Abstract:
A pot experiment was conducted at the Horticulture Farm of Sher-e-Bangla
Agricultural University, Dhaka-1207, during the period from October 2019 to March
2020 to find out the effect of salinity levels and potassium nitrate on morphological,
yield and yield contributing characters of tomato. The materials used for the
experiment were BARI Tomato 19. In this experiment, the treatments consisted of
five different salinity levels viz,, L
0
= 0 dSm
-1
(Control), L
1
= 2 dSm
,
L
3
= 6 dSm
-1
and L
4
= 8 dSm
-1
-1
, L
2
and three different levels of potassium nitrate viz., M
0
=
0 mM (Control), M
1
= 5 mM, M
2
= 10 mM. The experiment was setup in a two factor
Randomized Complete Block Design (RCBD) with three replications. Data were
taken from plant height, number of leaves plant
-1
, number of branches plant
, days to
first flowering, number of flower cluster
-1
, number of flower cluster plant
, number of
flowers plant
-1
, number of dropped flower plant
-1
, number of fruit plant
, fruit length,
fruit diameter, dry matter content of fruit, individual fruit weight, fruit weight plant
.
When single effect was considered, salinity adversely affected most of the growth and
yield parameters, but application of potassium nitrate elevated all the mentioned
parameters. When combined effect was considered, the maximum plant height (121.4
cm), number of branches plant
-1
(8.13), leaves plant
-1
(39.33), minimum days to first
flowering (38.33 days), cluster plant
-1
(8.92), flower cluster
-1
-1
-1
= 4 dSm
-1
(8.67), flower plant
(77.34), fruit plant
-1
(53.67), the highest individual fruit weight (69.11 g) and fruit
yield plant
-1
(3.71 kg) were found from L
0
M
2
(10 mM KNO
3
with no salinity stress
condition), whereas the opposite value was obtained from L
4
M
0
(8 dSm
NaCl with
no KNO
3
condition) treatment combination. The experimental results showed that
different levels of salinity significantly affect the morphological characters and yield
of tomato. Exogenous application of potassium nitrate significantly increased the
morphological characters, yield contributing characters and yield of tomato in both
saline and non-saline conditions. Among the different concentration of potassium
nitrate, tomato showed better response with 10 mM concentration of potassium
nitrate.
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
HORTICULTURE