LUCENA, R. A. M.; http://lattes.cnpq.br/6453753955502807; LUCENA, Rosana Araújo Martins.
Abstract:
Cowpea is a species widely cultivated in several regions of the world. In Brazil, it is grown
mainly in the semi-arid region, playing an important role in the country's food and
socioeconomic security. In view of the above, climate changes associated with global
population growth instigate the scientific community and rural producers to seek genotypes that
are more resilient to climate adversities, such as water stress. In this way, the objective was to
carry out a prospection of cowpea genotypes resilient to drought in the Cariri Ocidental of the
Paraíba. The experiment was carried out in the field, using a randomized block design, in a 2 ˣ
4 factorial scheme, with two irrigation depths (50% and 100% replacement of crop
evapotranspiration - ETc) and four cowpea genotypes (Corujinha, Paulistinha, BRS Tapaihum
and BRS Miranda). The CO2 assimilation rate (A), transpiration (E), stomatal conductance (gs),
CO2 internal concentration (Ci), instantaneous water use efficiency (EiUA), instantaneous
carboxylation efficiency (EiC), relative water content in the leaves (CRA) and extravasation of
intracellular electrolytes (EEI). The data were submitted to the normality test and then to the
analysis of variance using the F test (p ≤ 0.05). It was verified that the Corujinha genotype
expressed high results for A, gs, Ci and EiUA, when 50% of ETc was replaced. It was also
verified that the BRS Miranda genotype irrigated with 50% of ETc obtained higher A, E and
EiC. Regarding the relative water content in the leaf and extravasation of intracellular
electrolytes, there were no significant results when 50% and 100% of ETc was replaced. The
Creole variety Corujinha and the BRS Miranda cultivar were considered the drought-resilient
cowpea genotypes in the Cariri Ocidental of Paraíba microregion. These resilient genotypes are
recommended for cultivation in this microregion, as they can increase income and improve the
quality of life of family farmers. New research is suggested to analyze the productivity of these
genotypes under water restriction.