Study on the Discrimination of FTIR Spectroscopy of Gentiana Rigescens with Different Harvest Time

文献类型: 外文期刊

第一作者: Shen Yun-xia

作者: Shen Yun-xia;Zhao Yan-li;Zhang Ji;Jin Hang;Wang Yuan-zhong;Shen Yun-xia

作者机构:

关键词: Gentiana rigescens;Different harvest seasons;Fourier transform infrared spectroscopy;Principal component analysis;Partial least square discriminant analysis

期刊名称:SPECTROSCOPY AND SPECTRAL ANALYSIS ( 影响因子:0.589; 五年影响因子:0.504 )

ISSN: 1000-0593

年卷期: 2016 年 36 卷 5 期

页码:

收录情况: SCI

摘要: The harvest time of traditional Chinese medicine (TCM) is a very essential part for the production and quality of TCM which is the prerequisite for safe and effective clinical use of TCM. It is of great importance to carry out the research of timely harvest time of TCM. With Fourier transform infrared spectroscopy (FTIR) to study harvest time of Seventy-two Gentiana Rigescens samples. First derivative, second derivative, standard normal variate, multiplicative scatter correction and Savitaky-Golay(15, 3) smoothing of all original spectra were pretreated with TQ8. 0 software. Samples were divided into calibration set and prediction set at the ratio of 3 : 1. Principal component analysis (PCA) and partial least square discriminant analysis (PLS-DA) model were established. The result indicated that after removing noise spectrum, the spectra range was from 1 800 to 600 cm(-1), the method SNV combined with SD and SG present the best result of spectra pretreatment. The contribution rates of first three principal components were 92. 47% with PCA. Small differences were found for the samples harvested in May, September and October. Same spectrum range was chosen and PLS-DA was applied to establish the model. The R-2 and RMSEE were 0. 967 8, 0. 086 0, respectively, and the prediction accuracy is 100%. The methods of PCA and PLS-DA have good ability to classify and identify different harvest time of Gentiana Rigescens. It provided a basis for the identification of different harvest time of TCM.

分类号:

  • 相关文献

[1]Study on the Discrimination of Gentiana Rigescens with Different Processing Methods by Using FTIR Spectroscopy. Shen Yun-xia,Zhang Qing-zhi,Shen Yun-xia,Zhao Yan-li,Zhang Ji,Wang Yuan-zhong. 2016

[2]Study on Gentiana Rigescens with Silvomedicinal and Agriosivomedicinal Systems with FTIR Spectroscopy. Shen Yun-xia,Zhao Yan-li,Zhang Ji,Jin Hang,Wang Yuan-zhong,Shen Yun-xia. 2016

[3]Study on Different Parts of Wild and Cultivated Gentiana Rigescens with Fourier Transform Infrared Spectroscopy. Shen Yun-xia,Zhang Qing-zhi,Shen Yun-xia,Zhao Yan-li,Zhang Ji,Zuo Zhi-tian,Wang Yuan-zhong. 2016

[4]Comprehensive Quality Assessment Based Specific Chemical Profiles for Geographic and Tissue Variation in Gentiana rigescens Using HPLC and FTIR Method Combined with Principal Component Analysis. Li, Jie,Zhang, Ji,Zhao, Yan-Li,Wang, Yuan-Zhang,Li, Jie,Huang, Heng-Yu. 2017

[5]Evaluation of Mineral Elements in Gentiana rigescens in China. Zhao, Yan-Li,Zhang, Ji,Zhang, Jin-Yu,Wang, Yuan-Zhong,Jin, Hang,Yuan, Tian-Jun,Shen, Tao.

