Abstract
Mycotoxins are secondary metabolites produced by fungi during their growth. Widely observed in grains and feeds, these toxins pose a significant threat to both human and animal health, resulting in substantial economic losses. Therefore, this paper systematically reviews the principles, application effects, advantages, and disadvantages of mainstream detoxification and degradation technologies, including physical detoxification methods (heat treatment, radiation, adsorption, low-temperature plasma, and photocatalysis), chemical detoxification methods (ammonia treatment, fumigation, and ozonation), as well as biodegradation methods (microbial adsorption, microbial degradation, and enzymatic degradation). It specifically introduces the breakthroughs of new technologies such as low-temperature plasma, novel nano-adsorbent materials, and high-temperature resistant detoxifying enzymes. Additionally, it elaborates on the innovative applications and existing challenges of artificial intelligence technology in the field of mycotoxin detoxification. Future research should focus on multi-technology integration and intelligent upgrading, while developing efficient, safe, and economical comprehensive detoxification and degradation strategies to provide scientific support for grain and food safety.
Publication Date
5-13-2026
First Page
197
Last Page
204
DOI
10.13652/j.spjx.1003.5788.2025.80167
Recommended Citation
Xuexue, LIANG; Yani, ZHANG; Shan, LUO; Yongjun, LI; and Jianyun, SUN
(2026)
"Research progress on detoxification and degradation technologies for mycotoxins in grains,"
Food and Machinery: Vol. 42:
Iss.
3, Article 25.
DOI: 10.13652/j.spjx.1003.5788.2025.80167
Available at:
https://www.ifoodmm.cn/journal/vol42/iss3/25
References
[1] WANG L,HUA X,SHI J,et al.Ochratoxin a:occurrence and recent advances in detoxification [J].Toxicon,2022,210:11-18.
[2] 李文廷,叶沛,刘玲,等.粮食作物中真菌毒素脱毒技术及其防控措施研究进展 [J].粮食与油脂,2024,37(9):1-7.LI W T,YE P,LIU L,et al.Research progress on detoxification technology of mycotoxins in grain crops and its prevention and control measures [J].Cereals & Oils,2024,37(9):1-7.
[3] 纪剑,于坚,王良哲,等.真菌毒素的降解技术研究进展 [J].食品与生物技术学报,2022,41(5):1-10.JI J,YU J,WANG L Z,et al.Research progress in mycotoxin degradation technology [J].Journal of Food Science and Biotechnology,2022,41(5):1-10.
[4] 马帅,李安,潘立刚.真菌毒素脱毒技术研究进展 [J].食品工业科技,2024,45(5):377-383.MA S,LI A,PAN L G.Research progress in the detoxification technology of mycotoxins [J].Science and Technology of Food Industry,2024,45(5):377-383.
[5] 闫兆凤,黄常刚,杨欣.中国主粮中真菌毒素污染现状 [J].卫生研究,2022,51(4):685-691.YAN Z F,HUANG C G,YANG X.Current status of mycotoxin contamination in China's staple grains [J].Journal of Hygiene Research,2022,51(4):685-691.
[6] KUMAR P,GUPTA A,MAHATO D K,et al.Aflatoxins in cereals and cereal-based products:occurrence,toxicity,impact on human health,and their detoxification and management strategies [J].Toxins (Basel),2022,14(10):687.
[7] 曹慧英,伍松陵,沈晗,等.粮食中真菌毒素的控制策略 [J].粮油食品科技,2012,20(6):45-48.CAO H Y,WU S L,SHEN H,et al.Control strategy against mycotoxins in grain [J].Science and Technology of Cereals,Oils and Foods,2012,20(6):45-48.
[8] 胡海生,高洁,杨厚兵,等.粮食中真菌毒素及其代谢物的产生和影响 [J].食品安全导刊,2024 (8):167-169.HU H S,GAO J,YANG H B,et al.Production and influence of mycotoxins and their metabolites in grain [J].China Food Safety Magazine,2024 (8):167-169.
[9] GUO Y P,ZHAO L H,MA Q G,et al.Novel strategies for degradation of aflatoxins in food and feed:a review [J].Food Research International,2021,140:109878.
