dc.description.abstract |
Okra is one of indigenous genetic resource of Ethiopia, but only few studies were carried
out to assess its variability and performance throughout the country. Therefore, it was
necessary to continue the evaluation of available okra indigenous and introduced varieties
to identify superior okra genotypes. Thus, this research was conducted to assess variation
in growth and fruit yield of okra genotypes and genetic variability of indigenous and
introduced okra genotypes for morpho-agronomic traits. A total of 21 okra genotypes (11
indigenous and 10 introduced) were evaluated for 25 quantitative morpho-agronomic and
2 qualitative traits in 2020 at Dire Dawa in randomized complete block design with three
replications. Results of analysis of variance showed highly significant (P<0.01)
differences for all traits except green fruit width that showed significant difference
(P<0.05). The genotypes showed fruit yield ranged from 1.66 to 10.45 with mean of 6.23
tons ha-1
and seed yield per plant that ranged from 10.66 to 93.9g with mean of 46.5g. The
mean performance of okra genotypes collected from south-western, north western,
northern and western Ethiopia were greater than introduced varieties for fruit traits
including growth, green fruit yield, fruit quality and other agro morphological traits.
However, introduced varieties were early flowering and maturity than indigenous.
Estimates of genetic (GCV) and phenotypic (PCV) coefficients of variation range from
9.16 to 42.3% and 9.33 to 44.16%, respectively. Heritability in broad sense (H2
) and
genetic advance as percent of mean (GAM) ranged from 29.57 to 91.89% and 10.39 to
83.53%, respectively. Estimated variability components (GCV, PCV, H2
and GAM) were
high and moderate for all traits except days to 50% emergence (GCV and PCV),
internodes length (GCV) and green fruit width (H2
) that were categorized under low. The
presence of genetic variability in okra is an indication of the less influence of
environmental factors in the expression of traits and the higher chance to improve best
traits. High H2
coupled with GAM also provides better information than each parameter
alone and also an expression of additive gene action. The first four principal component
axes (PCA1 to PCA4) accounted for 7.83 to 35.02% that accounted 74.56% to total
variability with eigenvalues that ranged from 1.95 to 8.75. Genetic distances estimated by
Euclidean distances from 25 traits ranged from 2.33 to 12.56 with mean 6.83, standard
deviation 1.8 and coefficient of variation 26.46%. The genotypes were grouped into four
distinct clusters from Euclidean distances matrix using UPGMA. Cluster I consisted 12
genotypes (57.14%) while cluster II consisted two genotypes (9.52%). Cluster III consisted
one genotype (4.76%) and cluster IV contained six genotypes (28.57%). Okra genotypes
collected from south-western, north western, northern and western Ethiopia were more
divergent with high genetic distances and had higher performances for most of the traits
including growth, green fruits yield and seed yield than introduced varieties. In
conclusion, this study showed the presence of variation among genotypes for most of the
traits indicating selection of genotypes could be effective to develop okra varieties for high
green fruit and seed yield through direct selection or crossing. |
en_US |