[6]Dynamic analysis of sugar metabolism in different harvest seasons of pineapple (Ananas comosus L. (Merr.)). Sun, G. M.. 2011

[7]Studies on the Characters and Microstructure of Enzyme and Octenyl Succinic Anhydride Modified Starch. Zheng Wei-wan,Tu Zong Cai,Lin Hong-hui,Kong Ling Wei,Wang Zhen Xing. 2010

[8]Study on the Genetic Relationship of Panax Notoginseng and Its Wild Relatives Based on Fourier Translation Infrared Spectroscopy. Li Yun,Zhang Jin-yu,Xu Fu-rong,Li Yun,Wang Yuan-zhong,Yang Wei-ze,Yang Shao-bing,Zhang Jin-yu. 2016

[9]Preliminary Characterization of Clay Minerals from Four Typical Soils of Northeast China. Juan Ying-hua,Wu Zhi-jie,Chen Li-jun,Juan Ying-hua,Wang Ren,Gong Liang,Bao Hong-jing,Liu Yan. 2010

[10]Effects of Bacillus fermentation on the protein microstructure and anti-nutritional factors of soybean meal. Zheng, L.,Li, D.,Li, Z. -L.,Kang, L. -N.,Liu, X. -Y.,Chi, Y. -P.,Wang, J. -H.,Jiang, Y. -Y.,Li, Y. -Q.. 2017

[11]Quantitative Detection of Chinese Cabbage Clubroot Based on FTIR Spectroscopy. Wang Wei-ping,Wang Wei-ping,Chai A-li,Shi Yan-xia,Xie Xue-wen,Li Bao-ju. 2015

[12]Early Detection of Corynespora Spot on Cucumber Leaves Based on FTIR Spectroscopy. Chai A-li,Li Bao-ju,Shi Yan-xia,Xie Xue-wen. 2011

[13]Early Rapid Detection of Clubroot of Chinese Cabbage Using FTIR Spectroscopy. Li Jin-ping,Chai A-li,Shi Yan-xia,Xie Xue-wen,Li Bao-ju. 2013

[14]The Research Development of FTIR in Analyzing Material Structures. Zhang Ying,Yang Shu-ming. 2017

[15]De Novo Assembly and Characterization of the Transcriptome of the Chinese Medicinal Herb, Gentiana rigescens. Zhang, Xiaodong,Li, Caixia,Allan, Andrew C.,Wang, Yuanzhong,Yao, Qiuyang. 2015

[16]Investigation of metabolites accumulation in medical plant Gentiana rigescens during different growing stage using LC-MS/MS and FT-IR. Pan, Yu,Zhang, Ji,Zhao, Yan-Li,Wang, Yuan-Zhong,Pan, Yu,Huang, Heng-Yu. 2015

[17]Optimization of ultrasonic extraction by response surface methodology combined with ultrafast liquid chromatography-ultraviolet method for determination of four iridoids in Gentiana rigescens. Pan, Yu,Zhang, Ji,Zuo, Zhi-Tian,Jin, Hang,Wang, Yuan-Zhong,Li, Wan-Yi,Pan, Yu,Shen, Tao. 2015

[18]Characterization of Gentiana rigescens by Ultraviolet-Visible and Infrared Spectroscopies with Chemometrics. Qi, LuMing,Qi, LuMing,Zhang, Ji,Zhao, YanLi,Zuo, ZhiTian,Wang, Yuan-Zhong,Jin, Hang.

[19]Quality Assessment of Gentiana rigescens from Different Geographical Origins Using FT-IR Spectroscopy Combined with HPLC. Wu, Zhe,Zhao, Yanli,Zhang, Ji,Wang, Yuanzhong,Wu, Zhe,Zhao, Yanli,Zhang, Ji,Wang, Yuanzhong,Wu, Zhe.

[20]Evaluation and quantitative analysis of different growth periods of herb-arbor intercropping systems using HPLC and UV-vis methods coupled with chemometrics. Chu, Bo-wen,Zhang, Ji,Li, Zhi-min,Zhao, Yan-li,Zuo, Zhi-tian,Wang, Yuan-zhong,Li, Wan-yi,Chu, Bo-wen,Zhang, Ji,Li, Zhi-min,Zhao, Yan-li,Zuo, Zhi-tian,Wang, Yuan-zhong,Li, Wan-yi,Li, Wan-yi.

作者其他论文 更多>>

微信小程序