Abstract
Cowpea (Vigna unguiculata (L.) Walp.) is an important commodity in West Africa. Its seeds are a valuable source of protein, vitamins, and income for humans. However, cowpea cultivation in Benin faces climatic constraints such as water stress caused by a prolonged absence of rain during the rainy season. Thus, this work aims at selecting cowpea varieties that can be cultivated in times of drought without compromising their yields and yield components. Twenty cowpea varieties were used, including 17 improved cultivars and 3 landraces. The experiment was conducted at the International Institute of Tropical Agriculture in Benin and laid at a split-plot design with four replicates. Each genotype was exposed to three water treatments: fully irrigated control, vegetative stress (when plants were 23 days old, drought stress was imposed for 30 days), and reproductive stress (once the first flowers were observed, water stress was imposed for 30 days). The results showed that photochemical yield, chlorophyll content, and relative water content were reduced under water deficit at the vegetative and reproductive stages. But there were no significant differences in proline content among cowpea varieties. Agronomic traits such as number of days to flowering, number of pods, yield per plant, the weight of 100 seeds, and harvest time showed significant differences under water stress. Overall, the landraces and cultivars including Kpodjiguegue, KVX 61-1, and IT 06-K-242-3 were the most tolerant to drought stress at the vegetative and reproductive stages and could potentially be used in breeding programs to improve drought tolerance of cowpeas.
Highlights
Cowpea (Vigna unguiculata (L.) Walp.) is one of the oldest crops known to man
Weather data were collected and plotted (Figure 1). e pots were handweeded regularly and were sprayed weekly with abamectin (18 g/L) and cyhalothrin (25 g/L) to protect the plants from the attack of insect pests and plant pathogens. e drought stress at the vegetative stage was imposed on December 10, 2019, and ended on January 08, 2020, while the drought stress at the reproductive stage started on December 23, 2019, and it was terminated on January 21, 2020. ere was no rainfall during the drought imposition at both vegetative and reproductive stages
Chlorophyll fluorescence decreased in stressed plants during the vegetative phase
Summary
It is native to Africa, and it was domesticated from a wild plant to a cultivated plant [1]. It is widely adapted and cultivated around the world on about 14.5 million hectares, and approximately 6.5 million metric tons of cowpea is yearly harvested [2]. Many Africans consume cowpea as fresh pods, tender leaves, and grains [4, 5]. It is the most economically important indigenous African pulse crop [6] and is of vital importance to the livelihoods of millions of people in West and Central Africa. In Benin, cowpea is cultivated nationwide mainly for its edible seeds [7], and it occupies 7% of the areas sown for annual crops with a production of 11,224 tonnes [8, 9]
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