| [1] |
邵灯寅,李雨芮,邹恩凯,等.黑曲霉和酒糟二次发酵提升低次烟叶品质的研究[J].安徽农业科学,2023,51(16):178-181. SHAO D Y,LI Y R,ZOU E K,et al.Study on the quality improvement of low-grade tobacco leaves by the secondary fermentation of Aspergillus niger and vinasse[J].Journal of Anhui Agricultural Sciences,2023,51(16):178-181. |
| [2] |
郝捷,季嫱,李力群,等.生物酶和微生物技术改善烟叶香气的研究进展[J].生物技术进展,2022,12(6):817-824. HAO J,JI Q,LI L Q,et al.Research progress on improving aroma of tobacco leaf with bio-enzymes and microorganism technology[J].Current Biotechnology,2022,12(6):817-824. |
| [3] |
刘洪坤,毛文龙,游敏,等.改善低次烟叶品质的生物发酵工艺优化[J].中国烟草科学,2024,45(2):99-107. LIU H K,MAO W L,YOU M,et al.Optimization of biological fermentation for improving the quality of discarded tobacco leaves[J].Chinese Tobacco Science,2024,45(2):99-107. |
| [4] |
马林.利用生物技术改变烟叶化学组分提高其吸食品质和安全性的研究[J].郑州工程学院学报,2001(3):40-42,45. MA L.Study on changing tobacco chemical components for improving its smoking quality and safty by bio-technology[J].Journal of Zhengzhou Institute of Technology, 2001(3):40-42,45. |
| [5] |
赵铭钦,岳雪梅,邱立友.微生物发酵增质剂对卷烟酸性组分含量及品质效应的影响[J].中国烟草科学,2000,21(1):11. ZHAO M Q,YUE X M,QIU L Y.Effect of microbial fermentation quality enhancer on acid component content and quality effect of cigarette[J].Chinese Tobacco Science,2000. ,21(1):11. |
| [6] |
黄申,芦尧,刘强,等.生物酶在烟草工业中的应用研究进展[J].轻工学报,2023,38(5):112-118. HUANG S,LU Y,LIU Q,et al.Review on application of biological enzymes in tobacco industry[J].Journal of Light Industry,2023,38(5):112-118. |
| [7] |
代丽,黄永成,宫长荣,等.密集式烘烤条件下不同变黄温湿度对烤后烟叶致香物质的影响[J].华北农学报,2008,23(6):148-152. DAI L,HUANG Y C,GONG C R,et al.Effects of different temperature and humidity yellowing conditions on aroma constituents of tobacco leaves during bulk curing[J].Acta Agriculturae Boreali-Sinica,2008,23(6):148-152. |
| [8] | |
| [9] |
国家烟草专卖局.烟草及烟草制品 总植物碱的测定 连续流动法:YC/T 160—2002[S].北京:中国标准出版社,2004. State Tobacco Monopoly Administration.Tobacco and tobacco products—Determination of total alkaloids—Continuous flow method:YC/T 160—2002[S].Beijing:Standards Press of China,2004. |
| [10] |
国家烟草专卖局.烟草及烟草制品 氯的测定 连续流动法:YC/T 162—2011[S].北京:中国标准出版社,2011. State Tobacco Monopoly Administration.Tobacco and tobacco products—Determination of chloride—Continuous flow method:YC/T 162—2011[S].Beijing:Standards Press of China,2011. |
| [11] |
国家烟草专卖局.烟草及烟草制品 钾的测定 连续流动法:YC/T 217—2007[S].北京:中国标准出版社,2007. State Tobacco Monopoly Administration.Tobacco and tobacco products—Determination of Potassium—Continuous flow method:YC/T 217—2007[S].Beijing:Standards Press of China,2007. |
| [12] |
国家烟草专卖局.烟草及烟草制品 水溶性糖的测定 连续流动法:YC/T 159—2019[S].北京:中国标准出版社,2019. State Tobacco Monopoly Administration.Tobacco and tobacco products—Determination of water soluble sugars—Continuous flow method:YC/T 159—2019[S].Beijing:Standards Press of China,2019. |
