Abstract:
A field experiment was conducted at the experimental farm of Regional Sugercrop Research
Station Thakurgaon of Bangladesh Sugarcane Research Institute (BSRI), during March 2021
to September 2021 to study the effect of lime and GA
on growth, yield and nutrient content
of stevia. The trail was laid out in Randomized Complete Block Design (RCBD) with three
replications. Factor A (lime), was used on treatment L
3
1
: Control, L
2
: 0.5 t ha
,
L
4
: 1.5 t ha
-1
and L
5
: 2.0 t ha
-1
. Factor B used gibberellic acid (GA
3
) was H
: 150
ppm, H
3
: 200 ppm H
4
: 250 ppm, H
5
: 300 ppm and H
6
1
: 350 ppm. Data were collected on plant
height (cm), number of branch plant
-1
, number of leaves plant
-1
-1
, L
3
: 1.0 t ha
: control, H
, leaf area plant
), fresh
weight plant
-1
(g), dry weight plant
-1
(g), fresh leaf yield plant
-1
-1
(cm
(g), dry leaf yield plant
(g),
fresh leaf yield ha
-1
(kg), dry leaf yield ha
-1
(kg), N(%), P (%), K (%), S (%), Ca (%), Mg (%),
Zn (µg g
-1
) of stevia leaf, initial and post harvest soil analysis. Significant variations were
observed on plant height, number of leaves plant
-1
, leaf area plant
-1
(cm
2
) number of primary
and secondary branch plant
-1
in different level of lime application. Highest plant height,
number of leaves plant
-1
, leaf area plant
-1
(cm
2
) number of primary and secondary branch
plant
-1
was observed in L
3
(lime 1.0 t ha
-1
) treatment and the lowest was in L
(control)
treatment at 21 DAT to 147 DAT, respectively. Applying 300 ppm GA
was the significant
effect in increasing at 21 DAT to 147 DAT, respectively and the lowest plant height, number
of leaves plant
-1
, leaf area plant
-1
(cm
2
3
) number of primary and secondary branch plant
was
observed in control (GA
3
) treatment. The highest plant height, number of leaves plant
, leaf
area plant
-1
(cm
2
) number of primary and secondary branch plant
-1
heights was in L
(lime
1.0 t ha
-1
× GA
3
300 ppm) treatment and the lowest was found in L
1
H
at all growth stages. N,
K, Mg, Zn content of stevia leaf was significantly affected by different levels of lime and
GA
3
1
. The highest N, K, Mg, Zn content was observed when the plot was treated with lime 1.0
t ha
-1
× 300 ppm GA
3
(L
3
H
) and the lowest N, K, Mg, Zn content was recorded in the control
treatment. Significantly highest fresh weight plant
5
-1
, fresh weight ha
-1
1
, dry weight plant
, dry
weight ha
-1
was observed in L
3
treatment and lowest was observed in L
treatment in stevia
plant. The interaction effect of lime and GA
3
1
in most of the combination showed significantly
the highest fresh weight plant
-1
, fresh weight ha
-1
, dry weight plant
-1
, dry weight ha
, fresh
leaf yield ha
-1
and dry leaf yield ha
-1
was observed in L
3
H
5
and lowest was observed in L
treatment. Thus, the application of lime and gibberellic acid (GA
) had positive impact on leaf
yield components resulted in higher yield of study. From the result it can be recommended
that lime 1.0 t ha
-1
and GA
3
3
300 ppm is suitable for field cultivation of stevia production.
Therefore, these findings infer that lime 1.0 t ha
-1
and GA
300 ppm might help in producing
more stevia leaf in Old Himalayan Piedmont Plain soil especially in Northwest of Bangladesh
for environment friendly management practices.