应用近红外光谱分析不同生态环境的烟叶特性

doi:10.3964/j.issn.1000-0593(2012)03-0664-05

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摘要：以2010年云南、河南、福建、广东、江西等省份11个不同生态环境地点，三个部位烟叶共495份样品为试验对象，应用近红外光谱分析不同生态环境烟叶的品质特性，结果表明：相同生态环境下，上部与中部烟叶的品质特性差异较小，而上部与下部、中部与下部烟叶的品质特性差异较为明显;不同生态环境下烟叶的品质特性间的相似性关系具有较好的一致性，其分析集与验证集特征投影值的相关系数达0.98以上。同时提出了一种相似度计算方法来表征不同生态环境下烟叶品质特性之间的相似关系，其结果可为烟叶的种植规划、质量管理以及烟叶配方等提供量化的参考数据。

关键词：烟叶;生态环境;近红外;相似性

Abstract：Four hundred ninety five samples from 3 parts of tobacco were collected from 11 different ecological environments in 2010 to analyze the characteristics of tobaccos in different ecological environments with near infrared spectroscopy. The results indicate that the differences are remarkable both between lower and upper parts and between lower and middle parts of tobacco, while negligible between upper and middle parts of tobacco under the same ecological environment. Good stability and consistency were showed by the similarity of characteristics of tobaccos under different ecological environments, and the projection correlation coefficient of analysis set and validation set is over 98%. This article also proposes a method of measuring the similarity between characteristics of tobaccos from different ecological environments. The results can provide reference data to quantify tobacco’s planting programming, production processing and quality management.

Key words：Tobacco;Ecological environments;Near infrared spectroscopy;Similarity

收稿日期: 2011-06-15 修订日期: 2011-10-10

中图分类号:

O657.3

通讯作者: 李军会 E-mail: caunir@cau.edu.cn

引用本文:

张璐¹，唐兴宏²，马翔²，钱颖颖²，王萝萍²，温亚东²，王毅²，张晔晖¹，赵龙莲¹，李军会^1*. 应用近红外光谱分析不同生态环境的烟叶特性[J]. 光谱学与光谱分析, 2012, 32(03): 664-668.
ZHANG Lu¹, TANG Xing-hong², MA Xiang², QIAN Ying-ying², WANG Luo-ping², WEN Ya-dong², WANG Yi², ZHANG Ye-hui¹, ZHAO Long-lian¹, LI Jun-hui^1*. Research on Characteristic of Tobaccos from Different Ecological Environments Base on Near Infrared Spectroscopy. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2012, 32(03): 664-668.

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[1] LU Yong-heng(陆永恒). Chinese Tobacco Science(中国烟草科学), 2007, 28(3): 43.
[2] LIU Guo-shun, FU Yun-peng, et al(刘国顺，符云鹏，等). Tillage and Cultivation(耕作与栽培), 1996, (1): 28.
[3] XIE Juan, LUO Jian-qun, YAO He-ming, et al(谢娟，罗建群，姚鹤鸣，等). Tobacco Science&Technology(烟草科技), 2008, (7): 42.
[4] YANG Hui, ZHANG Qing-ming, YANG Chao, et al(杨辉，张庆明，杨超，等). Guizhou Agricultural Sciences(贵州农业科学), 2009, 37(11): 60.
[5] YAN Yan-lu, ZHAO Long-lian, HAN Dong-hai, et al(严衍禄，赵龙莲，韩东海，等). Foundation and Application of NIR Spectra Analysis(近红外光谱分析基础与应用). Beijing: China Light Industry Press(北京：中国轻工业出版社), 2005. 13.
[6] ZHANG Jian-ping, CHEN Jiang-hua, SHU Ru-xin, et al(张建平，陈江华，束茹欣，等). Acta Tabacaria Sinica(中国烟草学报), 2007, 13(5): 1.
[7] CHU Xiao-li, XU Yu-peng, LU Wan-zhen, et al(褚小立，许育鹏，陆婉珍，等). Chinese Journal of Analytical Chemistry(分析化学), 2008, 36(5): 702.
[8] QIU Jun, WANG Yun-bai, FU Qiu-juan, et al(邱军, 王允白, 付秋娟, 等). Tobacco Science & Technology(烟草科技), 2006, (2): 31.
[9] GUAN Bin, WANG Jia-jun, ZHANG Jun-song, et al(关斌，王家俊，张峻松，等). Academic Periodical of Farm Products Processing(农产品加工·学刊), 2009, (10): 102.
[10] Tan Chao, Wang Jinyue, Wu Tong, et al. Vibrational Spectroscopy, 2010, 54(1): 35.
[11] Zhang Yong, Cong Qian, Xie Yunfei, et al. Spectrochimica Acta Part A, 2008, 71(4): 1408.
[12] SHU Ru-xin, WANG Guo-dong, ZHANG Jian-ping, et al(束茹欣，王国东，张建平，等). Tobacco Science&Technology(烟草科技), 2006, (8): 12.
[13] Ni Lijun, Zhang Liguo, Xie Juan, et al. Analytica Chimica Acta, 2009, 633: 43.
[14] WANG Guo-dong, SHU Ru-xin, ZHANG Jian-ping, et al(王国东，束茹欣，张建平). Tobacco Science&Technology(烟草科技), 2006, (5): 36.
[15] ZHANG Xiao-hui, LIU Jian-xue, et al(张晓慧，刘建学，等). Laser&Infrared(激光与红外), 2008, 38(4): 342.
[16] LI Shen-an(李慎安). China Metrology(中国计量), 2008, (4): 81.