Precipitation variability in the winter rainfall zone of South Africa during the last 1400 yr linked to the austral westerlies

The austral westerlies strongly influence precipitation and ocean circulation in the southern temperate zone, with important consequences for cultures and ecosystems. Global climate models anticipate poleward retreat of the austral westerlies with future warming, but the available paleoclimate recor...

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Bibliographic Details
Published in:Climate of the Past
Main Authors: Stager, J C, Mayewski, P A, White, J, Chase, B M, Neumann, F H, Meadows, M E, King, C D, Dixon, D A
Format: Article in Journal/Newspaper
Language:English
Published: Faculty of Science 2012
Subjects:
Burns
Disaster Planning
Humans
Mass Casualty Incidents
National Health Programs
Practice Guidelines as Topic
Societies
Medical
South Africa
Antarctic
Austral
New Zealand
Antarc*
ice core
Online Access:http://hdl.handle.net/11427/34397
https://open.uct.ac.za/bitstream/11427/34397/1/StagerJC_Precipitation_v_2012.pdf
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Summary:The austral westerlies strongly influence precipitation and ocean circulation in the southern temperate zone, with important consequences for cultures and ecosystems. Global climate models anticipate poleward retreat of the austral westerlies with future warming, but the available paleoclimate records that might test these models have been limited to South America and New Zealand, are not fully consistent with each other and may be complicated by influences from other climatic factors. Here we present the first high-resolution diatom and sedimentological records from the winter rainfall region of South Africa, representing precipitation in the equatorward margin of the westerly wind belt during the last 1400 yr. Inferred rainfall was relatively high ∼1400–1200 cal yr BP, decreased until ∼950 cal yr BP, and rose notably through the Little Ice Age with pulses centred on ∼600, 530, 470, 330, 200, 90, and 20 cal yr BP. Synchronous fluctuations in Antarctic ice core chemistry strongly suggest that these variations were linked to changes in the westerlies. Equatorward drift of the westerlies during the wet periods may have influenced Atlantic meridional overturning circulation by restricting marine flow around the tip of Africa. Apparent inconsistencies among some aspects of records from South America, New Zealand and South Africa warn against the simplistic application of single records to the Southern Hemisphere as a whole. Nonetheless, these findings in general do support model projections of increasing aridity in the austral winter rainfall zones with future warming.

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