dc.description.abstract |
The experiment was conducted in the experimental Farm. Sher-e-Bangla
Agricultural University, Sher-e-Bangla Nagar, Dhaka, Bangladesh during the
period from July to December 201110 study the variability of yield attributes and
quality traits in advanced lines of fine rice (Oryza saliva). Seven newly developed
lines of fine rice variety were used as the test crop for this study. They were S-I,
8-2. 8-5, AI.-33(II), AL-36, AL-42(II). AL-44(I) and Chinigura. The experiment
was laid out in Randomized Complete Block Design with three replications. The
longest plant height (137.35 cm) was observed in Chinigura, whereas the shortest
plant height (106.00 cm) was found in 8-2 lines. The highest grain yield per
hectare (6.34 ton) was recorded in 8-2, while the lowest yield per hectare (4.98
ton) in AL-33(11). Genotypic and phenotypie variance, heritability, genetic
advance and genetic advance in percentage of mean were estimated for different
newly developed advanced fine rice lines and check. Grain yield per plant of
newly developed advanced fine rice lines and check showed positive association
in respect of number of effective tillers/hill (0.308), number of filled
spikelets/panicle (0.110) and weight of 1000-grains (0.109), whereas significant
negative association with panicle length (-0.609). number of unfilled
spikelets/panicle (-0.542) and non significant negative association with plant
height (-0.136) and number of ineffective tillers/hill (-0.304). Path analysis
revealed that plant height had positive direct effect (0.154), number of effective
tillers/hill had positive direct effect (0.065). number of ineffective tillers/hill had
negative direct effect (-0.114). panicle length had positive direct effect (0.163),
number of filled spikelets/panicle had positive direct effect (0.285), number of
unfilled spikelets/panicle had negative direct effect (-0.154), weight of
1000-grains had positive direct effect (0.234) on grain yield per plant. The S-I,
8-2, 8-5, AL-33(11) and AL-44(l) lines showed higher hulling percent, milling
percent but lower head rice recovery percent than the check Chinigura, because of
their breakage during milling due to long grain. Among the studied lines all were
long slender grains and superior cooking performance over Chinigura, all were
superior for length of cooked rice elongation, kernel elongation ratio and volume
expansion. The S-I, 8-2 and AL-42(11) lines showed low OT which take short
time for cooking. |
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