Heavy rainfall frequency analysis in the Benin section of the Niger and Volta Rivers basins: is the Gumbel's distribution a one-size-fits-all model?

D. F. Badou, Audrey Adango, Jean Hounkpè, A. Bossa, Yacouba Yira, E. I. Biao, J. Adounkpe, E. Alamou, L. Sintondji, A. Afouda
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Abstract

Abstract. West African populations are increasingly exposed to heavy rainfall events which cause devastating floods. For the design of rainwater drainage facilities (to protect populations), practitioners systematically use the Gumbel distribution regardless of rainfall statistical behaviour. The objective of this study is twofold. The first is to update existing knowledge on heavy rainfall frequency analysis in West Africa to check whether the systematic preference for Gumbel's distribution is not misleading, and subsequently to quantify biases induced by the use of the Gumbel distribution on stations fitting other distributions. Annual maximum daily rainfall of 12 stations located in the Benin sections of the Niger and Volta Rivers' basins covering a period of 96 years (1921–2016) were used. Five statistical distributions (Gumbel, GEV, Lognormal, Pearson type III, and Log-Pearson type III) were used for the frequency analysis and the most appropriate distribution was selected based on the Akaike (AIC) and Bayesian (BIC) criteria. The study shows that the Gumbel's distribution best represents the data of 2/3 of the stations studied, while the remaining 1/3 of the stations fit better GEV, Lognormal, and Pearson type III distributions. The systematic application of Gumbel's distribution for the frequency analysis of extreme rainfall is therefore misleading. For stations whose data best fit the other distributions, annual daily rainfall maxima were estimated both using these distributions and the Gumbel's distribution for different return periods. Depending on the return period, results demonstrate that the use of the Gumbel distribution instead of these distributions leads to an overestimation (of up to +6.1 %) and an underestimation (of up to −45.9 %) of the annual daily rainfall maxima and therefore to an uncertain design of flood protection facilities. For better validity, the findings presented here should be tested on larger datasets.
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尼日尔河和沃尔特河流域贝宁段的强降雨频率分析:甘贝尔分布是一个通用的模型吗?
摘要西非人口越来越多地受到导致毁灭性洪水的暴雨事件的影响。对于雨水排水设施的设计(以保护人口),从业者系统地使用甘贝尔分布,而不考虑降雨统计行为。这项研究的目的是双重的。首先是更新关于西非强降雨频率分析的现有知识,以检查对甘贝尔分布的系统偏好是否不会产生误导,然后对使用甘贝尔分布在拟合其他分布的站点上引起的偏差进行量化。研究使用了尼日尔河和沃尔特河流域贝宁段12个站点96年(1921-2016)的年最大日降雨量。频率分析采用Gumbel、GEV、Lognormal、Pearson type III和Log-Pearson type III五种统计分布,并根据Akaike (AIC)和Bayesian (BIC)标准选择最合适的分布。研究表明,2/3的站点的数据最符合Gumbel分布,其余1/3的站点的数据更符合GEV、Lognormal和Pearson III型分布。因此,系统地应用甘贝尔分布进行极端降雨的频率分析是有误导性的。对于数据最符合其他分布的站点,分别使用这些分布和Gumbel分布估算了不同回归期的年日降雨量最大值。根据回归期的不同,结果表明,使用Gumbel分布代替这些分布会导致年日降雨量最大值的高估(高达+ 6.1%)和低估(高达- 45.9%),从而导致防洪设施的设计不确定。为了获得更好的有效性,这里提出的发现应该在更大的数据集上进行测试。
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Proceedings of the International Association of Hydrological Sciences
Proceedings of the International Association of Hydrological Sciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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