Abstract:
Current research work was a modest attempt to screen out suitable parental group
from twenty wheat genotypes with better performance and heritable characters. In this
regard, twenty wheat genotypes were collected from BARI and ten characters viz.
plant height, spikes/plant, spike length, grains/spike, 1000-grain weight, harvest
index, vegetative period, grain filling period, days to maturity and grain yield/plant
were selected for investigation. Significant variations were observed among the
genotypes for all the characters studied. Most of the characters had shown slightly
higher phenotypic coefficient of variation than corresponding genotypic coefficient of
variation but spikes/plant had shown wide gap which suggested greater environmental
influence in controlling this trait. Harvest index and grain yield/plant had shown high
heritability with high genetic advance indicated additive gene action in controlling
this trait and heritable in nature. Spikes/plant had shown low heritability with low
genetic advance indicating that it was controlled by non-additive gene. Correlation
coefficient analysis had shown that genotypic correlation co-efficient was slightly
higher than the corresponding phenotypic correlation co-efficient for most of the
characters except for grain filling period. Grain yield/plant had shown highly
significant and positive correlation with harvest index, spike length, 1000-grain
weight and grains/spike. Path coefficient analysis also confirmed that these characters
had influenced grain yield directly in positive direction. So, these characters should be
taken into consideration in selection for yield improvement. Multivariate techniques
were used for diversity analysis. Twenty wheat genotypes were clustered into five
diverse groups. The maximum number of genotypes were grouped in cluster I
followed by cluster V, IV, III and II. The highest inter cluster distance was noticed
between the clusters I and II. Therefore, the genotype G12 (BARI Gom 22) for longest
spike length and highest percentage of harvest index from cluster III, G15 (BARI Gom
25) for maximum 1000-grain weight from cluster III, G6 (Akbar) for shorter
vegetative period from cluster II and G10 (BARI Gom 20) for shorter grain filling
period from cluster V could be selected for future hybridization program.
Description:
A Thesis
submitted to the Faculty of Agriculture,
Sher-e-Bangla Agricultural University, Dhaka,
in partial fulfillment of the requirements
for the degreeof
MASTER OF SCIENCE
IN
GENETICS AND PLANT BREEDING
SEMESTER: July - December, 2016