Abstract:
The study aimed to expedite plant breeding programs in Solanaceae
through double haploid plant production using anther culture in selected tomato vari-
eties. The experiment involved callus induction in culture bottles using a Complete
Randomized Design with three treatments and three replicates. Unopened flower buds
were harvested five days after emergence, sterilized with alcohol and Clorox, and
incubated in darkness for 14 days at 25°C to induce callus. Three Kinetin concentra-
tions (1 mg L -1 , 2 mgL-1 and 3 mgL -1 ) were tested on different tomato varieties, and
data was collected on the number of anthers planted and the number of calli produced.
The results showed no significant difference between 1 mg L -1 and 2 mg L -1 Kinetin
for callus induction. The highest callus induction (26.66%) was observed with 2 mgL-
1 Kinetin in the HT-5 variety. Callus induction efficiency varied among tomato vari-
eties, with significant differences in Lanka Sour and Bhathiya for Kinetin concentra-
tions 1 mg L -1 and 2 mgL -1 . Treatment three exhibited high callus contamination
(30%), while Lanka Sour variety displayed the highest callus greening (24.44%) with
2 mgL-1 Kinetin. Varietal differences were significant for Kinetin concentrations 1
mgL -1 and 2 mgL -1 in Lanka Sour and Bhathiya, but not in other varieties. Regarding
the number of days for callus induction, 2.0 mgL-1 Kinetin required a shorter period
compared to other concentrations. In conclusion, the experiment's findings on callus
initiation using MS medium supplemented with 2 mgL -1 Kinetin, particularly with the
distinct responses with displaying the highest callus greening observed in HT-5 and
Lanka Sour varieties. This microcosmic study in plant biology aligns with the prac-
tices promoting plant health and biodiversity not only benefit agricultural productivity
but also play a crucial role in maintaining the delicate balance of Cascade Ecology,
ultimately influencing the well-being of human societies.