Abstract

Bacillus cereus is a pathogenic spore-forming bacterium implicated in cases of diarrheal and emetic type of foodborne illness. We previously found that enterotoxigenic B. cereus is widely present in retail spices. Here we analyzed the spore heat resistance of nine diarrheal strains isolated from spices. Seven had D95°C values ranging from 0.64 to 3.53 min while two emetic strains had D95°C values of 7.04 min and 6.64 min. The ability of selected strains to grow in cooked rice at temperatures 20 °C, 17 °C and 12 °C was determined as well as their toxin expression capability. After 48 h, B. cereus levels of 1.26 × 107 and 3.8 × 107 CFU/g were obtained in cooked rice maintained at 17 °C and 20 °C respectively. At 12 °C, counts did not reach 104 CFU/g even after 48 h of incubation. The increase in the aerobic, mesophilic bacterial population (APC) and B. cereus population naturally present in 0.1% crushed pepper added to cooked rice was determined over a period of 48 h at 20 °C and 17 °C. Levels of B. cereus in pepper/rice samples reached a maximum of 1600 MPN/g at 20 °C while the APC was 2.4 × 108/g at this temperature. When thyme, containing the same initial natural level of B. cereus, was added to rice in place of pepper, more than a five-fold greater level of B. cereus was detected at 20 °C. Since thyme contained initial APC of 2.5 log10 less than pepper we conclude that the high APC functions in a competitive-exclusion manner, minimizing the growth of B. cereus and potentially other agents of foodborne illness. This is particularly relevant in instances of temperature abuse of foods and may explain the low incidence of foodborne illness due to B. cereus despite its widespread presence shown in previous surveys of market spices.

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