Fluvial response to climate and sea-level change: implications from the Skeleton Coast, Namibia.
The Cenozoic climate of southern Africa has been a subject to influences of both global and regional nature. Orbitally controlled cycles, stepwise global coolings, the evolution of the ocean current system and differential uplift have dominantly influenced the climate history during the last 65 mill...
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ftunivadelaidedl:oai:digital.library.adelaide.edu.au:2440/45318 2023-05-15T13:57:35+02:00 Fluvial response to climate and sea-level change: implications from the Skeleton Coast, Namibia. Krapf, Carmen Barbara Elke Stollhofen, H. Werner, Mario Australian School of Petroleum International Conference on Fluvial Sedimentology (8th : 2005 : Delft, The Netherlands) 2005 http://hdl.handle.net/2440/45318 unknown 8th International Conference on Fluvial Sedimentology, 7-12 August, 2005: pp. 166. http://hdl.handle.net/2440/45318 Conference paper 2005 ftunivadelaidedl 2023-02-05T19:44:27Z The Cenozoic climate of southern Africa has been a subject to influences of both global and regional nature. Orbitally controlled cycles, stepwise global coolings, the evolution of the ocean current system and differential uplift have dominantly influenced the climate history during the last 65 million years. The interplay between these factors has been complex, and the resulting climatic history is known only in a very broad outline for most of the Early Cenozoic. More is understood of Neogene climates because of the better preservation of terrestrial proxy data, but it is only over the last two glacial cycles that sufficient palaeoclimatic data have been assembled to allow a tentative picture of the regional patterns of change to be drawn. Data sets of oxygen isotope records from ocean sediment cores taken off the KwaZulu-Natal coast show that the climate of the southern African subcontinent has oscillated in a manner similar to that over much of the globe during the Middle and Late Pleistocene. Glacial and interglacial conditions occurred with a quasi-periodicity of about 100,000 years in response to Milankovitch forcing due to changes in the eccentricity of the earth’s orbit. The period from 125.000-16.000 BP was characterized in high latitudes by a series of pronounced rapid warmings, followed by slow variable declines to progressively lower minima, as the deuterium isotopic record from the Antarctic Vostok ice core illustrates. Proxy data sets show that similar variations occurred throughout southern Africa. However, a chronostratigraphic control on marine and continental Cenozoic deposits for the Namib Desert, especially for its northern part, is largely missing. Most data derived from continental deposits distributed across the Namib Desert and adjacent areas. But there is a lack of sedimentological and chronostratigraphical data from deposits of the mouth areas of the ephemeral river systems and from adjacent marine terraces. The Skeleton Coast in NW Namibia hosts a number of superbly exposed Cenozoic ... Conference Object Antarc* Antarctic ice core The University of Adelaide: Digital Library Antarctic The Antarctic |
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The University of Adelaide: Digital Library |
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ftunivadelaidedl |
language |
unknown |
description |
The Cenozoic climate of southern Africa has been a subject to influences of both global and regional nature. Orbitally controlled cycles, stepwise global coolings, the evolution of the ocean current system and differential uplift have dominantly influenced the climate history during the last 65 million years. The interplay between these factors has been complex, and the resulting climatic history is known only in a very broad outline for most of the Early Cenozoic. More is understood of Neogene climates because of the better preservation of terrestrial proxy data, but it is only over the last two glacial cycles that sufficient palaeoclimatic data have been assembled to allow a tentative picture of the regional patterns of change to be drawn. Data sets of oxygen isotope records from ocean sediment cores taken off the KwaZulu-Natal coast show that the climate of the southern African subcontinent has oscillated in a manner similar to that over much of the globe during the Middle and Late Pleistocene. Glacial and interglacial conditions occurred with a quasi-periodicity of about 100,000 years in response to Milankovitch forcing due to changes in the eccentricity of the earth’s orbit. The period from 125.000-16.000 BP was characterized in high latitudes by a series of pronounced rapid warmings, followed by slow variable declines to progressively lower minima, as the deuterium isotopic record from the Antarctic Vostok ice core illustrates. Proxy data sets show that similar variations occurred throughout southern Africa. However, a chronostratigraphic control on marine and continental Cenozoic deposits for the Namib Desert, especially for its northern part, is largely missing. Most data derived from continental deposits distributed across the Namib Desert and adjacent areas. But there is a lack of sedimentological and chronostratigraphical data from deposits of the mouth areas of the ephemeral river systems and from adjacent marine terraces. The Skeleton Coast in NW Namibia hosts a number of superbly exposed Cenozoic ... |
author2 |
Australian School of Petroleum International Conference on Fluvial Sedimentology (8th : 2005 : Delft, The Netherlands) |
format |
Conference Object |
author |
Krapf, Carmen Barbara Elke Stollhofen, H. Werner, Mario |
spellingShingle |
Krapf, Carmen Barbara Elke Stollhofen, H. Werner, Mario Fluvial response to climate and sea-level change: implications from the Skeleton Coast, Namibia. |
author_facet |
Krapf, Carmen Barbara Elke Stollhofen, H. Werner, Mario |
author_sort |
Krapf, Carmen Barbara Elke |
title |
Fluvial response to climate and sea-level change: implications from the Skeleton Coast, Namibia. |
title_short |
Fluvial response to climate and sea-level change: implications from the Skeleton Coast, Namibia. |
title_full |
Fluvial response to climate and sea-level change: implications from the Skeleton Coast, Namibia. |
title_fullStr |
Fluvial response to climate and sea-level change: implications from the Skeleton Coast, Namibia. |
title_full_unstemmed |
Fluvial response to climate and sea-level change: implications from the Skeleton Coast, Namibia. |
title_sort |
fluvial response to climate and sea-level change: implications from the skeleton coast, namibia. |
publishDate |
2005 |
url |
http://hdl.handle.net/2440/45318 |
geographic |
Antarctic The Antarctic |
geographic_facet |
Antarctic The Antarctic |
genre |
Antarc* Antarctic ice core |
genre_facet |
Antarc* Antarctic ice core |
op_relation |
8th International Conference on Fluvial Sedimentology, 7-12 August, 2005: pp. 166. http://hdl.handle.net/2440/45318 |
_version_ |
1766265290609393664 |