新疆五种蒿属植物的应用基础研究
|
摘要
本文对新疆五种蒿属植物—湿地蒿、黄花蒿、龙蒿、白叶蒿、北艾蒿进行了资源概况、比较解剖学、挥发性成分分析、浸膏含量比较、脂肪酸成分分析、总黄酮分析、芦丁含量及总黄酮含量比较、绿色素提取及其稳定性等方面的研究。根据比较解剖学研究可知:五种蒿属植物叶结构差异较大,其中龙蒿为等面叶,其它四种蒿为异面叶;茎结构、根结构在五种蒿属植物之间差异不大。首次采用气相色谱—质谱联用法对新疆五种蒿属植物挥发性成分进行了分析和研究,五种蒿属植物共鉴定出140种挥发性成分,其中27种化合物是它们共有的或分别共有的;五种蒿属植物挥发性成分中都有各自的优势成分,说明它们的主成分分布较集中;五种蒿属植物挥发性成分的种类和含量差异较大,在一种蒿中为主成分,在另一种蒿中可能为非主成分,充分体现了种间的差异性。五种蒿属植物浸膏颜色不完全相同;在取样相同情况下,果实和叶部位浸膏含量最高,茎浸膏含量次之,根浸膏含量最低,因此在提取浸膏时最佳部位可选择果实和叶部位;通过对五种蒿属植物全草浸膏含量比较可知:黄花蒿脂溶性物质含量最高,白叶蒿、湿地蒿、北艾蒿的脂溶性物质含量次之,龙蒿脂溶性物质含量最低。首次采用气相色谱法对新疆五种蒿属植物脂肪酸成分进行了分析,五种蒿属植物含多种脂肪酸,其含量因种的不同而有所差异。通过总黄酮的分析研究可知:五种蒿属植物茎中黄酮类化合物主要为黄酮类和黄酮醇类;首次采用双波长薄层扫描法测定了新疆五种蒿属植物茎中芦丁的含量;首次选用硝酸铝显色法,以芦丁做标品测定了新疆五种蒿属植物茎中总黄酮的含量,通过含量比较可知:五种蒿属植物茎中分别至少含黄酮3—4种;湿地蒿、龙蒿、白叶蒿、北艾蒿、黄花蒿茎中芦丁含量依次为0.262%、0.138%、0.131%、0.074%、0.066%;湿地蒿、黄花蒿、白叶蒿、北艾蒿、龙蒿茎中总黄酮含量依次为0.544%、0.491%、0.396%、0.339%、0.328%。首次采用溶剂萃取法提取了北艾蒿的绿色素,并对其稳定性进行了研究,通过研究可知:不同浓度的NaCl、Vc、K~+、Mg~(2+)、Ca~(2+)、葡萄糖、蔗糖、柠檬酸对北艾蒿叶绿素的影响不很明显;Na_2SO_3对该色素有明显影响;该色素不耐氧化;该色素使用和保存时应避免和铁、铜制容器接触。通过上述分析比较为五种蒿属植物的开发利用提供了科学依据。
The author studies the five species of Artemisia in Xinjiang , A. tournefortiana Reichb. , A. annua L. ,A. dracunculus L. ,A. leucophylla (Turcz.ex Bess.) Clarke ,A. vulgaris L. in resource ,comparative anatomy ,volatility composition analysis ,extractive content comparison , fatty acid composition analysis , total flavonoids analysis , rutin content and total flavonoids content comparison ,extraction and stability of the green pigment and etc .According to the research of comparative anatomy , the difference of leaf structure of A. tournefortiana Reichb. , A. annua L. , A. dracunculus L. , A. leucophylla (Turcz.ex Bess.) Clarke , A. vulgaris L. is evident .Among them the leaf of A.dracunculus L. is isobilateral leaf , the ones of the other four species are bifacial leaves .But the structure of the stems and roots of the five species has no evident difference . For the first time the volatility compositions of the five species of Artemisia in Xinjiang are analysed and studied by GC-MS , the 140 com
ponents are identified , the 27 compounds are mutual among or between them .Each of them has individual superiority component in themselves compositions ,explaining that their main compositions distribute more concentratedly .The difference of sorts and contents of volatility composition of the five species from Artemisia is evident , and it is a main component in one species, and probably it is a non-main component in another species, having fully embodied difference between them .The extractive colour in the five species of Artemisia is not identical completely .Taking a sample under the identical circumstances ,the extraction content of the fruit and leaf is the highest ,that of the stern is the second place ,and that of the root is the lowest ,thus the position of the fruit and leaf can be selected in the optimum place when extraction is extracted .Through comparing the extraction content of the whole herbal of them ,the slush of Aannua L. is the highest ,that of A.leucophylla (Turcz.exBess.) Clarke, A.t