[10] 邢福国,刘一冰,王刚.食品中赭曲霉毒素 A的产生机制及污染防控策略 [J].食品科学技术学报,2023,41(4):26-37.XING F G,LIU Y B,WANG G.Production mechanisms and control strategies of ochratoxin A in food [J].Journal of Food Science and Technology,2023,41(4):26-37.
[11] ZOU D,JI J,YE Y L,et al.Degradation of ochratoxin a by a uv-mutated Aspergillus niger strain [J].Toxins (Basel),2022,14(5):343.
[12] 李 杰 峰.缺 氧 微 环 境 下 DON 诱 发 RAW 264.7细 胞 衰 老 的 分子机制 [D].荆州:长江大学,2023:1-9.LI J F.Molecular mechanism of don-induced raw 264.7 cell senescence under hypoxic microenvironment [D].Jingzhou:Yangtze University,2023:1-9.
[13] 邓子锋,王利娟,吴希强,等.玉米赤霉烯酮在动物体内的代谢 与 分 子 毒 性 研 究 进 展 [J].中 国 畜 牧 兽 医,2023,50(12):5 194-5 203.DENG Z F,WANG L J,WU X Q,et al.Research progress on metabolism and toxicity of zearalenone in animals [J].China Animal Husbandry & Veterinary Medicine,2023,50(12):5 194-5 203.
[14] 杨建英,李元晓.T-2毒素对机体的毒性作用研究进展 [J].环境与健康杂志,2012,29(10):957-959.YANG J Y,LI Y X.Toxic effects of T- 2 toxin on organism:a review of recent studies [J].Journal of Environment and Health,2012,29(10):957-959.
[15] 高 玲 玲.伏 马 菌 素 的 毒 性 及 去 除 方 法 分 析 [J].化 工 管 理,2019 (29):175-176.GAO L L.Analysis of the toxicity and removal methods of fumonisins [J].Chemical Enterprise Management,2019 (29):175-176.
[16] 汤小朋,陈磊.棉籽粕脱毒技术及其在家禽生产中的应用研究 进 展 [J].云 南 农 业 大 学 学 报 (自 然 科 学),2020,35(1):180-186.TANG X P,CHEN L.Advance in detoxication technology of cottonseed meal and its application in poultry production [J].Journal of Yunnan Agricultural University (Natural Science),2020,35(1):180-186.
[17] 金瑞,李萌萌,万小乐,等.谷物中脱氧雪腐镰刀菌烯醇物理降解研究进展 [J].食品与发酵工业,2024,50(13):331-339.JIN R,LI M M,WAN X L,et al.Advances in physical degradation of deoxynivalenol in cereals [J].Food and Fermentation Industries,2024,50(13):331-339.
[18] BRETZ M,BEYER M,CRAMER B,et al.Thermal degradation of the Fusarium mycotoxin deoxynivalenol [J].J Agric Food Chem,2006,54(17):6 445-6 451.
[19] ALVITO P,BARCELO J,MEESTER J D,等.消 减 食 品 加 工过程中的真菌毒素:来自欧洲和东南亚的经验分享 [J].粮油食品科技,2021,29(6):46-58,23-24.ALVITO P,BARCELO J,MEESTER J D,et al.Mitigation of mMycotoxins during food processing:sharing experience among europe and south east asia [J].Science and Technology of Cereals,Oils and Foods,2021,29(6):46-58,23-24.
[20] LIU Y X,LI M M,BIAN K,et al.Reduction of |deoxynivalenol in wheat with superheated steam and its effects on wheat quality [J].Toxins,2019,11(7):414.
[21] 李颖,张锐利.真菌毒素物理降解的研究进展 [J].现代食品,2022,28(17):27-31.LI Y,ZHANG R L.Research progress in physical degradation of mycotoxins [J].Modern Food,2022,28(17):27-31.
[22] 杨静.农产品中真菌毒素污染辐射降解效应研究 [D].北京:中国农业科学院,2009:19-20.YANG J.Research on irradiation-induced degradation of mycotoxins in agricultural products [D].Beijing:Chinese Academy of Agricultural Sciences,2009:19-20.
