Abstract
In West Africa, cowpea (Vigna unguiculata) is an important source of protein for many people. To meet the protein demands, the cowpea yields per unit area and its seed protein content must be increased. We evaluated the effects of the planting density and topdressing (fertilisation) timing on the cowpea yield and its protein content. High density (HD: 40 × 40 cm) and super high density (SHD: 40 × 20 cm) plantings were the most efficient approaches for enhancing cowpea yields. Across different regions in Burkina Faso, under such approaches, the yield significantly increased by as much as 214.5%, with an average value of 88.9%. Fertilisation was not required to achieve the significant increases in cowpea production following dense planting. Although the yield increased, the seed weight per plant decreased with the increase in planting density. Applying topdressing when the plants started flowering increased the seed protein content significantly by up to 24.4%. Simple and robust technologies, such as high-density planting and topdressing, can be rapidly disseminated for increased cowpea yields and protein content improvement for Burkina Faso and for other countries.
Highlights
Legumes are important sources of protein and other nutrients, and they are vital for satisfying the increasing demands for food and feed
The findings suggest that the cowpea yield can be improved, even in the case of farmers with no access to fertilizer
The results demonstrate the effectiveness of High density (HD) and super high density (SHD) planting in different agro-ecological zones in Burkina Faso
Summary
Legumes are important sources of protein and other nutrients, and they are vital for satisfying the increasing demands for food and feed. Legume crops can provide multiple services, contributing to sustainable food production. In addition to serving as a fundamental and worldwide source of high-quality food and feed, legumes contribute to reducing greenhouse gas emissions, as they release 5–7 times less greenhouse gases per unit area compared with other crops [1]. Legume farming can result in carbon sequestration in soils, with values estimated at 7.21 g kg−1 of dry matter, with 23.6 C kg−1 versus 21.8 g C kg−1 per year, and can reduce fossil fuel energy inputs compared with cereal crops due to their lower requirement for N fertilizer, corresponding to 277 kg ha−1 of CO2 per year [1]. It is of vital importance to the livelihoods of millions of people in West Africa
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