Abstract:
An experiment was conducted with 19 genotypes of tomato (Solanum
lycopersicum L.) at experiment field of Sher-e-Bangla Agricultural University,
Dhaka-1207 in completely randomized design (CRD) to study the genetic
diversity, variability, correlation and path coefficient analysis using yield and
quality traits during November 2016 to May 2017. Analysis of variance for
agromorphogenic and quality traits showed significant differences among the
genotypes. GCV and PCV were close to each other for all the characters except
no. flower per cluster in case of yield and pH content in qualitative traits
indicating the minor environmental influence on the expression of these
characters. High heritability associated with high genetic advance in percent of
mean was observed in no. of fruit per cluster, fruit per plant, fruit weight for yield
and lycopene content at 502 nm, vitamin C content and dry matter content %
pointed out that selection for these characters would be effective. The significant
positive correlation with fruit yield per plant was found in no. of fruit per cluster,
fruit per plant and lycopene content at 472 nm, brix %, vitamin C in qualitative
traits pointed that selection on the basis of these traits would improve yield
ultimately. Path coefficient analysis evidenced that no. of fruit per cluster, fruit
weight; fruit per plant had the positive direct effect on yield per plant. In
qualitative analysis brix %, lycopene content at 472 nm, vitamin C content had
the positive direct effect on dry matter content %. Therefore, importance has to
be given for these characters in further breeding program to improve tomato
yield and nutritional value. Multivariate analysis based on eleven characters in
yield and eight characters in qualitative traits of nineteen tomato genotypes was
divided into four distant clusters in both cases. The maximum contribution of
agromorphogenic traits towards diversity was observed by days to first
flowering, plant height, days to maturity, no. of cluster per plant and no. of flower
per cluster. Maximum contribution found in qualitative traits from brix %,
vitamin C, pH, lycopene content at 472 nm and 502 nm. As a result, these traits
could be emphasized during selection of parents for hybridization. The highest
inter cluster distance was observed between cluster III and IV and for qualitative
traits cluster IV and cluster I showed maximum distance. The maximum intra
cluster distance was found in cluster IV in both traits. Considering group distance
and other agro-morphogenic and qualitative performance, genotypes G
2
(SL006),
G
4
(SL-008), G
8
(Sl-013), and G
18
(BARI Tomato 11) found potential for
future hybridization program in response of increase tomato yield
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