Abstract:
Characterization of 10 popular winter wheat varieties released by BAR!was
done by studying variability, heritability, correlation and path co-efficient
analysis. Source sink relationship was the main focus, so all the varieties were
evaluated for source characters such as dry weight of green leaf, dry weight of
stem and leaf sheath at 50% booting stage, tiller number per square meter, LAI,
LAR, vegetative period and grain filling period. Side by side, sink characters
like dry weight of particle at 50% booting stage, number of grains per spike.
1000 grain weight and grain yield per sq. meter were also studied. The
experiment was conducted in randomized block design with three replications
in the cxperimcntal field of Shcr-e-l3angla Agricultural University during the
wheat growing season of 2012-2013. Significant variations were observed
among all the varieties for all the character studied. The variety Gourav,
Sonalika, BARI-26. BARI-25 and BARI-23 showed higher yield. The highest
genotypic and phenotypic coefficient of variation was observed for dry weight
of green leaf and dry weight of stem and leaf sheath at 50% booting stage.
Vegetative period showed the lowest estimation of variation. All the characters
were highly heritable, among them dry weight of panicle. leaf area ratio, total
dry matter and grain yield coincided high genetic advance (5%). Leaf area
ratio, total dry matter and dry weight of leaf sheath at 50% booting stage
coherently showed high genetic advance (% mean) but grain yield did not.
Correlation study indicated that grain yield had significant positive genotypic
relation with dry weight of panicic at 50% booting stage and 1000 grain
weight. In connasc, leaf area ratio at 50% booting stage showed significant
negative relation with grain yield. Through path coefficient analysis it was
thrther evident that, number of tillers per sq. meter had the highest direct
positive effect on yield but due to indircct negative effect of LAID (Leaf Area
Index at 50% Booting stage), LAR13 (Leaf Area Ratio at 50% Booting stage)
and grain filling period on this trait, the correlation became positive but very
weak. In coherence of the highest negative correlation coefficient, Leaf area
ratio at 50% booting stage exerted the highest direct negative effect on yield.
Thousand grain weight and number of grain per spike contributed to yield by
both direct and indirect means.
Description:
A thesis
Submitted to the Faculty of Agriculture,
Sher-e-Bangla Agricultural University, Dhaka,
in partial fulfillment of the requirements
for the degree of
MASTER OF SCIENCE
IN
GENETICS AND PLANT BREEDING