B. Koné scite author profile

In this chapter, we discuss the principal uses of baobab (Adansonia digitata), detar (Detarium microcarpum), nere (Parkia biglobosa), tamarind (Tamarindus indica), shea tree or karite (Vitellaria paradoxa) and ber (Ziziphus mauritiana) in Sahel, Africa. These species were preferred by farmers because of their nutritional, medicinal and income-generating values and their potential value. The current and future plans for their domestication are discussed.

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Vulnerability of rice production in the Inner Niger Delta to water resources management under climate variability and change

Liersch

Cools

Koné

et al. 2013

Environmental Science & Policy

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Floods in the Niger basin – analysis and attribution

Aich

Koné

Hattermann

et al. 2014

Preprint

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Abstract. This study addresses the increasing flood risk in the Niger basin and assesses the damages that arise from flooding. Statistics from three different sources (EM-DAT, Darthmouth Flood Observatory, NatCat Munich RE) on people affected by floods show positive trends for the entire basin beginning in the 1980s. An assessment of four subregions across the Niger basin indicates even exponential trends for the Sahelian and Sudanian regions. These positive trends for flooding damage match up to a time series of annual maximum discharge (AMAX): the strongest trends in AMAX are detected in the Sahelian and Sudanian regions, where the population is also increasing the fastest and vulnerability generally appears to be very high. The joint effect of these three factors can possibly explain the exponential increase in people affected by floods in these subregions. In a second step, the changes in AMAX are attributed to changes in precipitation and land use via a data-based approach within a hypothesis-testing framework. Analysis of rainfall, heavy precipitation and the runoff coefficient shows a coherent picture of a return to wet conditions in the basin, which we identify as the main driver of the increase in AMAX in the Niger basin. The analysis of flashiness (using the Richards–Baker Index) and the focus on the "Sahel Paradox" of the Sahelian region reveal an additional influence of land-use change, but it seems minor compared to the increase in precipitation.

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Time Series Analysis of Floods across the Niger River Basin

Aich

Koné²,

Hattermann

et al. 2016

Water

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Abstract:This study analyses the increasing number of catastrophic floods in the Niger River Basin, focusing on the relation between long term hydro-climatic variability and flood risk over the last 40 to 100 years. Time series for three subregions (Guinean, Sahelian, Benue) show a general consistency between the annual maximum discharge (AMAX) and climatic decadal patterns in West Africa regarding both trends and major changepoints. Variance analysis reveals rather stable AMAX distributions except for the Sahelian region, implying that the changes in flood behavior differ within the basin and affect mostly the dry Sahelian region. The timing of the floods within the year has changed only downstream of the Inner Niger Delta due to retention processes. The results of the hydro-climatic analysis generally correspond to the presented damage statistics on people affected by catastrophic floods. The damage statistics shows positive trends for the entire basin since the beginning in the 1980s, with the most extreme increase in the Middle Niger.

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B. Koné

An Analysis of Recent Rainfall Conditions in West Africa, Including the Rainy Seasons of the 1997 El Niño and the 1998 La Niña Years

Improving rural livelihoods through domestication of indigenous fruit trees in the parklands of the Sahel.

Vulnerability of rice production in the Inner Niger Delta to water resources management under climate variability and change

Floods in the Niger basin – analysis and attribution

Time Series Analysis of Floods across the Niger River Basin

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