坦桑尼亚维多利亚湖晒干尼罗河鲈鱼的处理方法和微生物质量

Nuru E. Mwasulama, J. Kussaga, B. Tiisekwa
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引用次数: 0

摘要

本研究评估了晒干的尼罗河鲈鱼(Lates niloticus,坦桑尼亚俗称Kayabo)的处理方法和微生物污染。Kayabo的加工厂是位于姆万扎的Kanyama和Mwaloni的小型加工厂。采用混合方法(观察、面对面访谈和微生物取样)评估加工商的处理方法和Kayabo的微生物质量。对Kayabo处理器处理实践的分层聚类分析产生了15个(集群I)、10个(集群II)和5个(集群III)处理器的三个不同集群。一般来说,大多数加工商在适当的食品处理方面培训不足,缺乏卫生设计的设施(建筑和冷却),卫生条件差,以及使用低质量的原材料(工业加工单位的废料)。微生物质量评价显示,菌群间总活菌数、TVC (2.08 ~ 8.68 Log CFU/25 g)和金黄色葡萄球菌(<1 ~ 5.49 Log CFU/25 g)差异显著(P<0.05)。“集群I”中约80%(12/15)和42%(5/12)的处理器分别超过TVC (5 Log CFU/25 g)和金黄色葡萄球菌(3 Log CFU/25 g)的法定限值。值得注意的是,大肠杆菌和单核增生李斯特菌均低于定量限。为了确保Kayabo的质量和安全,迫切需要采取干预措施,改善原材料、结构和基础设施、培训以及在整个价值链中采用良好做法。关键词:鱼,盐干尼罗鲈鱼,处理方法,微生物质量,Kayabo,维多利亚湖
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Handling practices and microbiological quality of kayabo - salted sun-dried nileperch Lates niloticus from Lake Victoria, Tanzania
This study assessed handling practices and microbiological contamination of salted sun-dried Nile Perch, Lates niloticus, commonly known as Kayabo in Tanzania. The processors of Kayabo were small-scale processors located at Kanyama and Mwaloni, Mwanza. Mixed methods (observations, face-to-face interviews, and microbiological sampling) were used to assess handling practices of processors and microbiological quality of Kayabo. Hierarchical cluster analysis on handling practices of Kayabo processors produced three distinct clusters of 15 (Cluster I), 10 (Cluster II), and 5 (Cluster III) processors. In general, the majority of processors had inadequate training on appropriate food handling, lack of hygienically designed facilities (building and cooling), poor sanitation, and the use of low-quality raw materials (rejects from industrial processing units). Assessment of microbiological quality of Kayabo indicated a significant (P<0.05) variation in Total Viable Counts, TVC (2.08 - 8.68 Log CFU/25 g), and Staphylococcus aureus (<1-5.49 log CFU/25 g) among the clusters. About 80% (12/15) and 42% (5/12) of the processors in 'Cluster I' exceeded the legal limits for TVC (5 Log CFU/25 g) and S. aureus (3 Log CFU/25 g), respectively. Strikingly, Escherichia coli and Listeria monocytogenes were below the quantification limits. Intervention measures for improvement on the raw materials, structure, and infrastructure, training, and adoption of good practices across the value chain are urgently needed to ensure the quality and safety of Kayabo.    Key words: Fish, salted sundried nile perch, handling practices, microbiological quality, Kayabo, Lake Victoria.
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