Cowpeas thrive in poor dry conditions, growing well in soils up to 85% sand. This makes them a particularly important crop in arid, semidesert regions where not many other crops will grow. As well as an important source of food for humans in poor, arid regions, the crop can also be used as feed for livestock. Its
nitrogen-fixing ability means that as well as functioning as a sole crop, the cowpea can be effectively
intercropped with
sorghum,
millet,
maize,
cassava, or
cotton. The optimum temperature for cowpea growth is , making it only available as a summer crop for most of the world. It grows best in regions with an annual rainfall between . The ideal soils are sandy and it has better tolerance for infertile and acid soil than most other crops. Generally, for the erect varieties and for the climbing and trailing varieties. The seeds can be harvested after about 100 days or the whole plant used as forage after about 120 days. Leaves can be picked from 4 weeks after planting. These characteristics, along with its low
fertilisation requirements, make the cowpea an ideal crop for resource-poor farmers living in the
Sahel region of West Africa. Early-maturing varieties of the crop can thrive in the
semiarid climate, where rainfall is often less than . The timing of planting is crucial, as the plant must mature during the seasonal rains. The crop is mostly intercropped with
pearl millet, and plants are selected that provide both food and fodder value instead of the more specialised varieties. Storage of the seeds can be problematic in Africa due to potential infestation by postharvest pests. Traditional methods of protecting stored grain include using the insecticidal properties of
Neem extracts, mixing the grain with ash or sand, using vegetable oils, combining ash and oil into a soap solution or treating the cowpea pods with smoke or heat. More modern methods include storage in airtight containers, using gamma irradiation, or heating or freezing the seeds. Temperatures of kill the weevil larvae, leading to a recent push to develop cheap forms of solar heating that can be used to treat stored grain. One of the more recent developments is the use a cheap, reusable double-bagging system (called
PICs) that asphyxiates the cowpea weevils.
Pests and diseases '', commonly called the maruca pod borer, is one of the most damaging insect pests to the cowpea plant. Insects are a major factor in the low yields of African cowpea crops, and they affect each tissue component and developmental stage of the plant. In bad infestations, insect pressure is responsible for over 90% loss in yield. The legume pod borer,
Maruca vitrata, is the main preharvest pest of the cowpea. Other important pests include
pod sucking bugs,
thrips,
aphids,
cowpea curculios and post-harvest beetles
Callosobruchus maculatus and
Callosobruchus chinensis.
M. vitrata causes the most damage to the growing cowpea due to their large
host range and
cosmopolitan distribution. It causes damage to the flower buds, flowers, and pods of the plant, with infestations resulting in a 20–88% loss of yield. BT Cowpea was commercialised in Nigeria in 2019. '') infests stored cowpea seeds, resulting in major postharvest losses. Severe
C. maculatus infestations can affect 100% of the stored peas and cause up to 60% loss within a few months. The
weevil generally enters the cowpea pod through holes before harvest and lays eggs on the dry seed. The larvae burrow their way into the seed, feeding on the
endosperm. The weevil develops into a sexually mature adult within the seed. An individual bruchid can lay 20–40 eggs, and in optimal conditions, each egg can develop into a reproductively active adult in 3 weeks. The most common methods of protection involve the use of insecticides, the main pesticides used being
carbamates, synthetic
pyrethroids, and
organophosphates. Cowpea is susceptible to
nematode, fungal, bacterial, and virus diseases, which can result in substantial loss in yield. Common diseases include
blights, root rot, wilt,
powdery mildew, root knot,
rust and
leaf spot. The plant is susceptible to
mosaic viruses, which cause a green mosaic pattern to appear in the leaves. CPMV is stable and easy to propagate to a high yield, making it useful in
vector development and
protein expression systems. CpTI has been
transgenically inserted into other crops as a
pest deterrent. Besides biotic stresses, cowpea also faces various challenges in different parts of the world such as drought, heat, and cold. Drought lowers the growth rate and development, ultimately reducing yield, although cowpea is considered more drought tolerant than most other crops. Drought at the preflowering stage in cowpea can reduce the yield potential by 360 kg/ha. Crop wild relatives are the prominent source of genetic material, which can be tapped to improve biotic/abiotic tolerance in crops.
International Institute of Tropical Agriculture (IITA), Nigeria and Institut de l'Environment et de Recherches Agricoles are looking to tap into the genetic diversity of wild cowpeas and transfer that into cultivars to make them more tolerant to different stresses and adaptive to climate change. == Production and consumption ==