Rahman Mahfuzur, Islam M A, Das Keshob C, Salimullah Md, Mollah M Z I, Khan Ruhul A
Department of Nuclear Science & Engineering, Military Institute of Science and Technology, Dhaka, 1216 Bangladesh.
Institute of Nuclear Science & Technology, Atomic Energy Research Establishment, Savar, Dhaka, 1349 Bangladesh.
J Food Sci Technol. 2021 Sep;58(9):3579-3588. doi: 10.1007/s13197-021-05087-4. Epub 2021 Apr 7.
The effect of gamma radiation on the decontamination of microbial population, physico-chemical, radiation sensitivity and sensory characteristics of common spices for storage were evaluated. Spices were irradiated with gamma doses of 0 (as control), 2, 4, 6, 8 and 10 kGy, packed in the glass vials and stored at room temperature (22 ± 2°C) in the laboratory. In this research, , and species were identified in un-irradiated spice samples. Results also indicated that gamma radiation reduced the total microbial population compared to control and optimum gamma radiation doses (6 kGy for red chili and turmeric; 4 kGy for cumin, coriander, garlic and black pepper; 2 kGy for ginger powder samples) were identified for decontamination of the organisms in the studied spices. It was concluded that no significant differences before and after gamma radiation were observed in physico-chemical, nutritional and sensory properties but significantly changed in microbial load in spices samples.
评估了γ辐射对常见香料储存过程中微生物种群去污、理化性质、辐射敏感性和感官特性的影响。将香料用0(作为对照)、2、4、6、8和10千戈瑞的γ剂量进行辐照,包装在玻璃瓶中,并在实验室室温(22±2°C)下储存。在本研究中,在未辐照的香料样品中鉴定出了、和物种。结果还表明,与对照相比,γ辐射降低了总微生物种群,并且确定了最佳γ辐射剂量(红辣椒和姜黄为6千戈瑞;孜然、芫荽、大蒜和黑胡椒为4千戈瑞;姜粉样品为2千戈瑞)用于所研究香料中生物体的去污。得出的结论是,γ辐射前后在理化性质、营养和感官特性方面未观察到显著差异,但香料样品中的微生物负荷发生了显著变化。