dc.description.abstract |
A fleld experiment was conducted with 33 genotypes of IJi-cissica rcipa including three
commercially cultivated varieties as checks to study their inter-genotypic variability:
correlation, path coefficient and genetic diversity considering 9 different
morphological characters at the experimental farm of Shcr-e-Bangla Agricultural
University. Dhaka during October, 2011 to February, 2012. The genotypes were
found to differ significantly for all the characters studied. 6-9 showed best result in
term of early maturity and higher yield per plant than check varieties. 0-6: 0-30: 027;
0-15 and 6-12 also gave higher yield with early maturity. The characters plant
height and number of siliquae per plant were highly influenced by the environment
whereas, number of primary branches per plant, number of seeds per siliqua, siliqua
length, 1000-seed weight and seed yield per plant influenced least. Moreover, the
number of primary branches per plant. 1000-seed weight and seed yield per plant
showed moderate broad sense heritability while number of siliquae per plant exhibited
the highest heritability followed by days to maturity, number of secondary branches
per plant, siliqua length, number of seeds per siliqua and plant height. The significant
positive correlation with seed yield per plant was found in number of primary
branches per plant and ntnnber of secondary branches per plant and significant
negative correlation with number of seeds per siliqua. However, the highest
significant positive correlation was found between number of siliquae per plant and
seed yield per plant. Path coefficient analysis showed that the number of siliquae per
plant had maximum positive direct effect on seed yield followed by plant height,
number of primary branches per plant, 1000-seed weight, days to maturity and
number of secondary branches per plant. Number of siliquae per plant. number of
primary branches per plant and number of secondary branches per plant were the most
important contributors to seed yield per plant which cotild be taken in consideration
for future hybridization program. Different multivariate analysis techniques were used
to classify 33 Arcessica rapcz genotypes. The genotypes were grouped into five
clusters. The highest inter-cluster distance was observed between clusters Ill and V
whereas the maximum intra-cluster distance was found in cluster 1. Therefore, the
genotypes belonging to cluster T and cluster V. cluster 111 and cluster V and cluster 111
and cluster IV have been selected for future hybridization program. The role of
number of siliquae per plant in both the vectors were important components for
genetic divergence in these materials. Considering group distance and other
agronomic perfhrmance the inter-genotypie crosses between 6-27 and 0-31, (1-26
and 0-27, 0-27 and 0-32, (i-30 and (1-31, 0-20 and 0-33. (1-20 and (1-33 might be
suitable choice for future hybridization program. |
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