食品科学 ›› 2026, Vol. 47 ›› Issue (12): 153-164.doi: 10.7506/spkx1002-6630-20260104-007

• 生物工程 • 上一篇    

山楂真菌多样性及其与多种真菌毒素的关联分析

刘文魁,石文鑫,潘烨灿,杨艳梅,杨辰,王炎杰,丁超,郝变青   

  1. (1.山西农业大学 山西功能农产品检验检测中心,山西 太原 030031;2.农产品质量安全评价山西省重点实验室,山西 太原 030031)
  • 发布日期:2026-07-08
  • 基金资助:
    山西省高等学校科技创新项目(2023L053);山西省基础研究计划项目(202303021222056); 山西农业大学“引进人才科研启动工程”项目(2023BQ77); 山西省博士毕业生来晋工作奖励经费科研项目(SXBYKY2023040);山西重点研发计划课题(2022ZDYF122); 山西省基础研究计划项目(202403021222113)

Fungal Diversity and Its Association with Multi-mycotoxin Contamination in Hawthorn Fruit

LIU Wenkui, SHI Wenxin, PAN Yecan, YANG Yanmei, YANG Chen, WANG Yanjie, DING Chao, HAO Bianqing   

  1. (1. Shanxi Center for Testing of Functional Agro-Products, Shanxi Agricultural University, Taiyuan 030031, China; 2. Shanxi Key Laboratory of Evaluation of Agro-product Quality and Safety, Taiyuan 030031, China)
  • Published:2026-07-08

摘要: 本研究以采自山西绛县、太谷和闻喜3 个地区的56 份山楂样本为对象,结合Illumina高通量测序与超高效液相色谱-串联质谱技术,系统分析山楂真菌群落组成及其与多种真菌毒素积累的相关性。结果表明,不同地区山楂真菌群落结构组成相似,但相对丰度存在差异。门水平上,以子囊菌门(Ascomycota)和担子菌门(Basidiomycota)为优势菌门;属水平上,以链格孢属(Alternaria)与镰刀菌属(Fusarium)为核心产毒优势菌属。毒素检测共检出腾毒素,恩镰孢菌素A、A1、B、B1及链格孢霉酚6 种真菌毒素。其中,腾毒素检出率最高(12.5%);恩镰孢菌素B的检出含量最高(67.3 μg/kg),且50%的污染样品存在多种毒素共存现象。相关性分析表明,Fusarium相对丰度与4 种恩镰孢菌素含量呈高度显著正相关(P<0.001),Alternaria相对丰度与腾毒素含量呈高度显著正相关(P<0.001)。综上,Fusarium与Alternaria是引发山楂真菌毒素污染的关键生物源头,监测并控制其在果实上的定植与丰度,是从源头降低毒素风险的核心策略。本研究可为山楂真菌毒素的风险评估及基于真菌群落调控的绿色防控技术研发提供理论依据。

关键词: 山楂;真菌群落;真菌毒素;相关性分析?

Abstract: In this study, 56 hawthorn samples collected from three regions in Shanxi Province (Jiangxian, Taigu, and Wenxi) were analyzed for the composition of fungal community and its association with the accumulation of various mycotoxins using Illumina high-throughput sequencing and ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS). The results showed that the structure of the fungal community on hawthorn fruit was similar across different production regions, although differences in the relative abundance of fungi were observed. The fungal community was predominantly composed of Ascomycota and Basidiomycota at the phylum level, with Alternaria and Fusarium being the core toxigenic genera. A total of six mycotoxins were detected: tentoxin, enniatins A, A1, B, B1, and alternariol. Among these, tentoxin showed the highest detection rate (12.5%), while enniatin B was detected at the highest level of 67.3 μg/kg. Notably, 50% of the contaminated samples showed co-occurrence of multiple mycotoxins. Correlation analysis indicated that the relative abundance of Fusarium was highly significantly positively correlated with the concentrations of the four enniatins, and the relative abundance of Alternaria was highly significantly positively correlated with tentoxin concentration (P < 0.001). In conclusion, Alternaria and Fusarium are the key biological sources responsible for mycotoxin contamination in hawthorn fruit from Shanxi Province. Monitoring and controlling their colonization and abundance on the fruit is a core strategy for mitigating toxin risks at the source. This study provides a theoretical basis for the risk assessment of mycotoxins in hawthorn fruit and the development of green control technologies based on the regulation of the fungal community.

Key words: hawthorn; fungal community; mycotoxin; correlation analysis

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