Evaluation of Aflatoxin-Producing Fungi in Indoor Air of Warehouses and Houses of Farmers in Giwa, Kaduna State Nigeria

Abdurrazaq, M., Tijjani, M.B., Atta, H.I.
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Abstract

The health risks associated with ingesting food contaminated with mycotoxins, particularly aflatoxin-contaminated staple foods like maize and other cereals, have been widely studied. However, there is little knowledge about the role of inhalation of pathogenic fungi as bioaerosols in contaminated air from handling crops as an occupational health risk. This paper presents a study aimed at determining the level of airborne aflatoxin-producing fungi in the indoor air of grain stores in the Giwa community of Kaduna State. Indoor air was sampled using the settling plate technique from grain stores, warehouses and living rooms. Metrological data of the studied area were collected from the Institute of Agricultural Research, ABU, Zaria. Airborne mycofloral concentrations were determined, and colonies of Aspergillus flavus were identified. The isolates were screened for aflatoxin production on Neutral Red Desiccated Coconut Agar (NRDCA). Selected aflatoxin-producing fungal isolates were screened for the presence of aflD (nor-1), aflM (ver-1) and AflR genes by PCR. Sampling was done once every month from October to December 2020. Mycofloral concentrations were in the range of 2.77x103−4.05x103 and 1.55x103−2.17x103CFUm-3for grain stores and living rooms respectively. A total of twelve (12) strains of A. flavus were isolated from the indoor air of the grain stores and warehouses while none was obtained from the living room. Eleven (11) isolates were confirmed to be aflatoxigenic on NRDCA, presenting 30 CFUm-3 of the indoor air mycofloral composition. The aflD, aflM and aflR were amplified with aflD being the most detected gene from all the aflatoxin-producing mould isolates of Aspergillus species. The mycofloral concentrations in the grain stores were higher than those in the living room and, in all the sampling sites, exceeded the limit of the total mycofloral concentration of 500 CFUm-3 for agricultural and industrial environments. There were significant differences (p<0.05) in the indoor mycofloral concentrations between the grain stores/warehouses and the living room. The presence of aflatoxigenic strains of A. flavus in the stores indicates that grain handlers and traders are at risk of occupational exposure to aflatoxigenic fungi and aflatoxins. Hence, they should wear protective materials for their safety while working in such stores.
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尼日利亚卡杜纳州吉瓦市农民仓库和房屋室内空气中产黄曲霉毒素真菌的评价
与摄入被霉菌毒素污染的食物有关的健康风险,特别是被黄曲霉毒素污染的主食,如玉米和其他谷物,已得到广泛研究。然而,人们对因处理农作物而被污染的空气中吸入病原真菌作为生物气溶胶所起的职业健康风险作用知之甚少。本文介绍了一项旨在确定卡杜纳州吉瓦社区谷物商店室内空气中产生黄曲霉毒素的真菌水平的研究。采用沉降板技术从粮仓、仓库和客厅取样室内空气。研究区计量资料来自扎里亚阿布农业研究所。测定了空气中真菌的浓度,鉴定了黄曲霉菌落。筛选分离菌株在中性红椰子琼脂(NRDCA)上产生黄曲霉毒素的能力。筛选产黄曲霉毒素真菌分离株,采用PCR方法检测aflD (nor-1)、aflM (ver-1)和AflR基因的存在。从2020年10月至12月每月抽样一次。粮仓和客厅真菌浓度分别为2.77 × 103 ~ 4.05 × 103和1.55 × 103 ~ 2.17 × 103cfum -3。从粮仓室内空气中分离到12株黄曲霉,而从客厅空气中未分离到黄曲霉。11株菌株在NRDCA上被证实为黄曲霉毒素,室内空气分枝杆菌组成为30 CFUm-3。扩增出aflD、aflM和aflR基因,其中aflD是所有曲霉产黄曲霉毒素霉菌分离株中检出最多的基因。粮库真菌浓度高于客厅,所有采样点真菌浓度均超过农业和工业环境总浓度500 CFUm-3限值。粮库与客厅室内真菌浓度差异有统计学意义(p<0.05)。仓库中黄曲霉毒素菌株的存在表明,粮食加工人员和贸易商有职业暴露于黄曲霉毒素和黄曲霉毒素的风险。因此,他们在这些商店工作时应穿戴防护材料,以确保安全。
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