ournefortianaReichb., A. vulgaris L. is the second place, and that of A.dracunculus L. is the lowest .For the first time the fatty acid compositions of the five species of Artemisia are analysed by the gas chromatography, and there are many kinds of fatty acid components in them, the amount of them is different from different species . Through analysing the components of the total flavonoids ,it is known that compounds of flavonoids of their stems are the flavone and flavonol. For the first time the rutin contents of their stems are ascertained by the dual-wavelength thin layer scanning, and the contents of the total
flavonoids of the stems from the five species of Artemisia are determinted by the A1(NO3)3 color , and rutin as the standard pattern . It is known with contents ,the stem of the five species of Artemisia has 3-4 kinds flavonoids at least .The rutin content of the stems in A.tournefortiana Reichb. , A. dracunculus L. ,A. leucophylla (Turcz. ex Bess.) Clarke , A.vulgaris L. ,A. annua L. is 0.262% , 0.138% , 0.131% , 0.074% , 0.066% in turn .The total flavonoids content in A. tournefortiana Reichb., A.annua L. ,A. leucophylla(Turcz. ex Bess.)Clarke , A.vulgaris L. , A.dracunculus L. is 0.544% , 0.491% , 0.396% ,0.339% , 0.328% in turn .For the first time the green pigment of A.vulgaris L.is extracted by the solventing extraction, and the stability of it is studied too .The influence on the green pigment of A.vulgaris L. is not very clear from the different thickness NaCl ,Vc ,K+ ,Mg2+ ,Ca2+ ,glucose,sucrose and citric acid .There is a clear influence on the green pigment of A.vulgaris L. from Na2SO3 .The green
pigment can not endure oxide .As using and preserving the green pigment ,it should be avoided contacting iron and copper container .It provides the science gist for the development and utlization of the five species of Artemisia in Xinjiang through the mentioned above.
The author studies the five species of Artemisia in Xinjiang , A. tournefortiana Reichb. , A. annua L. ,A. dracunculus L. ,A. leucophylla (Turcz.ex Bess.) Clarke ,A. vulgaris L. in resource ,comparative anatomy ,volatility composition analysis ,extractive content comparison , fatty acid composition analysis , total flavonoids analysis , rutin content and total flavonoids content comparison ,extraction and stability of the green pigment and etc .According to the research of comparative anatomy , the difference of leaf structure of A. tournefortiana Reichb. , A. annua L. , A. dracunculus L. , A. leucophylla (Turcz.ex Bess.) Clarke , A. vulgaris L. is evident .Among them the leaf of A.dracunculus L. is isobilateral leaf , the ones of the other four species are bifacial leaves .But the structure of the stems and roots of the five species has no evident difference . For the first time the volatility compositions of the five species of Artemisia in Xinjiang are analysed and studied by GC-MS , the 140 com
ponents are identified , the 27 compounds are mutual among or between them .Each of them has individual superiority component in themselves compositions ,explaining that their main compositions distribute more concentratedly .The difference of sorts and contents of volatility composition of the five species from Artemisia is evident , and it is a main component in one species, and probably it is a non-main component in another species, having fully embodied difference between them .The extractive colour in the five species of Artemisia is not identical completely .Taking a sample under the identical circumstances ,the extraction content of the fruit and leaf is the highest ,that of the stern is the second place ,and that of the root is the lowest ,thus the position of the fruit and leaf can be selected in the optimum place when extraction is extracted .Through comparing the extraction content of the whole herbal of them ,the slush of Aannua L. is the highest ,that of A.leucophylla (Turcz.exBess.) Clarke, A.t
ournefortianaReichb., A. vulgaris L. is the second place, and that of A.dracunculus L. is the lowest .For the first time the fatty acid compositions of the five species of Artemisia are analysed by the gas chromatography, and there are many kinds of fatty acid components in them, the amount of them is different from different species . Through analysing the components of the total flavonoids ,it is known that compounds of flavonoids of their stems are the flavone and flavonol. For the first time the rutin contents of their stems are ascertained by the dual-wavelength thin layer scanning, and the contents of the total
flavonoids of the stems from the five species of Artemisia are determinted by the A1(NO3)3 color , and rutin as the standard pattern . It is known with contents ,the stem of the five species of Artemisia has 3-4 kinds flavonoids at least .The rutin content of the stems in A.tournefortiana Reichb. , A. dracunculus L. ,A. leucophylla (Turcz. ex Bess.) Clarke , A.vulgaris L. ,A. annua L. is 0.262% , 0.138% , 0.131% , 0.074% , 0.066% in turn .The total flavonoids content in A. tournefortiana