[23] BOZIDAR U,SLAVICA S,NIKOLA T,et al.Evaluation of ultraviolet irradiation effects on Aspergillus flavus and aflatoxin B1 in maize and peanut using innovative vibrating decontamination equipment [J].Food Control,2022,134:108691.
[24] 王守经,柳尧波,胡鹏,等.辐照处理对黄曲霉毒素 B1的降解效果研究 [J].山东农业科学,2015,47(11):116-119.WANG S J,LIU Y B,HU P,et al.Study on degradation effect of irradiation on aflatoxin B1[J].Shandong Agricultural Sciences,2015,47(11):116-119.
[25] 邵建忠,潘雪男,DEVREESE M,等.活性炭在吸附猪体内呕吐 毒 素 (DON)上 的 功 效 [J].国 外 畜 牧 学 (猪 与 禽),2015,35(5):97-99.SHAO J Z,PAN X N,DEVREESE M,et al.Efficacy of active carbon towards the absorption of deoxynivalenol in pigs [J].Animal Science Abroad:Pigs and Poultry,2015,35(5):97-99.
[26] NONES J,NONES J,POLI A,et al.Organophilic treatments of bentonite increase the adsorption of aflatoxin B 1 and protect stem cells against cellular damage [J].Colloids Surf B Biointerfaces,2016,145:555-561.
[27] JI J M,XIE W L.Detoxification of aflatoxin B (1) by magnetic graphene composite adsorbents from contaminated oils [J].J Hazard Mater,2020,381:120915.
[28] SHEN Z T,KUANG Y X,ZHOU S X,et al.Preparation of magnetic adsorbent and its adsorption removal of pollutants:an overview [J].TrAC Trends in Analytical Chemistry,2023,167:117241.
[29] 李善瑞,赵璐玲,严文静,等.低温等离子体对黄曲霉毒素 B1的降解效能 [J].食品工业科技,2023,44(4):271-277.LI S R,ZHAO L L,YAN W J,et al.Degradation efficiency of aflatoxin B1 by cold plasma [J].Science and Technology of Food Industry,2023,44(4):271-277.
[30] NARAGINTI S,SATHISHKUMAR K,LAVANYA K,et al.Sunlight-driven intimately coupled photocatalysis and biodegradation (SDICPB):a sustainable approach for enhanced detoxification of triclosan [J].Chemosphere,2023,336:139210.
[31] WU S J,WANG F,LI Q,et al.Detoxification of DON by photocatalytic degradation and quality evaluation of wheat [J].RSC Advances,2019,9(59):34 351-34 358.
[32] 程荣,邓子祺,夏锦程,等.光催化系统灭活微生物气溶胶的研究进展 [J].化工进展,2023,42(2):957-968.CHENG R,DENG Z Q,XIA J C,et al.Research progress on photocatalysis systems for inactivation of microbial aerosol [J].Chemical Industry and Engineering Progress,2023,42(2):957-968.
[33] THABET S,SIMONET F,LEMAIRE M,et al.Impact of photocatalysis on fungal cells:depiction of cellular and molecular effects on Saccharomyces cerevisiae [J].Appl Environ Microbiol,2014,80(24):7 527-7 535.
[34] TAN H X,CHEN J M,WANG P,et al.Design of carbon nitride photo-catalysts based on defect engineering and metal doping for enhanced visible-light-driven activity of mycotoxins degradation [J].Chemical Engineering Journal,2025,508:160893.
[35] 施晶晶,刘宽博,王永伟,等.光催化技术降解粮油中真菌毒素的研究进展 [J].粮油食品科技,2021,29(2):66-70.SHI J J,LIU K B,WANG Y W,et al.Recent advances in mycotoxin degradation by photocatalytic technology in grain and oil [J].Science and Technology of Cereals,Oils and Foods,2021,29(2):66-70.
[36] 赵国斌.氨气熏蒸法降解花生中的黄曲霉素 B1[J].食品研究与开发,2014,35(3):111-113.ZHAO G B.Degradation of aflatoxins B1 which in peanut by ammonia gas method [J].Food Research and Development,2014,35(3):111-113.