| [13] |
国家烟草专卖局.烟草及烟草制品 总氮的测定 连续流动法:YC/T 161—2002[S].北京:中国标准出版社,2004. State Tobacco Monopoly Administration.Tobacco and tobacco products—Determination of total nitrogen—Continuous flow method:YC/T 161—2002[S].Beijing:Standards Press of China,2004. |
| [14] |
国家市场监督管理总局,国家标准化管理委员会.感官分析 方法学 采用三点强迫选择法(3-AFC)测定嗅觉、味觉和风味觉察阈值的一般导则:GB/T 22366—2022[S].北京:中国标准出版社,2022. State Administration for Market Regulation,National Standardization Administration.Sensory analysis—Methodology—General guidance for measuring odour,flavour and taste detection thresholds by a three-alternative forced-choice (3-AFC)procedure:GB/T 2236—2022. [S].Beijing:Standards Press of China,2022. |
| [15] |
方嘉炜,严锦申,钟帅,等.毕节烟区不同产地烟叶的感官质量特征及关键香气成分[J].烟草科技,2024,57(8):21-31. FANG J W,YAN J S,ZHONG S,et al.Sensory quality characteristics and key aroma components of tobacco leaves from different tobacco planting areas in Bijie[J].Tobacco Science & Technology,2024,57(8):21-31. |
| [16] |
LIH H,QIN D,WU Z Y,et al.Characterization of key aroma compounds in Chinese Guojing sesame-flavor Baijiu by means of molecular sensory science[J].Food Chemistry,2019,284:100-107. |
| [17] |
李登科,田楠,田志章,等.应用顶空气相-离子迁移谱与相对气味活度值法分析卷烟特征香气物质[J].分析测试学报,2021,40(8):1164-1170. LI D K,TIAN N,TIAN Z Z,et al.Analysis of typical aromatic matters in cigarettes using headspace-gas chromatography-ion mobility spectroscopy combined with relative odor activity value[J].Journal of Instrumental Analysis,2021,40(8):1164-1170. |
| [18] |
倪超,宋小宁,张松杰,等.高碳基土壤修复肥对舞阳烟叶化学成分和致香物质的影响[J].江西农业学报,2017,29(12):63-67. NI C,SONG X N,ZHANG S J,et al.Effects of high-carbon-based soil remediation fertilizer on chemical constituents and aromatic substances of tobacco leaves in Wuyang area[J].Acta Agriculturae Jiangxi,2017,29(12):63-67. |
| [19] |
ELMENHORST H.The identification of maltol in cigarette smoke/nachweis von maltol in cigarettenrauch[J].Contributions to Tobacco Research,1971,6(2):70-73. |
| [20] |
史清照,李河霖,王超,等.卷烟烟气内源性花香成分分析及花香特征调控[J].烟草科技,2023,56(5):56-67. SHI Q Z,LI H L,WANG C,et al.Analysis of endogenous floral aroma components and regulation of floral aroma characteristics of mainstream cigarette smoke[J].Tobacco Science & Technology,2023,56(5):56-67. |
| [21] |
刘俊辉,杨春强,范武,等.卷烟烟气中7种香韵特征赋予组群的筛查[J].烟草科技,2019,52(4):44-50. LIU J H,YANG C Q,FAN W,et al.Screening of seven note character impact groups in cigarette smoke[J].Tobacco Science & Technology,2019,52(4):44-50. |
| [22] |
吴彦辉,薛立新,许自成,等.烤烟巨豆三烯酮研究现状与展望[J].中国农业科技导报,2013,15(3):150-156. WU Y H,XUE L X,XU Z C,et al.Research status and prospects of megastigmatrienone in flue-cured tobacco[J].Journal of Agricultural Science and Technology,2013,15(3):150-156. |
| [23] |
