Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream

In the mountains of the central Sahara (lat ca. 20° to 22°N, long 16° to 19°E) and particularly in the Tibesti mountains, important lacustrine formations developed during the late Pleistocene, primarily during the Last Glacial Maximum (LGM). Two main phases, separated by a brief regression, interven...

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Main Author: /Maley, Jean
Format: Text
Language:English
Published: 2000
Subjects:
PALEOCLIMAT
SEDIMENTATION LACUSTRE
POLLEN
SEDIMENTATION FLUVIATILE
COURANT MARIN
HOLOCENE
CHANGEMENT CLIMATIQUE
North Atlantic
Online Access:https://www.documentation.ird.fr/hor/fdi:010027313
id ftird:oai:ird.fr:fdi:010027313
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010027313 2024-09-15T18:24:22+00:00 Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream /Maley, Jean SAHARA 2000 https://www.documentation.ird.fr/hor/fdi:010027313 EN eng https://www.documentation.ird.fr/hor/fdi:010027313 oai:ird.fr:fdi:010027313 Maley Jean. Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream. Global and Planetary Change, 2000, 26 (1-3), p. 121-136 PALEOCLIMAT SEDIMENTATION LACUSTRE POLLEN SEDIMENTATION FLUVIATILE COURANT MARIN HOLOCENE CHANGEMENT CLIMATIQUE text 2000 ftird 2024-08-15T05:57:43Z In the mountains of the central Sahara (lat ca. 20° to 22°N, long 16° to 19°E) and particularly in the Tibesti mountains, important lacustrine formations developed during the late Pleistocene, primarily during the Last Glacial Maximum (LGM). Two main phases, separated by a brief regression, intervened between ca. 20,000 and 15,500 BP, and between 15,000 and 12,500 BP. Pollen analyses were carried out on four samples of this formation. The high lacustrine levels were associated to both important precipitations and a reduced evaporation linked to lower temperatures. Similar lacustrine deposits were found in the Djebel Marra in the south of the Sahara. In the mountains of the central and eastern Sahara, during the same period and until the middle Holocene, the 'Middle Terrace' Formation was deposited in the river valleys of the Tibesti, Hoggar, Air and the Red Sea Hills. Since the southern headwaters of the Nile were dry from ca. 20,000 to 12,500 BP, the fluviatile sediments deposited in the Nile valley in Nubia may have resulted almost entirely from the numerous wadis flowing from the Red Sea Hills. The rainfalls which fed these lacustrine and fluviatile formations were related to the Tropical Depressions which are formed in the southern part of the westerlies and are linked to the activity of the Subtropical Jet Stream (STJ), whose path remained over the central Sahara from 20,000 BP to the early Holocene. In the Rocky Mountains of the western US, the palaeolakes Lahontan and Bonneville were very large during the LGM and the main fluctuations exhibit similar chronology to that of the Saharan mountains. Broecker [Broecker, W.S., 1994. Massive iceberg discharges as triggers for global climate change. Nature 372, 421-424] estimates that these two large U.S. wet events between ca. 20,000-15,500 BP and ca. 15,000-12,500 BP may have been an indirect result of two large ice surges in the North Atlantic, related to Heinrich layers 1 and 2. We can assume, however, that the similar climatic variation of the Rocky Mountains ... Text North Atlantic IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
topic PALEOCLIMAT
SEDIMENTATION LACUSTRE
POLLEN
SEDIMENTATION FLUVIATILE
COURANT MARIN
HOLOCENE
CHANGEMENT CLIMATIQUE
spellingShingle PALEOCLIMAT
SEDIMENTATION LACUSTRE
POLLEN
SEDIMENTATION FLUVIATILE
COURANT MARIN
HOLOCENE
CHANGEMENT CLIMATIQUE
/Maley, Jean
Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream
topic_facet PALEOCLIMAT
SEDIMENTATION LACUSTRE
POLLEN
SEDIMENTATION FLUVIATILE
COURANT MARIN
HOLOCENE
CHANGEMENT CLIMATIQUE
description In the mountains of the central Sahara (lat ca. 20° to 22°N, long 16° to 19°E) and particularly in the Tibesti mountains, important lacustrine formations developed during the late Pleistocene, primarily during the Last Glacial Maximum (LGM). Two main phases, separated by a brief regression, intervened between ca. 20,000 and 15,500 BP, and between 15,000 and 12,500 BP. Pollen analyses were carried out on four samples of this formation. The high lacustrine levels were associated to both important precipitations and a reduced evaporation linked to lower temperatures. Similar lacustrine deposits were found in the Djebel Marra in the south of the Sahara. In the mountains of the central and eastern Sahara, during the same period and until the middle Holocene, the 'Middle Terrace' Formation was deposited in the river valleys of the Tibesti, Hoggar, Air and the Red Sea Hills. Since the southern headwaters of the Nile were dry from ca. 20,000 to 12,500 BP, the fluviatile sediments deposited in the Nile valley in Nubia may have resulted almost entirely from the numerous wadis flowing from the Red Sea Hills. The rainfalls which fed these lacustrine and fluviatile formations were related to the Tropical Depressions which are formed in the southern part of the westerlies and are linked to the activity of the Subtropical Jet Stream (STJ), whose path remained over the central Sahara from 20,000 BP to the early Holocene. In the Rocky Mountains of the western US, the palaeolakes Lahontan and Bonneville were very large during the LGM and the main fluctuations exhibit similar chronology to that of the Saharan mountains. Broecker [Broecker, W.S., 1994. Massive iceberg discharges as triggers for global climate change. Nature 372, 421-424] estimates that these two large U.S. wet events between ca. 20,000-15,500 BP and ca. 15,000-12,500 BP may have been an indirect result of two large ice surges in the North Atlantic, related to Heinrich layers 1 and 2. We can assume, however, that the similar climatic variation of the Rocky Mountains ...
format Text
author /Maley, Jean
author_facet /Maley, Jean
author_sort /Maley, Jean
title Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream
title_short Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream
title_full Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream
title_fullStr Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream
title_full_unstemmed Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream
title_sort last glacial maximum lacustrine and fluviatile formations in the tibesti and other saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream
publishDate 2000
url https://www.documentation.ird.fr/hor/fdi:010027313
op_coverage SAHARA
genre North Atlantic
genre_facet North Atlantic
op_relation https://www.documentation.ird.fr/hor/fdi:010027313
oai:ird.fr:fdi:010027313
Maley Jean. Last glacial maximum lacustrine and fluviatile formations in the Tibesti and other Saharan mountains and large-scale climatic teleconnections linked to the activity of the subtropical jet stream. Global and Planetary Change, 2000, 26 (1-3), p. 121-136
_version_ 1810464714397843456

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