Abstract:
The experiment was conducted at Sher-e-Bangla Agricultural University, Dhaka-1207
during the period from November 2021 to February2022 to examine the growth and yield
of potato (BARI Alu-25; ASTORIX) as influenced by integrated nutrient management.
The experiment consisted of nine treatments viz. T
1
(150 kg N/ha from urea + 30 kg P/ha
from TSP + 140 kg K/ha from MoP - only inorganic), T
2
(130 kg N/ha from urea + 30 kg
P/ha from TSP + 140 kg K/ha from MoP + 20 kg N/ha from vermicompost), T
3
(110 kg
N/ha from urea + 30 kg P/ha from TSP + 140 kg K/ha from MoP + 40 kg N/ha from
vermicompost), T
4
(90 kg N/ha from urea + 30 kg P/ha from TSP + 140 kg K/ha from
MoP + 60 kg N/ha from vermicompost), T
5
(70 kg N/ha from urea + 30 kg P/ha from
TSP + 140 kg K/ha from MoP + 80 kg N/ha from vermicompost), T
6
(50 kg N/ha from
urea + 30 kg P/ha from TSP + 140 kg K/ha from MoP + 100 kg N/ha from
vermicompost), T
7
(30 kg N/ha from urea + 30 kg P/ha from TSP + 140 kg K/ha from
MoP + 120 kg N/ha from vermicompost), T
8
(150 kg N/ha from urea + 30 kg P/ha from
TSP + 140 kg K/ha from MoP + 40 kg N/ha from vermicompost) and T
9
(control; no
nutrient application). The experiment was laid out in Randomized Complete Block
Design (RCBD) with three replications. Significant variation among the treatments was
found for most of the parameter due to different levels of integrated nutrient management
practices. The treatment T
5
(70 kg N/ha from urea + 30 kg P/ha from TSP + 140 kg K/ha
from MoP + 80 kg N/ha from vermicompost) exhibited the minimum 15.3 days to 100%
emergence. The maximum number of haulm hill
-1
(7.50), fresh weight of haulm hill
(185.60 g) and dry weight of haulm hill
-1
(33.70 g), number of tuber hill
(8.12), weight
of tuber hill
-1
(360.50 g), dry weight of 100 g fresh tuber (21.63 g), tuber weight plot
(14.55 kg) and tuber yield ha
-1
-1
(30.24 t) were obtained with T5 treatment followed by T
6
(50 kg N/ha from urea + 30 kg P/ha from TSP + 140 kg K/ha from MoP + 100 kg N/ha
from vermicompost) whereas the control treatment T
9
(no nutrient application) showed
the lowest results in all parameters as well as on yield. There was non signification of soil
pH, organic carbon and exchangeable K in postharvest soil but significant variation was
found in case of total N, agailable P and available S. The treatment T
8
(150 kg N/ha from
urea + 30 kg P/ha from TSP + 140 kg K/ha from MoP + 40 kg N/ha from vermicompost)
showed the highest N (0.273%), P (23.27 ppm) and S (28.20 ppm) content followed byT
5
(70 kg N/ha from urea + 30 kg P/ha from TSP + 140 kg K/ha from MoP + 80 kg N/ha
from vermicompost) whereas the lowest was obtained from control treatment. So, the
treatment T
5
(70 kg N/ha from urea + 30 kg P/ha from TSP + 140 kg K/ha from MoP +
80 kg N/ha from vermicompost) may be considered as the best treatment for potato
production (BARI Alu-25; ASTORIX).
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
SOIL SCIENCE