Abstract:
Chemical pesticides are still used to control Moler disease on shallots. The impact has the potential to kill macro species
as well as non-target bacteria. Several prior researches have shown that botanical pesticides can suppress plantdisturbing organisms, but data on their impact on beneficial microbes is still limited. Hence, the impact of applying
jengkol peel to control the primary disease of shallots and its impact on non-target organisms in peatlands was
investigated in this study. The study was carried out in Landasan Ulin, South Kalimantan, from April to November 2021.
Treatments were t0 (negative control), t1 (positive control, fungicide), t2 (0.125 kg/ha jengkol peelpowder), t3 (0.25
kg/ha jengkol peelpowder), and t4 (0.375 kg/ha jengkol peeljengkol peel powder). The parameters observed were the
intensity of moler disease, the components of shallot production, species diversity, species richness, the evenness of
microbial species, and the dominance index. The results showed that the application of jengko lpeel powder could
suppress the attack of moler disease on shallots. Microbial diversity in shallot plantations treated with botanical
pesticides and those not treated with botanical pesticidespesticides was similar, in the moderate range, as in shallot
plantations treated with chemical pesticides. The species richness index, dominance index, and balance index had lowstatus values. The types of microbes found were Trichoderma sp., Aspergillus sp., Fusarium sp., Mucor sp., Aeromonas
sp., Corynebacterium sp., Enterobacter sp. Sphingomonas sp., and Penicillium sp. The microbial population was affected
by pesticide application. Plants that were not applied with botanical pesticidesbotanica lpesticides or chemical
pesticides had fewer microbes. The application of botanical pesticidespesticides produced various impacts, the higher
the dose, the lower the microbes in the onion rhizosphere.
Keywords: evenness of species, jengkol peel, microbes, species diversity, species richness.