Reichb., A.annua L. ,A. leucophylla(Turcz. ex Bess.)Clarke , A.vulgaris L. , A.dracunculus L. is 0.544% , 0.491% , 0.396% ,0.339% , 0.328% in turn .For the first time the green pigment of A.vulgaris L.is extracted by the solventing extraction, and the stability of it is studied too .The influence on the green pigment of A.vulgaris L. is not very clear from the different thickness NaCl ,Vc ,K+ ,Mg2+ ,Ca2+ ,glucose,sucrose and citric acid .There is a clear influence on the green pigment of A.vulgaris L. from Na2SO3 .The green
pigment can not endure oxide .As using and preserving the green pigment ,it should be avoided contacting iron and copper container .It provides the science gist for the development and utlization of the five species of Artemisia in Xinjiang through the mentioned above.
引文
[1]林有润.论世界蒿属植物区系[J].植物研究1995,15(1):1—37
[2]中国科学院中国植物志编辑编委会.中国植物志第76卷第2分册[M].北京:科学出版社,1991
[3]新疆植物志编辑委员会.新疆植物志第五卷[M].乌鲁木齐:新疆科技卫生出版社,1999:146.188
[4]王笳、赵联甲、杨丽莉等.茵陈蒿精油化学成分研究[J].中国野生植物资源1996,3:37-38
[5]顾静文、刘立鼎、陈京达等.艾蒿和野艾蒿精油的化学成分[J].江西科学1998,16(4):2783-276
[6]陈靖、陈庆之.福建崇安黄花蒿精油成分分析[J].中国野生植物资源1997,17(1):45-46
[7]王国亮、朱信强、袁萍等.湖北产黄花蒿精油化学成分研究[J].武汉植物学研究1994,12(4):375-378
[8]郑维发、谭仁祥、刘志礼等.八种蒿属植物石油醚提取物中萜类成分分析[J].南京大学学报1996,32(4):706-711
[9]赵青、王嵩森、侯振富.白沙蒿挥发油成分研究[J].兰州大学学报(自然科学版)2000,36(4):45-49
[10]白银娟、师彦平、胡幼华等.毛莲蒿化学成分研究[J].兰州大学学报(自然科学版)1995,31(1):1258-126
[11]师治贤、袁希召.毛细管气相色谱法研究牛尾蒿精油化学成分[J].植物学报1982,24(2):159-163
[12]师治贤、张金霞、顾文华等.蒙古蒿精油化学成分的研究[J].植物学报1987,29(4):674-676
[13]方洪钜、胡秋、马娅平等.白花蒿挥发油化学成分的研究[J].兰州大学学报(自然科学版)2000,36(4):45-49
[14]刘群.黄花蒿花序精油化学成分初步分析[J].植物学报1988,30(2):223-225
[15]朱亮锋、陆碧瑶、罗友娇等.艾蒿和艾蒿精油化学成分的研究[J].云南植物学研究1985,7(4):443-445
[16]顾静文、刘立鼎、陈京达等.铁杆蒿精油的化学成分[J].江西科学1999,3(17):187-189
[17]李连胃、喜进安、刘宗才等.毛莲蒿挥发油成分研究[J].河南农业大学学报1998,2(32):196-198
[18]颜世芬、梁冰、李菊白等.黑沙蒿微量元素及精油的化学成分研究[J].分析实验室1994,3(13):82-84
[19]吴信子、王思宏、方英玉等.黄蒿中挥发油成分的分析[J].延边大学学报(自然科学版)1997,23(2):35—38
[20]刘立鼎、顾静文、陈京达等,黄花蒿和青蒿精油的化学成分[J].江西科学1996,14(4):234—238
[21]谢怡孙、袁梦仙、李保同等.蒌蒿精油的杀虫活性与化学成分研究[J].江西植保2001,24(4):105—108
[22]安长新、钟近洁、堵年生等.椒蒿挥发油GC—MS分析[J].新疆医科大学学报2001,24(2):162
[23]周峰、秦路平、连佳芳等.艾叶的化学成分、生物活性和植物资源[J].天然药物2000,18(2):96-98
[24]防治慢性气管炎艾叶油研究协作组.艾叶油及其有效成分的药理研究[J].医药工业
1977,11:5
[25]肖培根主编.新编中药志第三卷[M].北京:化学工业出版社2002,1:239-241
[26]年华、郑汉臣、秦路平等.奇蒿的研究进展[J].天然药物化学2002,5(20):305-309
[27]国家医药管理局中草药情报中心站编.植物药有效成分手册[M].北京:人民卫生出版社1986,3
[28]周志宇主编.阿拉善荒漠草地类初级营养类型研究[M].兰州:甘肃科学技术出版社1990:146-147
[29]哈斯巴根、陈山、满都拉等.蒙古族利用冷蒿的民族植物学研究[J].内蒙古师大学报(自然科学版)1994,2:59-65
[30]张继、马君义、姚健等.黑沙蒿资源的综合开发利用研究[J].中国野生植物资源2003,22(1):27—29
[31]赵兵、王玉春、欧阳潘.青蒿素生物合成机理研究现状[J].广西植物1999,19(2):154-158
[32]刘春朝、王玉春、欧阳潘.青蒿素研究进展[J].化学进展1999,11(1):41-48
[33]路洪顺.黄花蒿的开发利用价值与栽培技术[J].中国林副特产2002,1:6—8
[34]商风杰、杜晓琪、刘桂杰.我国东北蒿属药用植物资源极其利用[J].中国林副特产1997,3:58—59
