alaska. Temperatures were 2.9 °C colder during the Last Glacial Maximum (LGM; 21-25 thousand years before present, ka) than the pre-industrial era (PI; 2-0.1 ka). LGM temperatures were substantially warmer than in other parts of the Arctic, reflecting the greater continentality and altered atmospheric circulation which together contributed to weaker, rather than amplified, glacial cooling in the region. The transition to Holocene warmth was punctuated by abrupt events that are largely synchronous with events seen in Greenland ice cores but which also arise from local processes. Warming of 1.7 °C over the anthropogenic era has reversed a 5.5 °C decline through the Holocene, such that that recent warming in Arctic Alaska has not surpassed peak Holocene warmth. Our reconstruction, together with climate modeling experiments, indicates that Eastern Beringia responds more strongly to global climate forcings under modern-day, open-Bering Strait conditions. Dataset Arctic Bering Strait Greenland Greenland ice cores Alaska Beringia Arctic Data Center (via DataONE) Arctic Bering Strait Greenland ENVELOPE(-149.46364,-149.45221,68.644844,68.639404)
institution Open Polar
collection Arctic Data Center (via DataONE)
op_collection_id dataone:urn:node:ARCTIC
language unknown
topic Arctic
Paleoclimate
Hydrogen Isotopes
spellingShingle Arctic
Paleoclimate
Hydrogen Isotopes
William Daniels
Yongsong Huang
James Russell
Carrie Morrill
William Longo
Anne Giblin
Jeffrey Welker
Xinyu Wen
Aixue Hu
Patrick Holland-Stergar
Lake E5, Alaska, 32,000Yr Leaf Wax Hydrogen Isotope Data, and Modern Precipitation Isotope Data
topic_facet Arctic
Paleoclimate
Hydrogen Isotopes
description The Late-Quaternary climate of Beringia remains unresolved despite the region’s role in modulating glacial-interglacial climate and as the conduit for human dispersal into the Americas. We investigate Beringian temperature change using an ~32,000-year record of leaf wax hydrogen isotope ratios (δDwax) archived in lake sediments in Arctic Alaska. Temperatures were 2.9 °C colder during the Last Glacial Maximum (LGM; 21-25 thousand years before present, ka) than the pre-industrial era (PI; 2-0.1 ka). LGM temperatures were substantially warmer than in other parts of the Arctic, reflecting the greater continentality and altered atmospheric circulation which together contributed to weaker, rather than amplified, glacial cooling in the region. The transition to Holocene warmth was punctuated by abrupt events that are largely synchronous with events seen in Greenland ice cores but which also arise from local processes. Warming of 1.7 °C over the anthropogenic era has reversed a 5.5 °C decline through the Holocene, such that that recent warming in Arctic Alaska has not surpassed peak Holocene warmth. Our reconstruction, together with climate modeling experiments, indicates that Eastern Beringia responds more strongly to global climate forcings under modern-day, open-Bering Strait conditions.
format Dataset
author William Daniels
Yongsong Huang
James Russell
Carrie Morrill
William Longo
Anne Giblin
Jeffrey Welker
Xinyu Wen
Aixue Hu
Patrick Holland-Stergar
author_facet William Daniels
Yongsong Huang
James Russell
Carrie Morrill
William Longo
Anne Giblin
Jeffrey Welker
Xinyu Wen
Aixue Hu
Patrick Holland-Stergar
author_sort William Daniels
title Lake E5, Alaska, 32,000Yr Leaf Wax Hydrogen Isotope Data, and Modern Precipitation Isotope Data
title_short Lake E5, Alaska, 32,000Yr Leaf Wax Hydrogen Isotope Data, and Modern Precipitation Isotope Data
title_full Lake E5, Alaska, 32,000Yr Leaf Wax Hydrogen Isotope Data, and Modern Precipitation Isotope Data
title_fullStr Lake E5, Alaska, 32,000Yr Leaf Wax Hydrogen Isotope Data, and Modern Precipitation Isotope Data
title_full_unstemmed Lake E5, Alaska, 32,000Yr Leaf Wax Hydrogen Isotope Data, and Modern Precipitation Isotope Data
title_sort lake e5, alaska, 32,000yr leaf wax hydrogen isotope data, and modern precipitation isotope data
publisher Arctic Data Center
publishDate 2019
url https://search.dataone.org/view/urn:uuid:e439bf3a-87d9-4e0e-906d-0809808a1e98
op_coverage Lake E5, Alaska
Toolik Field Station, Alaska
ENVELOPE(-149.46364,-149.45221,68.644844,68.639404)
BEGINDATE: 2014-01-01T00:00:00Z ENDDATE: 2018-01-01T00:00:00Z
long_lat ENVELOPE(-149.46364,-149.45221,68.644844,68.639404)
geographic Arctic
Bering Strait
Greenland
geographic_facet Arctic
Bering Strait
Greenland
genre Arctic
Bering Strait
Greenland
Greenland ice cores
Alaska
Beringia
genre_facet Arctic
Bering Strait
Greenland
Greenland ice cores
Alaska
Beringia
_version_ 1800867371692326912

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