XAVIER, D. A.; http://lattes.cnpq.br/8178855880734479; XAVIER, Diego Azevedo.
Abstract:
Vegetative, productive and physiological aspects of cowpea genotypes under salt stress. The use of saline water in agriculture has contributed to the expansion of irrigated areas,
especially in arid and semi-arid regions, where happen long periods of drought for
several months. In this context of scarcity of water, associated with quality problems,
proposed with this work was to evaluate the growth, physiological indices and
production of cowpea genotypes grown under salt stress, aiming to provide suitable
cultivars to salt stress. The treatments will result from the combination of two factors:
being 13 cowpea genotypes (MNC02-675F-3, MNC02-675F-4-10, MNC02-675F-9-3,
MNC02-677F-2, MNC02-689F-2-8, MNC03-736F-6, MNC03-737F-11, MNC03-737F-
5-1, BRS Pajeú, BRS Potengi, BRS Guariba, BRS Paraguaçu and BRS Cauamé) and
four levels of electrical conductivity of irrigation water (S1 = 1.2 dS m-1; S2 = 2.8 dS m-
1; S3 = 4.4 dS m-1 and S5 = 6.0 dS m-1 at 25°C) and three replicates.
Increased salinity of irrigation water from the level of 1.2 dS m-1 reduced the growth
and production, measured by the number of leaves, plant height, stem diameter, leaf
area, number of grains and vagem and weight grains. Intensification of salt stress
through irrigation resulted accumulation of solutes in the leaflets of the leaves, and
promoted increased leaf saturation deficit. The genotypes MNC02-677F-2 and BRS
Cauamé presented adaptation mechanism for the loss of leaf saturation the genotypes
MNC03-763F-11 and BRS Cauamé had the highest biomass for the formation of
increased salinity irrigation already genotype MNC03-737F-5-1 had the lowest
biomass.