中国乳业 ›› 2023, Vol. 0 ›› Issue (11): 60-68.doi: 10.12377/1671-4393.23.11.12

• 质量安全 • 上一篇    下一篇

微波消解-原子荧光法检测液奶中砷和汞样品前处理方法探究及应用

毕成名1, 卢智华1, 李艳红1,*, 齐琦1, 秦晓婷1, 王英南1, 李洪梅1, 王斌1, 白晓玲2, 伊德润2   

  1. 1 蒙牛乳业(唐山)有限责任公司,河北唐山 064000;
    2 蒙牛乳业常温事业部,内蒙古呼和浩特 011500
  • 出版日期:2023-11-25 发布日期:2023-12-12
  • 通讯作者: *李艳红(1984-),女,内蒙古赤峰人,本科,初级工程师,研究方向为食品检验。
  • 作者简介:毕成名(1998-),男,河北秦皇岛人,硕士,研究方向为食品加工与安全;卢智华(1983-),女,内蒙古赤峰人,硕士,中级工程师,研究方向为食品检验;齐 琦(1999-),女,河北唐山人,本科,研究方向为食品检验;秦晓婷(1984-),女,河北唐山人,本科,初级工程师,研究方向为食品检验;王英南(1990-),男,河北唐山人,本科,研究方向为食品加工与安全;李洪梅(1982-),女,内蒙古赤峰人,本科,研究方向为食品检验;王 斌(1982-),男,陕西榆林人,本科,研究方向为食品加工与安全;白晓玲(1984-),女,内蒙古扎兰屯人,研究生在读,食品药品工程中级工程师,研究方向为食品检验;伊德润(1977-),男,内蒙古兴安盟人,本科,检乳品检测助理工程师,研究方向为食品检验。

Microwave digestion-atomic fluorescence for thedetermination of arsenic and mercury in liquid milk and its application

BI Chengming1, LU Zhihua1, LI Yanhong1,*, QI Qi1, QIN Xiaoting1, WANG Yingnan1, LI Hongmei1, WANG Bin1, BAI Xiaoling2, YI Derun2   

  1. 1Mengniu Dairy (Tangshan) Limited Liability Company,Tangshan Hebei 064000;
    2Mengniu Dairy Room Temperature Division,Hohhot Neimenggu 011500
  • Online:2023-11-25 Published:2023-12-12

摘要: 为准确检测牛奶中重金属含量,采用微波消解-原子荧光法检测牛奶中的重金属元素砷和汞,通过单因素和正交实验,以加标回收率为指标优化其检测方法,并对方法进行验证和应用。[结果]表明,砷和汞的最佳检测条件为还原剂硫脲的浓度为50 g/L、硼氢化钾-氢氧化钾的浓度15 g/L,氨基磺酸的添加量为2.5 mL,硝酸的添加量为5 mL、微波消解温度为195℃。砷和汞的检出限分别为0.01 mg/kg、0.003 mg/kg;标准曲线方程线性范围分别为0~10 ng/mL、0~1 ng/mL,相关系数分别为0.997、0.992;砷和汞的加标回收和质控样本的检测数据重现性RSD分别为0.11、0.18、3.82、4.29,精密度分别为0.59、0.56、3.28、4.32;一个季度砷、汞加标回收率和质控样本共检测48次,回收率分别为98.84%、99.23%,RSD为1.01、1.91。质控样本检测值偏差符合实验要求,RSD为2.79~3.80。回收率和质控值偏差均符合国家标准要求。成功建立同时检测砷和汞的便捷、准确灵敏的原子荧光检测方法,为监管食品受重金属污染奠定基础。

关键词: 原子荧光, 微波消解, 牛奶, 重金属元素

Abstract: In order toaccurately detect heavy metals in milk,microwave digestion-atomic fluorescence method was used to detect heavy metal elements arsenic and mercury in milk,and its detection method was optimized by one-way and orthogonal experiments with spiked recovery as the index.The method was also validated and applied. The results showed that the optimal conditions for the determination of arsenic and mercury were 50 g/L for thiourea,15 g/L for potassium borohydride-potassium hydroxide,2.5 mL of sulfamic acid,5 mL of nitric acid, and 195 ℃ for microwave digestion.The detection limits of arsenic and mercury were 0.01 mg/kg and 0.003 mg/kg,respectively;the linear ranges of the standard curve equations were 0-10 ng/mL and 0-1 ng/mL,with the correlation coefficients of 0.997 and 0.992,respectively;the RSDs of the spiked recoveries of arsenic and mercury and the reproducibility of the detection data of the quality control samples were 0.11,0.18,3.82 and 4.29,respectively.Precision was 0.59,0.56,3.28,4.32,respectively;a quarter of arsenic and mercury spiked recovery and quality control samples were tested 48 times,the recovery rate was 98.84%,99.23%,RSD was 1.01,1.91,respectively.the deviation of the detection value of the quality control samples complied with the experimental requirements,and the RSD was 2.79-3.80.the recovery rate and the deviation of the quality control value were in accordance with the national standards.Requirements.A convenient,accurate and sensitive atomic fluorescence detection method for the simultaneous detection of arsenic and mercury has been successfully established,which lays the foundation for the supervision of food contamination by heavy metals.

