Microbial ecology of Australian commercial rice koji and soybean miso

JSFA reports Pub Date : 2023-04-10 DOI:10.1002/jsf2.112
Joanne G. Allwood, Lara T. Wakeling, David C. Bean
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引用次数: 1

Abstract

Background

Rice koji and miso are growing in popularity globally. This is because of both the unique sensory properties of the foods, and the belief that fermented foods may be beneficial for our health. This study aimed to increase the collective understanding of the physiochemical properties and microorganisms found in rice koji and miso.

Results

The microbial communities within rice koji and soybean miso were analyzed using physiochemical, microbiological and metagenomic methods. Metagenomic analysis found Bacillus and Weizmannia were the dominant bacterial genera in rice koji samples, and Tetragenococcus, Staphylococcus and Bacillus predominant in the miso samples. Aspergillus was the predominant fungal genera in all three rice koji samples, and in five of the seven miso samples. Debaryomyces was the dominant genera in one miso sample, while no fungal microorganisms were identified in the other miso sample. The physiochemical analysis found rice koji water activity (Aw) between 0.90 and 0.91 and pH from 5.3 to 5.6. The miso samples showed Aw ranging from 0.73 to 0.88, pH between 4.2 and 5.3, and salt concentration from 6.4% to 15.5%.

Conclusion

The predominant genera detected and physiochemical properties in each sample varied according to supplier, length of fermentation and ratio of ingredients used. Details of the microorganisms identified in varieties of unpasteurised rice koji and miso can be used to assist producers with food safety processes, manipulate the flavor of the product and enable accurate labeling of the foods.

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澳大利亚商品米曲和大豆味噌的微生物生态学
米曲和味噌在全球越来越受欢迎。这是因为发酵食品具有独特的感官特性,而且人们相信发酵食品可能对我们的健康有益。本研究旨在增加对米曲和味噌理化性质和微生物的集体认识。结果采用理化、微生物学和宏基因组学方法对稻曲和大豆味噌的微生物群落进行了分析。宏基因组分析发现,米曲样品的优势菌属为芽孢杆菌属和魏兹曼菌属,味噌样品的优势菌属为四小球菌属、葡萄球菌属和芽孢杆菌属。曲霉属是3种米曲样品和5种味噌样品的优势真菌属。在一份味噌样品中,苦酵母属是优势属,而在另一份味噌样品中未发现真菌微生物。理化分析发现稻曲水活度(Aw)在0.90 ~ 0.91之间,pH值在5.3 ~ 5.6之间。味噌样品的Aw值在0.73 ~ 0.88之间,pH值在4.2 ~ 5.3之间,盐浓度在6.4% ~ 15.5%之间。结论各样品中检出的优势菌属及理化性质因供货方、发酵时间和原料配比的不同而不同。在各种未经巴氏消毒的米曲和味噌中发现的微生物的详细信息可用于协助生产者进行食品安全处理,操纵产品的风味,并使食品能够准确地贴上标签。
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