Analysis of Volatiles during Grape Deterioration Using FTIR

文献类型: 外文期刊

第一作者: Wang Wenzhong

作者: Wang Wenzhong;Dong Daming;Zheng Wengang;Jiao Leizi;Zhao Xiande;Wang Wenzhong;Han Junfeng;Ye Song

作者机构:

关键词: grape deterioration;volatile compounds;Fourier transform infrared (FTlR);principal component analysis (PCA);classification

期刊名称:ACTA CHIMICA SINICA ( 影响因子:2.668; 五年影响因子:1.839 )

ISSN: 0567-7351

年卷期: 2013 年 71 卷 2 期

页码:

收录情况: SCI

摘要: Grape is very perishable in;transportation and storage, so its early warning is particularly important to lower the risks of large-scale deterioration. In order to study grape deterioration process, we analyzed the volatile compounds from grapes using Fourier transform infrared (FTIR) spectroscopy. Several grapes were put in the sample compartment of the FTIR spectrometer for 2 h per day. Then, the volatile compounds vaporized from the grapes were measured directly using the spectrometer. A high energy ceramic IR-source was used to improve the signal-to-noise ratio. We collected the FTIR spectrum before sample was put in as a background to eliminate the influence of air. Spectral signatures of the volatiles from grapes were analyzed and used to classify the grape samples into deterioration or not. By spectral analysis, the volatile mainly includes ethyl acetate, ethanol and carbon dioxide. The above three volatile vaporized more and more from the grapes during deterioration process. We also found that the release rates of volatile compounds get its highest value when the grapes just started deteriorating, so, this value could be used to monitor the beginning of deterioration. The methods to classify grapes deterioration levels were also studied. Firstly, grape deterioration processes were divided into three stages, fresh, slight deterioration and severe deterioration, by appearance and sensory evaluation. Then, a principle compounds analysis (PCA) was used for unsupervised classification to FTIR spectra. Results showed that this method could distinguish grapes into fresh and deterioration by choosing proper data pre-processing algorithms. This paper provides a new way to study the fruit deterioration mechanism, and premise a foundation for developing early-warning equipment for evaluation and monitoring fruit deterioration during its storage and transportation. Furthermore, because of the step change of release rates of volatile compounds at the beginning of deterioration, this kind of classifying method and monitoring system may not influenced by grapes quantity and store patterns.

分类号:

  • 相关文献

[1]Gas Chromatographic-Mass Spectrometry and Chemometric Analysis for Detection and Quantification of Paraffin in Beeswax. Chen, Fang,Chen, Lanzhen,Zhao, Jing,Xue, Xiaofeng,Wu, Liming,Zheng, Chuangmu.

[2]Interpreting RADARSAT-2 Quad-Polarization SAR Signatures From Rice Paddy Based on Experiments. Yang, Shenbin,Zhao, Xiaoyan,Hua, Guoqiang,Li, Bingbai. 2012

[3]Monitoring Freeze Stress Levels on Winter Wheat from Hyperspectral Reflectance Data Using Principal Component Analysis. Wang Hui-fang,Huo Zhi-guo,Wang Hui-fang,Wang Ji-hua,Dong Ying-ying,Gu Xiao-he. 2014

[4]HYPERSPECTRAL IMAGE FOR DISCRIMINATING APHID AND APHID DAMAGE REGION OF WINTER WHEAT LEAF. Luo Juhua,Huang Wenjiang,Guan Qingsong,Zhao Jinling,Zhang Jingcheng. 2013

[5]Water quality of a tributary of the Pearl River, the Beijiang, Southern China: implications from multivariate statistical analyses. Song, Ming W.,Huang, Ping,Zhang, Hui,Li, Feng,Xie, Kai Z.,Wang, Xi H.,He, Guo X.. 2011

[6]Estimating rice brown spot disease severity based on principal component analysis and radial basis function neural network. Liu Zhan-yu,Huang Jing-feng,Tao Rong-xiang,Zhang Hong-zhi. 2008

[7]Genetic Analysis on Characteristics to Measure Drought Resistance Using Dongxiang Wild Rice (Oryza rufupogon Griff.) and Its Derived Backcross Inbred Lines Population at Seedling Stage. Hu Biao-lin,Zhang Tao,Wan Yong,Li Xia,Xie Jian-kun,Hu Biao-lin,Fu Xue-qin,Huang Yun-hong,Dai Liang-fang,Luo Xiang-dong,Xie Jian-kun. 2011

[8]Source Apportionment of PAHs Using Two Mathematical Models for Mangrove Sediments in Shantou Coastal Zone, China. Cao, Qimin,Chen, Guizhu,Cao, Qimin,Cao, Qimin,Cao, Qimin,Chen, Guizhu,Wang, Hua.

