Abstract
This study used Empirical Orthogonal Function (EOF), student t test, composite and correlation analysis techniques to investigate the inter-annual variability of March to May rainy season over Tanzania and its association atmospheric circulation anomalies. The EOF results showed that the rainfall over Tanzania during MAM season does not vary too much with the first dominant mode (EOF1) showing the variance of 22.4% of the total rainfall and that much of the rainfall being concentrated over the coast, northeastern and southern regions. It was found that during wet years, the study area was dominated by convergence at lower level which is associated with enough moisture advected by south easterlies from Indian Ocean due to the relaxation of Mascarene high (MH) over the region and westerlies from Congo basin. The rising motion at lower level was enhanced with the presence of ascending limb of Walker circulation cell over the western Indian Ocean (WIO) and the coast region. Central Pacific and east coast of Atlantic Oceans are relatively warm during wet years. Furthermore, significantly negative correlation observed between southeast Indian Ocean (SEIO) region and MAM rainfall over Tanzania at the 95% confidence level portrays that much of the regions receive high sufficient amount of rainfall when the western Indian Ocean (WIO) is relatively warmer than the SEIO. The results show that Nino 3.4 and Tropical North Atlantic (TNA) indices are strongly positively correlated with MAM rainfall over the east coast region. This study will help to improve seasonal forecasts over Tanzania.
Highlights
The variability of rainfall has shown a significant impact on disaster management efforts and growth of the economy of peasant people in sub-Saharan Africa countries (Wagesho & Claire, 2016)
Even though both two seasons are known as a rainy season over the country, that is to say ‘masika’ for March to May (MAM) rainfall and ‘vuli’ for OND rainfall, MAM season contribute high amount of rainfall by almost 43% of the total amount of rainfall that the country receives in a year (Figure 2b)
The study investigates inter-annual variability of March to May rainfall over Tanzania and its association atmospheric circulation anomalies by consideration periodic interval of 40 years (1978-2017)
Summary
The variability of rainfall has shown a significant impact on disaster management efforts and growth of the economy of peasant people in sub-Saharan Africa countries (Wagesho & Claire, 2016). Williams and Funk (2011) revealed that MAM rainfall has a strong impact over East Africa in term of floods (drought) due to its high (less) intensity and amount compared to other rainfall seasons. They shown that the total rainfall amount and trend during MAM season is decreasing significantly. This leads to major climatic shock as it was discussed by Lyon and Dewitt (2012) since the economy of the East African region including Tanzania depends on rain fed agriculture (Katia et al, 2012).
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