dc.description.abstract |
The experiment was conducted at Sher-e-Bangla Agricultural University, Dhaka,
Bangladesh during the Rabi season of 2021 under field condition to identify the
variability, correlation and path coefficient analysis by considering ten yield contributing
characters using sixteen populations in F
5
generation of tomatillo (Physalis ixocarpa
Brot.). The experiment was laid out in RCBD with three replications. The population G14
showed the early flowering plant. The population G2 showed the highest plant height.
and the population G15 showed the highest fruit length. The population G12
showed the
highest fruit diameter. Population G6 showed the highest brix percentage. G11 have
highest pH value than the others. Individual fruit weight (60.39g) was observed in G12
population and highest fruit yield per plant (3.76kg) was observed in G4 population. But
the population G7 showed the highest number of fruits per plant. Lower difference
between PCV and GCV for days to first flowering, plant height, fruit length, fruit
diameter, brix percentage, pH, individual fruit weight, number of fruit per plant, yield per
plant, suggested that environmental influence was less on the expression of the genes
controlling these traits and selection based upon the phenotypic expression of these
characters would be effective for the improvement of tomatillo. High heritability coupled
with high genetic advance in percentage of mean for brix percentage, individual fruit
weight, number of fruits per plant, fruits yields per plant were obtained, suggesting that
the heritability of these traits was due to additive gene effects and selection may be
effective in early generations for these traits. Yield per plant showed positively
significant association with number of branches per plant and number of fruits per plants
for both genotypic and phenotypic level, indicating that a possible increase in these traits
tends to increase in fruit yield per plant. A positive direct effect was obtained for plant
height, number of branches per plant, fruit length, Brix percentage, pH, individual fruit
weight and number of fruits per plant on fruit yield per plant. Therefore, considering the
agronomic and genetic performance the population G4 for high yield, G8 population for
the fresh consumption, G12 and G15 for larger size fruits might be suggested for further
selection in next generation that would be effective in future breeding program. |
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