Timing of the Younger Dryas event in East Africa from lake-level changes.

THE last deglaciation was interrupted by an abrupt cooling event, the Younger Dryas, at 11,000& ndash;10,000 yr BP (uncalibrated radiocarbon timescale)1. Originally recognized in climate records from northwest Europe, the Younger Dryas has now been identified in marine and ice-core records world...

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Published in:Nature
Main Authors: Roberts, N., Taieb, M., Barker, P., Damnati, B., Icole, M., Williamson, D.
Format: Article in Journal/Newspaper
Language:unknown
Published: 1993
Subjects:
ice core
Online Access:https://eprints.lancs.ac.uk/id/eprint/53041/
https://doi.org/10.1038/366146a0
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spelling ftulancaster:oai:eprints.lancs.ac.uk:53041 2023-08-27T04:09:59+02:00 Timing of the Younger Dryas event in East Africa from lake-level changes. Roberts, N. Taieb, M. Barker, P. Damnati, B. Icole, M. Williamson, D. 1993-11-11 https://eprints.lancs.ac.uk/id/eprint/53041/ https://doi.org/10.1038/366146a0 unknown Roberts, N. and Taieb, M. and Barker, P. and Damnati, B. and Icole, M. and Williamson, D. (1993) Timing of the Younger Dryas event in East Africa from lake-level changes. Nature, 366 (6451). pp. 146-148. ISSN 0028-0836 Journal Article PeerReviewed 1993 ftulancaster https://doi.org/10.1038/366146a0 2023-08-03T22:21:54Z THE last deglaciation was interrupted by an abrupt cooling event, the Younger Dryas, at 11,000& ndash;10,000 yr BP (uncalibrated radiocarbon timescale)1. Originally recognized in climate records from northwest Europe, the Younger Dryas has now been identified in marine and ice-core records worldwide2& ndash;6. In the tropics, a broadly contemporaneous change in climate is recorded by decreases in water levels and increased salinity of lakes7& ndash;9,14, indicating a period of arid climate caused by a reduction in ocean-to-land moisture flux. The exact timing of these changes in relation to the Younger Dryas event in high-latitude records has remained unclear, however. Here we present climate records based on analyses of diatom assemblages, geochemistry and magnetic mineralogy of radiocarbon-dated sequences of laminated lake sediments from Lake Magadi in the East African rift. These records provide a detailed record of climate change in lowland equatorial Africa throughout the last deglaciation (12,800& ndash;10,000 14C yr BP). We find that lake-level and humidity maxima coincide with the most rapid phases of ice melting in the Northern Hemisphere, and that the climate changes, including the Younger Dryas event, were synchronous at low and high latitudes. Thus, the effects of abrupt climate change appear to be felt at both high and low latitudes without a significant time lag. Article in Journal/Newspaper ice core Lancaster University: Lancaster Eprints Nature 366 6451 146 148
institution Open Polar
collection Lancaster University: Lancaster Eprints
op_collection_id ftulancaster
language unknown
description THE last deglaciation was interrupted by an abrupt cooling event, the Younger Dryas, at 11,000& ndash;10,000 yr BP (uncalibrated radiocarbon timescale)1. Originally recognized in climate records from northwest Europe, the Younger Dryas has now been identified in marine and ice-core records worldwide2& ndash;6. In the tropics, a broadly contemporaneous change in climate is recorded by decreases in water levels and increased salinity of lakes7& ndash;9,14, indicating a period of arid climate caused by a reduction in ocean-to-land moisture flux. The exact timing of these changes in relation to the Younger Dryas event in high-latitude records has remained unclear, however. Here we present climate records based on analyses of diatom assemblages, geochemistry and magnetic mineralogy of radiocarbon-dated sequences of laminated lake sediments from Lake Magadi in the East African rift. These records provide a detailed record of climate change in lowland equatorial Africa throughout the last deglaciation (12,800& ndash;10,000 14C yr BP). We find that lake-level and humidity maxima coincide with the most rapid phases of ice melting in the Northern Hemisphere, and that the climate changes, including the Younger Dryas event, were synchronous at low and high latitudes. Thus, the effects of abrupt climate change appear to be felt at both high and low latitudes without a significant time lag.
format Article in Journal/Newspaper
author Roberts, N.
Taieb, M.
Barker, P.
Damnati, B.
Icole, M.
Williamson, D.
spellingShingle Roberts, N.
Taieb, M.
Barker, P.
Damnati, B.
Icole, M.
Williamson, D.
Timing of the Younger Dryas event in East Africa from lake-level changes.
author_facet Roberts, N.
Taieb, M.
Barker, P.
Damnati, B.
Icole, M.
Williamson, D.
author_sort Roberts, N.
title Timing of the Younger Dryas event in East Africa from lake-level changes.
title_short Timing of the Younger Dryas event in East Africa from lake-level changes.
title_full Timing of the Younger Dryas event in East Africa from lake-level changes.
title_fullStr Timing of the Younger Dryas event in East Africa from lake-level changes.
title_full_unstemmed Timing of the Younger Dryas event in East Africa from lake-level changes.
title_sort timing of the younger dryas event in east africa from lake-level changes.
publishDate 1993
url https://eprints.lancs.ac.uk/id/eprint/53041/
https://doi.org/10.1038/366146a0
genre ice core
genre_facet ice core
op_relation Roberts, N. and Taieb, M. and Barker, P. and Damnati, B. and Icole, M. and Williamson, D. (1993) Timing of the Younger Dryas event in East Africa from lake-level changes. Nature, 366 (6451). pp. 146-148. ISSN 0028-0836
op_doi https://doi.org/10.1038/366146a0
container_title Nature
container_volume 366
container_issue 6451
container_start_page 146
op_container_end_page 148
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