Article Type:
Research Article

Prediction of East African Seasonal Rainfall Using Simplex Canonical Correlation Analysis

Henry K. Ntale Department of Civil and Environmental Engineering University of Alberta, Edmonton, Alberta, Canada

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Thian Yew Gan Department of Civil and Environmental Engineering University of Alberta, Edmonton, Alberta, Canada

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Davison Mwale Department of Civil and Environmental Engineering University of Alberta, Edmonton, Alberta, Canada

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Print Publication:
15 Jun 2003
DOI:
https://doi.org/10.1175/1520-0442(2003)016<2105:POEASR>2.0.CO;2
Page(s):
2105–2112
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Abstract

A linear statistical model, canonical correlation analysis (CCA), was driven by the Nelder–Mead simplex optimization algorithm (called CCA-NMS) to predict the standardized seasonal rainfall totals of East Africa at 3-month lead time using SLP and SST anomaly fields of the Indian and Atlantic Oceans combined together by 24 simplex optimized weights, and then “reduced” by the principal component analysis. Applying the optimized weights to the predictor fields produced better March–April–May (MAM) and September–October–November (SON) seasonal rain forecasts than a direct application of the same, unweighted predictor fields to CCA at both calibration and validation stages. Northeastern Tanzania and south-central Kenya had the best SON prediction results with both validation correlation and Hanssen–Kuipers skill scores exceeding +0.3. The MAM season was better predicted in the western parts of East Africa. The CCA correlation maps showed that low SON rainfall in East Africa is associated with cold SSTs off the Somali coast and the Benguela (Angola) coast, and low MAM rainfall is associated with a buildup of low SSTs in the Indian Ocean adjacent to East Africa and the Gulf of Guinea.

Current affiliation: Department of Civil Engineering, Makerere University, Kampala, Uganda

Corresponding author address: Dr. Thian Yew Gan, School of Mining and Petroleum Energy, 220 Civil Electrical Engineering Bldg., University of Alberta, Edmonton, AB T6B 2G7, Canada. Email: tgan@civil.ualberta.ca

Abstract

A linear statistical model, canonical correlation analysis (CCA), was driven by the Nelder–Mead simplex optimization algorithm (called CCA-NMS) to predict the standardized seasonal rainfall totals of East Africa at 3-month lead time using SLP and SST anomaly fields of the Indian and Atlantic Oceans combined together by 24 simplex optimized weights, and then “reduced” by the principal component analysis. Applying the optimized weights to the predictor fields produced better March–April–May (MAM) and September–October–November (SON) seasonal rain forecasts than a direct application of the same, unweighted predictor fields to CCA at both calibration and validation stages. Northeastern Tanzania and south-central Kenya had the best SON prediction results with both validation correlation and Hanssen–Kuipers skill scores exceeding +0.3. The MAM season was better predicted in the western parts of East Africa. The CCA correlation maps showed that low SON rainfall in East Africa is associated with cold SSTs off the Somali coast and the Benguela (Angola) coast, and low MAM rainfall is associated with a buildup of low SSTs in the Indian Ocean adjacent to East Africa and the Gulf of Guinea.

Current affiliation: Department of Civil Engineering, Makerere University, Kampala, Uganda

Corresponding author address: Dr. Thian Yew Gan, School of Mining and Petroleum Energy, 220 Civil Electrical Engineering Bldg., University of Alberta, Edmonton, AB T6B 2G7, Canada. Email: tgan@civil.ualberta.ca

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