A Preliminary Study on Indigenous Bacillus spp. Isolated from Acidic Soil as Agent of Bioinsecticide
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Date
2022-10-11Author
Dharma, Bodhi
Yuliatin, Ervinda
Hariani, Nova
Patang, Fatmawati
Mukhlis, Mukhlis
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Bacillus spp. are the most abundant bacteria in the soil and release a wide range of benefits.
Especially to produce the specific toxin for inhibiting mosquito life cycle. This study aimed to
isolate Bacillus spp. from acidic soil and investigate its potential as a natural mosquito
insecticide. The soil was collected from the oil palm plantation (KS) and secondary forest
(HS) in Berambai, Samarinda, East Kalimantan. All samples were shaken and followed by a
heat treatment technique. Furthermore, the dilution was spread onto Luria Bertani agar to
obtain Bacillus spp. As a result, the soil physicochemical analysis showed the pH of HS was
5,38 ± 0,81 (acid), and KS was 4,41 ± 0,55 (very acid). The density of Bacillus spp. from HS and
KS were 10.1×104 CFU/g and 1.1×104 CFU/g, respectively. Five selected isolates (T1HS4.1,
T1KS4.2, T2HS6.1, T3KS4.1, and T3KS4.2) were grown on LB broth for culture starters (6%).
Each culture starter was diluted into mosquito larvae water habitats to determine the
mortality rate. The result showed that the highest mortality of mosquito larvae using A and
B methods were 70% and 80% in isolate T3KS4.2, while another isolate T1HS4.1 showed zero
mortality at 24 hours. Therefore, isolate T3KS4.2 produced the specific toxin that killed the
larvae within 24 hours and presented the potential of indigenous Bacillus spp. as a
bioinsecticide for mosquito larvae. Further, the molecular method is necessary to identify
the species of Bacillus spp. potential like Bacillus thuringiensis as a natural mosquito
insecticide.