was obtainedat intervals of ½ h (5.

was obtained
at intervals of ½ h (5.13 g) followed by 1 h (4.79 g). However, the
differences between the intervals were not significant. Furthermore, the fresh weight of microtubers was significantly higher at
1 h nutrient spray intervals (0.90 g) than others.
The experiment investigating the effect of different doses of BAP
on potato microtuberization in the NSB system revealed that the
MS + 0.5 mg/L BAP medium induced the highest number (5.31) of
microtubers as well as largest (0.96 cm diameter) when compared
to the other concentrations (1.0 and 1.5 mg/L;Table 1). However,
1.0 mg/L BAP increased results in the highest fresh weight of microtubers (0.97 g) compared with lower doses (0.5 mg/L) or more
(1.5 mg/L) of the plant growth regulators (Table 1).
The results of explants density experiment showed that from
30 to 60 explants per bioreactor has no significant difference in
the number of internodes per plantlet, length of shoots and total
chlorophyll content as well as the number and fresh weight of
microtubers (Table 2). In all cases, plant morphology was similar
in the color, vigor, or quality of the shoots or microtubers. But further increase to higher densities (75 and 90 explants per bioreactor)
resulted in thin, light green shoots with fewer microtubers. Furthermore, calli of watery consistency were formed at the base of shoots
during microtuberization (Fig. 4a).
To evaluate the effectiveness on shoot growth and microtuberization, the developed NSB system was compared with
micropropagation using semi-solid and liquid culture (Table 3).
The experimental comparison of shoot growth between the NSB
and the semi-solid and liquid cultures showed that the NSB system
produced potato explants with the highest number of shoots (3.33),
the longest shoots (8.69 cm) and the highest number of internodes
(7.03;Fig. 4b). Hyperhydricity was observed in the liquid culture
(17%) but not in the NSB or semi-solid cultures. Microtuberiza-5.13
4.79
2.67
1.27
1.73
0.68
0.90
0.65
0.61
0.56
0.00
0.10
0.20
0.30
0.40
0.50
0.60
0.70
0.80
0.90
1.00
0.00
1.00
2.00
3.00
4.00
5.00
6.00
1/2 hour 1 hour 2 hours 3 hours 4 hours
No. of microtubers Fresh weight (g)
Number of microtubers
Fresh weight of microtubers
Nutrient spray interval
Fig. 3.Effect of nutrient spray interval on number and fresh weight of microtubers
of potato cultured in nutrient spray bioreactor system. Each point is the mean value
with three replicates.
tion also varied significantly across the three types of cultures with
higher numbers as well as fresh weights and diameters of microtubers (4.67, 0.86 g and 0.78 cm, respectively) obtained from the NSB
system compared to those obtained from liquid and conventional
semi-solid cultures (Fig. 4a).