School of Biological Engineering, Henan University of Technology, Zhengzhou, China.
Key Laboratory of Functional Molecules for Biomedical Research, Zhengzhou, China.
J Sci Food Agric. 2022 Aug 30;102(11):4752-4758. doi: 10.1002/jsfa.11840. Epub 2022 Mar 18.
Mycotoxin produced by mould is one of the most serious contamination sources in food security. Safe storage of grain has become more important to control food security. Currently, there is no officially approved or standardized sampling scheme for detecting mycotoxin in grain storage worldwide.
In this study, deoxynivalenol (DON) was taken as a typical mycotoxin in stored wheat to be detected. Population density of corn weevil could not significantly increase wheat moisture, but wheat moisture was highly significantly and positively correlated with DON content (P < 0.01). Corn weevil density significantly increased the DON content in wheat. DON contamination degree was mainly distributed in the region of 14-20 cm below the surface layer of wheat. In the process of ventilation and dehumidification during the storage period, moisture of wheat decreased slightly with the extension of ventilation, but the DON content in wheat increased significantly. Combined with the analysis of ventilation, DON content in the upper layer and H1 position, where the wind direction is not easy to reach, increased significantly.
Areas with high insect population density (14-20 cm below the surface layer of stored wheat) and low ventilation and high humidification (H1 position in the upper layer) should be taken as the key cutting sample areas for detecting mycotoxin during the period of grain storage. This study provides for the first time a scientific basis for the standardization of the wheat sampling scheme to monitor mycotoxin contamination during wheat storage. © 2022 Society of Chemical Industry.
霉菌产生的真菌毒素是食品安全中最严重的污染来源之一。安全储存粮食对于控制食品安全变得更为重要。目前,全球范围内还没有针对粮食储存中真菌毒素检测的官方批准或标准化采样方案。
在这项研究中,脱氧雪腐镰刀菌烯醇(DON)被用作储存小麦中典型真菌毒素的检测指标。玉米象种群密度不能显著增加小麦水分,但小麦水分与 DON 含量呈高度显著正相关(P<0.01)。玉米象密度显著增加了小麦中的 DON 含量。DON 污染程度主要分布在小麦表层以下 14-20cm 的区域。在储存期间通风和除湿过程中,随着通风时间的延长,小麦水分略有下降,但小麦中的 DON 含量显著增加。结合通风分析,上层和风向不易到达的 H1 位置的 DON 含量显著增加。
高昆虫种群密度(储存小麦表层以下 14-20cm 处)和低通风、高加湿(上层的 H1 位置)地区应作为粮堆期间检测真菌毒素的关键取样区域。本研究首次为小麦采样方案的标准化提供了科学依据,以监测小麦储存过程中的真菌毒素污染。© 2022 英国化学学会。