[37] 徐瑾,伍松陵,常晓娇,等.伏马毒素生物合成和降解的研究进展 [J].中国粮油学报,2013,28(7):119-123,128.XU J,WU S L,CHANG X J,et al.The development of research on fumonisins' biosynthesis and degradation [J].Journal of the Chinese Cereals and Oils Association,2013,28(7):119-123,128.
[38] YU Y,SHI J Y,XIE B Y,et al.Detoxification of aflatoxin B (1) in corn by chlorine dioxide gas [J].Food Chem,2020,328:127121.
[39] SHI Y W,XING Y M,MA C,et al.Degradation of aqueous organic pollutants by dual oxidant advanced oxidation processes:a comprehensive review [J].Journal of Environmental Chemical Engineering,2024,12(6):114174.
[40] AFSAH-HEJRI L,HAJEB P,EHSANI R J.Application of ozone for degradation of mycotoxins in food:a review [J].Comprehensive Reviews in Food Science and Food Safety,2020,19(4):1 777-1 808.
[41] 刘芳,李萌萌,卞科.臭氧对食品中真菌毒素的降解效果及影 响 因 素 研 究 进 展 [J].食 品 与 发 酵 工 业,2021,47(18):282-286,293.LIU F,LI M M,BIAN K.Recent progress in the degradation effects of mycotoxins in food with ozone and the related influencing factors [J].Food and Fermentation Industries,2021,47(18):282-286,293.
[42] 山长坡,刁恩杰,王宇晓,等.臭氧降解花生中黄曲霉毒素的设备及应用 [J].农业工程学报,2012,28(21):243-247.SHAN C P,DIAO E J,WANG Y X,et al.Equipment and application for ozone degradation of aflatoxins in contaminated peanuts [J].Transactions of the Chinese Society of Agricultural Engineering,2012,28(21):243-247.
[43] SANTOS ALEXANDRE A P,VELA-PAREDES R S,SANTOS A S,et al.Ozone treatment to reduce deoxynivalenol (DON) and zearalenone (ZEN) contamination in wheat bran and its impact on nutritional quality [J].Food Addit Contam Part A Chem Anal Control Expo Risk Assess,2018,35(6):1 189-1 199.
[44] ZHU F.Effect of ozone treatment on the quality of grain products [J].Food Chemistry,2018,264:358-366.
[45] SIVARANJANI S,PRASATH V A,PANDISELVAM R,et al.Recent advances in applications of ozone in the cereal industry[J].LWT-Food Science and Technology,2021,146:111412.
[46] NIDERKORN V,MORGAVI D P,ABOAB B,et al.Cell wall component and mycotoxin moieties involved in the binding of fumonisin B 1 and B 2 by lactic acid bacteria [J].J Appl Microbiol,2009,106(3):977-985.
[47] TORRIJOS R,DE MELO NAZARETH T,VILA-DONAT P,et al.Use of mustard extracts fermented by lactic acid bacteria to mitigate the production of fumonisin B1 and B2 by Fusarium verticillioides in corn ears [J].Toxins (Basel),2022,14(2):80.
[48] CHATTARAJ S,MITRA D GANGULY A,et al.A critical review on the biotechnological potential of brewers' waste:challenges and future alternatives [J].Current Research in Microbial Sciences,2024,6:100228.
[49] 徐晓艳,王宇,王梦瑶,等.中药材中真菌毒素的检测与脱毒研究进展 [J].中草药,2024,55(2):657-669.XU X Y,WANG Y,WANG M Y,et al.Research progress on detection and detoxification of mycotoxins in Chinese medicinal materials [J].Chinese Traditional and Herbal Drugs,2024,55(2):657-669.
[50] YANG X A,CHEN X J,SONG Z Q,et al.Antifungal,plant growth-promoting,and mycotoxin detoxication activities of Burkholderia sp.strain XHY- 12[J].3 Biotech,2020,10(4):158.
