dc.description.abstract |
ABSTRACT
Potassium fertilizer management is beneficial for improving growth, yield and yield components of field crops
under moisture stress condition. Three field experiments were conducted at the research farm of Sher-e-Bangla
Agricultural University, Dhaka, Bangladesh during the rabi season of 2016-2018 to evaluate the effects of
potassium fertilizer enhancing the productivity and alleviating detrimental effect of abiotic stress along with
other recommended fertilizer on the growth, yield, nutrient management, shelf life of the plant product and soil
chemical properties, the research was conducted based on selected wheat (BARI gom26), rice (BARI dhan28)
and carrot (New Kuroda) variety. The experiments were laid out in Split Plot Design and RCBD method with
three replications. The first experiment was conducted on wheat in rabi season with sixteen treatment
combination (4 levels of irrigation X 4 levels of K doses) viz. I
0
= control (normal irrigations), I
= Water stress
at vegetative stage, I
2
= Water stress at flower initiation stage, I
3
= Water stress at milking stages and K
= 0 kg
K/ha, K
1
= 60 kg K//ha, K
2
= 90 kg K/ha, K
= 120 kg K/ha. Growth and yield contributing characters mainly
plant height, number of spikelet’s, thousand grains weight of wheat crop were significantly influenced by the
potassium fertilizer and water stress at different growth stages. The highest grain yield of wheat (4.04 t/ha)
was observed under 120 kg K/ha from I
0
K
3
3
treatment combination, while the lowest grain yield (2.29 t/ha) was
recorded from I
0
K
1
and I
0
K
treatment combinations respectively. Among the combined effect of water stress
conditions and different doses of potassium I
2
0
K
combination provided the best result. The second experiment
was conducted on rice in rabi season with eleven treatments including control viz. T
3
= Control (no fertilizer),
T
2
= Fertilizer recommended dose for BRRI dhan28. (FRD) N
120
P
18
K
75
S
13
Zn
1.5
, T
3
1
= 25% K supplement by
cowdung (1.25 t/ha) + 75% K (56.25 kg /ha K) from MoP, T
= 25% K supplement by poultry liter (2.20 t/ha)
+ 75% K (56.25 kg/ha K) from MoP, T
5
4
= 25% K supplement by vermicompost (1.87 t/ha) + 75% K (56.25
kg/ha K) from MoP, T
6
= 50% K supplement by cowdung (2.50 t/ha) + 50% K (37.5 kg/ha K) from MoP, T
=
50% K supplement by poultry liter (4.40 t/ha) + 50% K (37.5 kg/ha K) from MoP, T
= 50% K supplement by
vermicompost (3.75 t/ha) + 50% K (37.5 kg/ha K) from MoP, T
9
8
= 75% K supplement by cowdung (3.75 t/ha)
1
0
7+ 25% K (18.75 kg/ha K) from MoP, T
= 75% K supplement by poultry liter (6.60 t/ha) + 25% K (18.75
kg/ha K) from MoP, T
11
10
= 75% K supplement by vermicompost (5.62 t/ha) + 25% K (18.75 kg/ha K) from
MoP. The study in aspect of growth and yield contributing characters mainly plant height, effective tillers/hill,
panicle length, filled grain/panicle, thousand grain weight, and harvest index and grain yield of boro rice. The
maximum grain yield of rice (6.55 t ha
-1
) was produced from T
treatment which was significantly different
from the T
1
treatment (2.35 t ha
-1
8
). The third experiment was conducted on carrot with eight treatments
including control viz. T
1
= 0 kg K/ha, T
2
= 20 kg K/ha, T
3
= 40 kg K/ha, T
4
= 60 kg K/ha, T
=
100 kg K/ha, T
7
= 120 kg K/ha, T
= 140 kg K/ha. Storage quality of carrot indicated that after seven days the
lowest moisture reduction percentage was observed in K
8
(20.39%) while the highest moisture reduction
percentage was found in K
0
(61.45%) followed by K
1
5
(60.24%). After 14 and 21 days same trend of moisture
reduction were found. In room temperature, K
treatment provided the best result and enhanced the shelf life of
carrot. So, it can be suggested that the improvement of K- nutritional status of plants might be of great
importance for the survival of crop plants under environmental stress conditions and potassium fertilizer with
other recommended fertilizers would be ideal for better crop growth, increasing yield and shelf life of crops.
5
5
= 80 kg K/ha, T
6 |
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