MOOKHERJEE B D,WILSON R A.Tobacco constituents-their importance in flaor and fragrance chemistry[J].Perfumer and Flavorist,1990,15:27-49. |
| [24] |
ZHAN J,ZHOU F F,ZHU H B,et al.Classification and distribution of common aroma components in tobacco leaf based on their physical and chemical properties[J].Agricultural Science & Technology,2013,14(9):1358-1364. |
| [25] |
张小慧,连梦瑶,李欢,等.不同品种辣椒挥发性香味物质的对比[J].食品工业,2023,44(12):119-125. ZHANG X H,LIAN M Y,LI H,et al.Comparison of volatile aroma substances in different varieties of pepper[J].The Food Industry,2023,44(12):119-125. |
| [26] |
李萌,王旭东,罗昭标,等.混菌固态发酵低次烟叶工艺优化及挥发性致香成分分析[J].河南农业科学,2022,51(9):171-180. LI M,WANG X D,LUO Z B,et al.Optimization of mixed microbial solid-state fermentation and analysis of volatile aroma components in low-grade tobacco leaves[J].Journal of Henan Agricultural Sciences,2022,51(9):171-180. |
| [27] |
杜康,张尉,顾丽莉,等.初烤烟叶中烟碱和新植二烯的提取工艺研究[J].核农学报,2021,35(6):1394-1401. DU K,ZHANG W,GU L L,et al.Study on extraction technology of nicotine and neophytadiene from flue-cured tobacco leaves[J].Journal of Nuclear Agricultural Sciences,2021,35(6):1394-1401. |
| [28] |
胡安福,范武,夏倩,等.卷烟主流烟气焦甜、奶香和豆香特征成分组群的分布特征和感官贡献[J].烟草科技,2020,53(12):27-36. HU A F,FAN W,XIA Q,et al.Distribution characteristics in mainstream cigarette smoke and sensory contributions of burnt-sweet,creamy and bean aroma components[J].Tobacco Science & Technology,2020,53(12):27-36. |
| [29] |
卢绍浩,谢永恒,许利平,等.基于OPLS-DA模型的雪茄烟叶香气差异分析[J].中国农业科技导报,2024,26(12):176-186. LU S H,XIE Y H,XU L P,et al.Differential analysis of aroma components of cigar tobacco leaves based on OPLS-DA model[J].Journal of Agricultural Science and Technology,2024,26(12):176-186. |
| [30] |
邵淑贤,徐梦婷,林燕萍,等.基于电子鼻与HS-SPME-GC-MS技术对不同产地黄观音乌龙茶香气差异分析[J].食品科学,2023,44(4):232-239. SHAO S X,XU M T,LIN Y P,et al.Differential analysis of aroma components of Huangguanyin oolong tea from different geographical origins using electronic nose and headspace solid-phase microextraction-gas chromatography-mass spectrometry[J].Food Science,2023,44(4):232-239. |
| [31] |
孙凤林,郝志峰.OPLS在非线性偏最小二乘回归模型的应用[J].计算机工程与设计,2010,31(12):2826-2829. SUN F L,HAO Z F.Application of OPLS in non-linear partial least squares regression model[J].Computer Engineering and Design,2010,31(12):2826-2829. |
| [32] |
杨志晓,夏海乾,蔡凯,等.特色烟草新品种贵烟28的选育及其特征特性[J].中国烟草科学,2024,45(5):1-7. YANG Z X,XIA H Q,CAI K,et al.Breeding and characteristics of a new special tobacco variety Guiyan28[J].Chinese Tobacco Science,2024,45(5):1-7. |
| [33] |
贾学伟,代玉祥,崔春,等.甘草固体颗粒香料的改良及卷烟加香应用[J].中国烟草学报,2025,31(1):30-39. JIA X W,DAI Y X,CUI C,et al.Improvement of licorice solid granular spice and its application in cigarette flavoring[J].Acta Tabacaria Sinica,2025,31(1):30-39. |