Effect of incubation in natural and autoclaved soil upon potency and viability of Bacillus thuringiensis

Abstract

Spores and parasporal crystals of a Bacillus thuringiensis var. aizawai H-serotype 7, strain HD137, streptomycin-resistant mutant, were added to normal and autoclaved aliquots of pH 5 soil incubated at 25°C and −0.10 MPa water availability. Viable B. thuringiensis in soil samples were estimated by dilution-plating on a streptomycin-based medium, and combined spore and crystal insecticidal activity was bioassayed with larvae of Galleria mellonella. Populations of B. thuringiensis in both soil treatments suffered exponential rates of mortality, which were represented by segmented linear regression. Mortality was far greater in natural than autoclaved soil. Potency also fell in both soil treatments. This loss of potency was greater in natural soil, although the rates of potency loss in either soil treatment correlated poorly with the respective mortality rates of the B. thuringiensis populations, as potency losses were not exponential functions. The results suggest that the presence of indigenous microorganisms in natural soil accelerated the rate of mortality and loss of potency of B. thuringiensis.