Abstract:
The present study was conducted as a pot experiment in order to observe the
performance of tomatillo (Physalis ixocarpa Brot./P. philadelphica Lam.) genotypes
under different levels of salinity treatment. The experiment was conducted beside the
area of the net house of Department of Genetics and Plant Breeding, Sher-e-Bangla
Agricultural University, Dhaka-1207, Bangladesh, during the period of November,
2017 to March, 2018. A two factorial Completely Randomized Design (CRD)
experiment was conducted which included four tomatillo genotypes (Factor A) viz. G
1
(SAU tomatillo 1), G
2
(SAU tomatillo 2), G
3
(PI003), G
4
(PI004) and three salinity
treatments (Factor B) viz. T
1
(Control), T
2
(8 dS/m), T
3
(12 dS/m) and was outlined
with three replications. Seedlings of 21 days old were transplanted into main plastic
pots and two salinity treatments, 8 dS/m and 12 dS/m were started to apply after 7
days of transplanting. The observed results showed that both of four tomatillo
genotypes and three salinity treatments had their independent significant influence
and also had significant influence in their interaction effect between different
agromorphogenic, physiological and nutritional traits. Almost all agromorphogenic
and physiological traits responded negatively (%Reduction), except endogenous Na
ion and proline content whereas nutritional traits like, %Brix, titratable acid and
vitamin-C content, except fruit pH responded positively (%Increase) under the
increased level of salinity treatments. From the observed results of the accomplished
study, considering yield and its contributing characters like, number of fruits per
plant, average fruit length, diameter, fruit weight as well as yield per plant, the best
salt tolerant genotypes of tomatillo were genotype G
1
and G
3
under both slightly and
moderately salinity stresses. These two also showed minimum endogenous Na
and
maximum K
+
ion content along with minimum reduction in leaf area index. The
maximum amount of proline content was observed in genotype G
4
while G
1
showed
the maximum increase percentage. The maximum reduction in days to maturity was
found in genotype G
1
and G
4
. Considering the increased percentage of nutritional
traits like, %Brix, titratable acid and vitamin-C content, the best salt tolerant
genotypes of tomatillo were genotype G
3
along with G
4
and G
1
+
. Thus, genotype G
3
and G
1
could be recommended for further trial in Southern region of Bangladesh.
And, genotype G
2
and G
4
could be served as parent materials for further hybridization
or genetic transformation program along with G
3
and G
1
.
+
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
SEMESTER: JANUARY-JUNE, 2018