[9]Sensory evaluation, physicochemical properties and aroma-active profiles in a diverse collection of Chinese bayberry (Myrica rubra) cultivars. Cheng, Huan,Chen, Jianle,Chen, Shiguo,Liu, Donghong,Ye, Xingqian,Xia, Qile.

[10]Influence of the Type of Extraction Conditions and Fiber Coating on the Meat of Sauced Duck Neck Volatile Compounds Extracted by Solid-Phase Microextraction (SPME). Zhou, Jinjie,Feng, Tao,Zhou, Jinjie,Han, Yanqing,Xu, Baocai,Zhuang, Haining,Zhuang, Haining,Zhuang, Haining.

[11]Effects of different osmo-dehydrofreezing treatments on the volatile compounds, phenolic compounds and physicochemical properties in mango (Mangifera indica L.). Zhao, Jin-Hong,Zhao, Jin-Hong,Pang, Xue-Li,Wen, Xin,Ni, Yuan-Ying,Zhao, Jin-Hong,Pang, Xue-Li,Wen, Xin,Ni, Yuan-Ying,Liu, Fang,Xiao, Hong-Wei.

[12]Volatile compounds and odor traits of dry-cured ham (Prosciutto crudo) irradiated by electron beam and gamma rays. Kong, Qiulian,Yan, Weiqiang,Yue, Ling,Chen, Zhijun,Wang, Haihong,Qi, Wenyuan,He, Xiaohua.

[13]Research on Grape Deterioration Process via Volatiles-Using Long Optical-Path Infrared Spectroscopy and Simplified E-Nose. Zheng Wen-gang,Jiao Lei-zi,Zhao Xian-de,Dong Da-ming. 2016

[14]Effects of Potassium Application on Flavor Compounds of Cherry Tomato Fruits. Wang, Yu-Tao,Liu, Rong-Le,Huang, Shao-Wen,Wang, Yu-Tao,Liu, Rong-Le,Jin, Ji-Yun. 2009

[15]Significant improvements in the characterization of volatile compound profiles in squid using simultaneous distillation-extraction and GCxGC-TOFMS. Jin, Yafang,Deng, Yun,Yue, Jin,Zhao, Yanyun,Yu, Wenjuan,Zhao, Yanyun,Liu, Zhidong,Huang, Hongliang. 2015

[16]Effect of Se treatment on the volatile compounds in broccoli. Lv, Jiayu,Wu, Jie,Zuo, Jinhua,Fan, Linlin,Shi, Junyan,Gao, Lipu,Wang, Qing,Wu, Jie,Li, Miao,Wu, Jie,Li, Miao. 2017

[17]Valid evaluation of volatile flavor composition of fresh and dehydrated Tuber indicum with different drying methods. Ma, Ning,Pei, Fei,Yu, Jie,Hu, Qiuhui,Ma, Ning,Hu, Qiuhui,Wang, Siyu,Ho, Chi-Tang,Su, Kaimei. 2018

[18]Varietal and processing effects on the volatile profile of rapeseed oils. Wei, Fang,Yang, Mei,Zhou, Qi,Zheng, Chang,Peng, Jin-Hua,Liu, Chang-Sheng,Huang, Feng-Hong,Chen, Hong. 2012

[19]Comparative analysis of volatile compounds between jackfruit (Artocarpus heterophyllus L.) peel and its pulp. Peng, Shaodan,Peng, Shaodan,Lin, Lijing,Zhu, Bingqing,Yuan, Yuan,Jing, Wei,Li, Jihua,Ouyang, Lejun. 2013

[20]Changes in Volatile Compounds of Sweet Potato Tips During Fermentation. Cui Li,Liu Chun-quan,Li Da-jing,Cui Li,Liu Chun-quan,Li Da-jing. 2010

作者其他论文 更多>>

微信小程序