Chen Yue, Wu Hai-Long, Wang Tong, Wu Juan-Ni, Liu Bing-Bing, Ding Yu-Jie, Yu Ru-Qin
State Key Laboratory of Chemo/Biosensing and Chemometrics, College of Chemistry and Chemical Engineering, Hunan University, Changsha, China.
J Sci Food Agric. 2024 Feb;104(3):1391-1398. doi: 10.1002/jsfa.13028. Epub 2023 Oct 18.
Saffron has gained people's attention and love for its unique flavor and valuable edible value, but the problem of saffron adulteration in the market is serious. It is urgent for us to find a simple and rapid identification and quantitative estimation of adulteration in saffron. Therefore, excitation-emission matrix (EEM) fluorescence combined with multi-way chemometrics was proposed for the detection and quantification of adulteration in saffron.
The fluorescence composition analysis of saffron and saffron adulterants (safflower, marigold and madder) were accomplished by alternating trilinear decomposition (ATLD) algorithm. ATLD and two-dimensional principal component analysis combined with k-nearest neighbor (ATLD-kNN and 2DPCA-kNN) and ATLD combined with data-driven soft independent modeling of class analogies (ATLD-DD-SIMCA) were applied to rapid detection of adulteration in saffron. 2DPCA-kNN and ATLD-DD-SIMCA methods were adopted for the classification of chemical EEM data, first with 100% correct classification rate. The content of adulteration of adulterated saffron was predicted by the N-way partial least squares regression (N-PLS) algorithm. In addition, new samples were correctly classified and the adulteration level in adulterated saffron was estimated semi-quantitatively, which verifies the reliability of these models.
ATLD-DD-SIMCA and 2DPCA-kNN are recommended methods for the classification of pure saffron and adulterated saffron. The N-PLS algorithm shows potential in prediction of adulteration levels. These methods are expected to solve more complex problems in food authenticity. © 2023 Society of Chemical Industry.
藏红花因其独特的风味和宝贵的食用价值而备受人们关注与喜爱,但市场上藏红花掺假问题严重。我们迫切需要找到一种简单快速的方法来鉴定和定量评估藏红花中的掺假情况。因此,提出了激发-发射矩阵(EEM)荧光结合多元化学计量学方法用于藏红花掺假的检测和定量分析。
采用交替三线性分解(ATLD)算法完成了藏红花及其掺假物(红花、金盏花和茜草)的荧光成分分析。将ATLD与二维主成分分析结合k近邻算法(ATLD-kNN和2DPCA-kNN)以及ATLD结合数据驱动的类模拟软独立建模(ATLD-DD-SIMCA)应用于藏红花掺假的快速检测。采用2DPCA-kNN和ATLD-DD-SIMCA方法对化学EEM数据进行分类,首次获得了100%的正确分类率。通过N路偏最小二乘回归(N-PLS)算法预测了掺假藏红花的掺假含量。此外,对新样品进行了正确分类,并对半定量估计了掺假藏红花中的掺假水平,验证了这些模型的可靠性。
ATLD-DD-SIMCA和2DPCA-kNN是纯藏红花和掺假藏红花分类的推荐方法。N-PLS算法在掺假水平预测方面显示出潜力。这些方法有望解决食品真实性方面更复杂的问题。©2023化学工业协会。
