Periodicities, ENSO effects and trends of some South African rainfall series: an update

The precipitation data for some regions in South Africa were studied for the period 1900 - 1998. From the 11 regions examined, 8 in South Africa had maximum precipitations in the austral summer months (December, January, February, March), while 3 had maxima in autumn and winter. Annual values showed...

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Main Author: R. Kane
Format: Article
Language:English
Published: Academy of Science of South Africa 2010-01-01
Series:South African Journal of Science
Online Access:http://192.168.0.117/index.php/sajs/article/view/10083
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spelling doaj-e797c101182247b8846e919f0dbb38e52021-04-04T14:17:50ZengAcademy of Science of South AfricaSouth African Journal of Science1996-74892010-01-011055/6Periodicities, ENSO effects and trends of some South African rainfall series: an updateR. Kane0Instituto Nacional de Pesquisas Espaciais, Caixa Postal 515, 12245-970 - São José dos Campos, SP, Brazil.The precipitation data for some regions in South Africa were studied for the period 1900 - 1998. From the 11 regions examined, 8 in South Africa had maximum precipitations in the austral summer months (December, January, February, March), while 3 had maxima in autumn and winter. Annual values showed considerable year-to-year fluctuations (50% to 200% of the mean), while five-year running means showed long-term fluctuations (75% to 150% of the mean). A spectrum analysis indicated periodicities in the ranges 2 - 3 (quasi-biennial oscillation, QBO), 3 - 4 (quasi-triennial oscillation, QTO), 6 - 11, 17 - 21, 23 - 26, 32 - 35 and 55 - 66 years, some common to, and some different in different regions. The QBO and QTO accounted for a substantial fraction (30 - 50%) of the total variance. In five-year running means, the effects of QBO and QTO were suppressed considerably. The plots showed distinct peaks, but the spacings varied in a wide range, indicating that predictions based on extrapolation of single peaks are not likely to come true even for decadal averages. El Niño effects for the giant event of 1982/83 were as expected but those for 1997/98 were obscure, almost absent. Running means over 21 years did not indicate linear trends, upwards or downwards. Instead, considerable oscillations were seen, with magnitudes different in different regions (5 - 25%). On average, high values during 1915/16 decreased considerably (5 - 8%) up to 1935, oscillated upwards thereafter and recouped by 1980, but decreased considerably thereafter.http://192.168.0.117/index.php/sajs/article/view/10083
collection DOAJ
language English
format Article
sources DOAJ
author R. Kane
spellingShingle R. Kane
Periodicities, ENSO effects and trends of some South African rainfall series: an update
South African Journal of Science
author_facet R. Kane
author_sort R. Kane
title Periodicities, ENSO effects and trends of some South African rainfall series: an update
title_short Periodicities, ENSO effects and trends of some South African rainfall series: an update
title_full Periodicities, ENSO effects and trends of some South African rainfall series: an update
title_fullStr Periodicities, ENSO effects and trends of some South African rainfall series: an update
title_full_unstemmed Periodicities, ENSO effects and trends of some South African rainfall series: an update
title_sort periodicities, enso effects and trends of some south african rainfall series: an update
publisher Academy of Science of South Africa
series South African Journal of Science
issn 1996-7489
publishDate 2010-01-01
description The precipitation data for some regions in South Africa were studied for the period 1900 - 1998. From the 11 regions examined, 8 in South Africa had maximum precipitations in the austral summer months (December, January, February, March), while 3 had maxima in autumn and winter. Annual values showed considerable year-to-year fluctuations (50% to 200% of the mean), while five-year running means showed long-term fluctuations (75% to 150% of the mean). A spectrum analysis indicated periodicities in the ranges 2 - 3 (quasi-biennial oscillation, QBO), 3 - 4 (quasi-triennial oscillation, QTO), 6 - 11, 17 - 21, 23 - 26, 32 - 35 and 55 - 66 years, some common to, and some different in different regions. The QBO and QTO accounted for a substantial fraction (30 - 50%) of the total variance. In five-year running means, the effects of QBO and QTO were suppressed considerably. The plots showed distinct peaks, but the spacings varied in a wide range, indicating that predictions based on extrapolation of single peaks are not likely to come true even for decadal averages. El Niño effects for the giant event of 1982/83 were as expected but those for 1997/98 were obscure, almost absent. Running means over 21 years did not indicate linear trends, upwards or downwards. Instead, considerable oscillations were seen, with magnitudes different in different regions (5 - 25%). On average, high values during 1915/16 decreased considerably (5 - 8%) up to 1935, oscillated upwards thereafter and recouped by 1980, but decreased considerably thereafter.
url http://192.168.0.117/index.php/sajs/article/view/10083
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