[51] GARI J,ABDELLA R.Degradation of zearalenone by microorganisms and enzymes [J].PeerJ,2023,11:e15808.
[52] 孙长坡.国家粮科院酒糟蛋白 (DDGS)中真菌毒素 “三合一 ”规模化消减技术 [EB/OL ].(2018 -05-21) [2025 -06-15].https://gdgrain.gd.gov.cn/lshwzcbkj/gfxxfb/kjcg/lyjg/content/post_2471465.html.SUN C P."Three-in-one" Large-scale detoxification technology for mycotoxins in ddgs by the national grain science institute [EB/OL ].(2018 -05-21) [2025 -06-15].https://gdgrain.gd.gov.cn/lshwzcbkj/gfxxfb/kjcg/lyjg/content/post_2471465.html.
[53] AZA P,CAMARERO S.Fungal laccases:fundamentals,engineering and classification update [J].Biomolecules,2023,13(12):1 716.
[54] LINDE D,AYUSO-FERNÁNDEZ I,LALOUX M,et al.Comparing ligninolytic capabilities of bacterial and fungal dye-decolorizing peroxidases and class-ii peroxidase-catalases [J].International Journal of Molecular Sciences,2021,22(5):2 629.
[55] 武爱波,郭立佳,杨文杰,等.呕吐毒素对动物危害的研究进展及解决策略分析 [J].饲料工业,2025,46(7):1-8.WU A B,GUO L J,YANG W J,et al.Research advances for hazardous of deoxynivalenol to animals and related control strategies [J].Feed Industry,2025,46(7):1-8.
[56] 荆丹丹,赵丽娟,徐静.粮食与饲料脱霉专利技术研究动向与政策支撑 [J].饲料工业,2023,44(14):104-112.JING D D,ZHAO L J,XU J.Research trend and policy support of patent technology on mycotoxin removal in grain and feed [J].Feed Industry,2023,44(14):104-112.
[57] ADEGOKE T V,YANG B L,TIAN X Y,et al.Simultaneous degradation of aflatoxin B and zearalenone by Porin and Peroxiredoxin enzymes cloned from Acinetobacter nosocomialis Y1[J].J Hazard Mater,2023,459:132105.
[58] WANG G,WU W Q,KELLER N P,et al.Metarhizium spp.encode an ochratoxin cluster and a high efficiency ochratoxin-degrading amidohydrolase revealed by genomic analysis [J].Journal of Advanced Research,2025,72:85-95.
[59] 盛利娜,纪剑,宋晓宁,等.人工智能辅助食品安全主动防控研究进展 [J].中国食品学报,2024,24(10):14-27.SHENG L N,JI J,SONG X N,et al.Advances in artificial intelligence-assisted proactive prevention and control of food safety [J].Journal of Chinese Institute of Food Science and Technology,2024,24(10):14-27.
[60] 陈 坤.改 造 和 固 定 化 PET 水 解 酶 提 高 PET 的 生 物 催 化 降 解性能 [D].天津:天津大学,2022:119-121.CHEN K.Engineering and immobilizing PET hydrolytic enzymes for improving biocatalytic PET degradation [D].Tianjin:Tianjin University,2022:119-121.
[61] PAN J F,DENG F,LIU Z,et al.Toehold-mediated cascade catalytic assembly for mycotoxin detection and its logic applications [J].Analytical Chemistry,2022,94(8):3 693-3 700.
[62] 中国发展改革报社.节粮减损 “黑科技 ”让粮食全产业链更上 层 楼 [EB/OL ].(2025 -06-10) [2025 -06-16].https://m.thepaper.cn/newsDetail_forward_ 30960371.China Development Reform Press."Black technology" For grain loss reduction and efficiency improvement in the entire grain industry chain [EB/OL ].(2025 -06-10) [2025 -06-16].https://m.thepaper.cn/newsDetail_forward_ 30960371.
[63] 宋洪春.食品贮藏过程中的真菌毒素控制与防护技术探析[J].食品安全导刊,2025 (10):109-111.SONG H C.Analysis of fungal toxin control and protection techniques during food storage [J].China Food Safety Magazine,2025 (10):109-111.