Key words: atomic fluorescence, microwave digestion, milk, heavy metal elements

[1] 初晓娜,赵燕飞,穆阿丽,等. 湿法消解-石墨炉原子吸收光谱法测定牛奶中铅含量[J]. 理化检验(化学分册),2012,48(10):1238-1239.
[2] Mingyue L,Jiachao Z,Xiao Y,et al.Responses of ammonia-oxidizing microorganisms to biochar and compost amendments of heavy metals-polluted soil[J]. Journal of Environmental Sciences,2021,102:263-272.
[3] 张萍,何振宇,梁高道. 牛奶中铅和镉对人体健康风险的评价[J]. 食品科学,2007(7):417-419.
[4] 范小飞,周云,虞建宏等. 南京市售婴幼儿食品中重金属污染状况的调查分析[J]. 中国卫生检验杂志,2014,24(18):2708-2711,2715.
[5] M. D T,S. N B,Leandro C N,et al. Integrative assessment of the ecological risk of heavy metals in a South American estuary under human pressures[J]. Ecotoxicology and Environmental Safety,2021,208:111498.
[6] Liu J,Zhao L,Liu Q,et al.A critical review on soil washing during soil remediation for heavy metals and organic pollutants[J]. International Journal of Environmental Science and Technology,2022,19(1):601-624.
[7] 杜鉴,薛毅. 食品添加剂中重金属元素前处理与检测方法研究进展[J]. 食品工业科技,2015,36(4):397-399.
[8] 田娟娟,杜慧娟,潘秋红,等. 电热板消解与密闭罐消解对土壤中49 种矿质元素 ICP-MS 法检测的影响[J]. 分析测试学报,2009,28(3):319-325.
[9] 唐鹏,李义连,徐佳丽,等. 王水水浴溶解-原子荧光法测定土壤中的砷和汞[J]. 安全与环境工程,2019,26(4):50-55.
[10] 王天亮. 氢化物发生—原子荧光法测定土壤样品中砷、汞的研究及应用[D]. 吉林大学,2017.
[11] 陈东,李倩,巩俐彤等. 微波消解-原子荧光光度计测定食品中总锡[J]. 首都公共卫生,2023,17(2):120-124.
[12] 何瑞,李莉,李进春等. 微波消解-原子荧光光谱法测定大米中总砷含量[J]. 粮食科技与经济,2023,48(2):82-84.
[13] Chul E P,Geon H L,Hee-jin J,et al. Tiered human health risk assessment of antibacterial quaternary ammonium compounds (QACs) in dishwashing detergents[J]. Regulatory Toxicology and Pharmacology,2023,137:105306.
[14] KumarGhosh J,ShahidulIslam M,TariqulIslam M,et al. Effect of Traditional Cooking Method on the Heavy Metal Content of Four Selected Farmed Carp Species And Assessment of Possible Human Health Risk[J]. Research in Agriculture Livestock and Fisheries,2023,9(3):367-376.
[15] 李明. 食品中汞检测方法的比较与应用[D]. 东华理工大学,2021.
[16] 王小兰,房文苗,季德媛等. 微波消解-原子荧光法快速测定稻谷中的砷和汞[J]. 现代食品,2023,29(10):215-218.
[17] 王秀丽,王一宁,黄岩等. 微波消解-原子荧光法测定土壤总砷的方法探究[J]. 山西化工,2023,43(7):44-46.
[18] Kejun L,Haiyan Y,Xin Y,et al.A novel and indirect method for L-cysteine detection in traditional Chinese medicines by chemical vapor generation-atomic fluorescence spectrometry[J]. Microchemical Journal,2022,172:106891.
[19] 唐承性,蔡砚芳,杨华等. 原子荧光光谱法同时测定土壤中的砷、汞[J]. 云南化工,2023,50(5):63-65.
[20] Zhenzhen Y,Jixin L,Xuefei M,et al.Ultratrace mercury speciation analysis in rice by in-line solid phase extraction- liquid chromatography-atomic fluorescence spectrometry[J]. Food Chemistry,2022,379:132116.
[21] Chunyan G,Lijuan L,Yuchao L,et al.Applied Analytical Methods for Detecting Heavy Metals in Medicinal Plants[J]. Critical Reviews in Analytical Chemistry,2023,53(2):339-359.
[22] 曾育聪,黄昌兴,肖丽慧等. 原子荧光法测定大米粉总汞过程中浓硝酸用量的研究[J]. 食品安全导刊,2023(22):61-63.
[23] Chandrasekaran K,Krishna B V M,Nidhi G. Development of a single-step microwave-assisted digestion method using dilute nitric acid for determination of bismuth in bismuth-containing pharmaceuticals by hydride generation-atomic fluorescence spectrometry[J]. Asian Journal of Pharmaceutical Analysis,2021,11(2).
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