Feasibility study for direct planting of in vitro potato (Solanum tuberosum L.) varieties Granola and Golden Star in aeroponic system
No Thumbnail Available
Date
2015
Journal Title
Journal ISSN
Volume Title
Publisher
Uva Wellassa University of Sri Lanka
Abstract
The major constraints in potato cultivation are high seed cost, poor seed quality, unavailability
of quality seeds at correct time for planting, frequent application of fungicides to control late
blight disease, misappropriation of agrochemicals and limitation of suitable land. The total seed
potato requirement in Sri Lanka is about 22,500mt per annum. Total annual importation of seed
potato is about 7000mt and the Department of Agriculture produces about 400mt of high
generation seed potato per annum. The rest of the seed potato requirement of about 60% is
fulfilled by farmers own seed production. Seed potatoes are the most costly input having 53% of
the total cost of production.Main objective is to study the feasibility of direct planting of Granola
and Golden star in vitro plants in aeroponic system. Other objective is to identify the suitable
liquid media for hardening of in vitro potato plants.
Materials and method
The planting materials which were used in research are In vitro potato plants, MS media, Albert
solution and aeroponic system. First culture media was prepared for in vitro potato plants. Stock
solution was measured to prepare MS medium. Then 0.1g of myo-inositol, 30g of sugar, 1g of
charcoal and 9g of agar were measured and mixed well. Solution was diluted up to the 1l. pH
was measured and adjusted up to 5.75. Culture bottles were filled by solution up to 30ml. Bottles
were allowed for settle.In vitro plants were cut with node and cuttings were placed in culture
bottles. Then bottles were labeled and placed in the culture room. Cultured bottles were kept for
one month period.
Half MS, full MS and Albert solution were prepared. pH was measured in MS solutions and
adjusted to 5.75. Electrical conductivity was adjusted up to 1.7 in Albert solution. Six treatments
were taken. (Golden star in 1/2 MS medium as treatment 1, golden star in MS medium as
treatment 2, golden star in Albert solution as treatment 3, granola in 1/2 MS medium as
treatment 4, granola in MS medium as treatment 5, granola in Albert solution as treatment 6)
Data were collected at one week intervals. Mean shoot length, mean root length and mean
number of roots were taken as the parameters. (In this research increment of growth was
measured for each parameters)
Albert solution was prepared for 250l of tank (EC-1.643 ms/cm). Electrical conductivity was
adjusted up to the range of 1.5 to 2.0 ms/cm. Acclimatized plants were dipped in Thiram (2g/l).
Then plants were placed in aeroponic system. Aeroponic system was adjusted to spray five
second with once in five minutes at day time and once in fifteen minutes at night in first three
days. Next four days system was adjusted once in ten minutes at day time and once in twenty
minutes at night. After that system was adjusted once in twenty minute at day time and once in
thirty minutes at night. EC was checked every day. Data were collected at weekly for seven
weeks. Mean shoot length, mean root length, mean stolen length, mean number of stolen and
mean number of tubers were taken as the parameters. (In this research increment of growth was
measured for each parameters)
Results and Discussion
In both experiments collected data were analyzed by using minitab 16 under general linear
model. According to the Table 1, the highest shoot length growth (3.13cm) was observed in
variety Golden star with Albert solution (T3). Others are statistically different, but T6, T1 and
T3 are comparable. Though T2, T4 and T5 are comparable but significantly lower than T3.
When comparing mean length of root growth, there is no significant different in each treatment.
Number of root increment are statistically significant each other. Therefore using of any
treatment is not largely effect on root number or root length.
Description
Keywords
Agriculture, Export Agriculture, Crop Production, Crop Production Technology, Vegetable Cultivation