[35]邹晓葵、汪勤、江汉湖等.利用野生植物资源萎蒿制作蒿茶的研究[J].中国野生植物资源1996,4:22-25
[36]崔乃然主编.新疆主要饲用植物志第二册[M].乌鲁木齐:新疆科技卫生出版社1994,11:262-273
[37]郭柯.毛乌素沙地油蒿群落的循环演替[J].植物生态学报2000,24(2):243-247
[38]王庆锁、梁艳英.油蒿群落植物多样性动态[J].中国沙漠1997,17(2):159-163
[39]赖芳兰、邹桂花.蕃阳湖藜蒿的特性及繁殖方法的研究[J].江西农业大学学报1998,20(2):247-251
[40]宋宏新、杨大庆.沙蒿籽的油脂、胶质及综合利用研究[J].食品科技2002,7:72-74
[41]白寿宁、云秀芳.沙蒿开发利用探讨[J].粮食与油脂2000,3:31-33
[42]张宝田、王德利、杨允菲.黄蒿生物学特性及生物量动态的研究[J].中国草地2002,24(1):13-17
[43]周海燕.水分胁迫对冷蒿和差不嘎蒿体内水分状况的影响[J].中国沙漠1999,19(supp.1):26-29
[44]王海鸥、周瑞莲.高温胁迫下差不嘎蒿和冷蒿的生理变化极其抗热性研究[J].中国沙漠1999,19(supp.1):55-58
[45]赵爱芬、周海燕.沙地冷蒿种群的耐牧机理研究初报[J].中国沙漠1999,19(supp.1):65-68
[46]蒋林、林有润.中国蒿属植物比较形态和解剖学研究[J].钟恺农业技术学院学报1997,10(1):12—23
[47]潘晓玲.新疆种子植物属的区系地理成分分析[J].植物研究1999,19(3):250—257
[48]丛浦珠.质谱学在天然有机化学中的应用[M].北京:科学出版社1987:329—638
[49]肖崇厚.中药化学[M].上海科学技术出版社,1985
[50]王兰珍、马希汉、王姝清等.元宝枫叶总黄酮提取方法研究[J].西北林学院学报1997,12(4):64—67
[51]邓丹雯、郑功源、方续平.藜蒿黄酮提取方法研究[J].天然产物研究与开发2001,6(13):48-51
[52]赵伯涛、钱骅、薛辉等. 芦蒿花总黄酮提取工艺的研究[J].中国野生植物资源2001,6(20):55-56
[53]陈新、叶文峰、刘秀娟.蒌蒿素原粉中总黄酮的提取及含量测定[J].江西师范大学学报(自然科学版)2000,2(24):164-166
[54]J、B哈本主编.黄酮类化合物[M].北京:科学出版社1983
[55]宿艳萍、曹志强、于锡刚等.多不饱和脂肪酸的功效及来源[J].人参研究2001,13(4):7—9
[56]刘倩、李占杰、谢曼丹等.芥末种子中脂肪酸的G C—M S分析[J].分析测试学报2001,20(3):49—50
[57]王印基.中国粮油食品[M].1986,3:10
[58]熊正英、张崇旭、郑毅.多不饱和脂肪酸与运动[J].青海师范大学学报(自然科学版)2002,3:67—70
[59]罗湘宁.植物油脂脂肪酸的研究及展望[J],青海科技1998,5(3):4—4
[60]唐传核、徐建祥、彭志英.脂肪酸营养与功能的最新研究[J].中国油脂2000,25(6):20—23
[61]中国科学院上海药物研究所编著.中草药有效成分提取与分离[M].上海科技出版社1983,135—150
[62]王英典、刘宁主编.植物生物学实验指导[M].北京:高等教育出版社2001,6:56—57
[63]Satar S. Chemical Characterization of Essential Oils from Mongolian Species of The Genus Artimisia[J]. Pharmazie1986, 41(11):819-820
[64]Jenningss Wet al. Qualitative Analysis of Flavor and Fragrance Volatices by Glass Capillary Gas Chromatography[M]. New York: N, Y. Academic Press, 1980
[65]Heller SR. EPA/NIH/MS Spectral Date Base[M].New York:U.S.Govemment Printing Office1978 (1-2):84-222
[66]guberto G, Biondi D, Piatelli M Composition of volatile Oil ofCrithmum Maritimum L. Flavour Fragrance[J].1991, 6(2):121-123
[67]Weyerstahl P. Goldsack R.J. The Essential Oil of Artemisia Moorcrofliana Wall. Flavour Fragrance[J]. 1992, 7(2):73-77
[68]Adams RP. Identification of Essential Oils by Ion Trap Mass Spectroscopy [M].San Diego :Academic Press 1989:208—280
[69]Masada Y. Analysis of Essential Oils by Gas Chromatography and Mass Spetrometry [M]. New York: John Wiley and Sons Inc1967:48—270
[2]中国科学院中国植物志编辑编委会.中国植物志第76卷第2分册[M].北京:科学出版社,1991
[3]新疆植物志编辑委员会.新疆植物志第五卷[M].乌鲁木齐:新疆科技卫生出版社,1999:146.188
[4]王笳、赵联甲、杨丽莉等.茵陈蒿精油化学成分研究[J].中国野生植物资源1996,3:37-38
[5]顾静文、刘立鼎、陈京达等.艾蒿和野艾蒿精油的化学成分[J].江西科学1998,16(4):2783-276
[6]陈靖、陈庆之.福建崇安黄花蒿精油成分分析[J].中国野生植物资源1997,17(1):45-46
[7]王国亮、朱信强、袁萍等.湖北产黄花蒿精油化学成分研究[J].武汉植物学研究1994,12(4):375-378
[8]郑维发、谭仁祥、刘志礼等.八种蒿属植物石油醚提取物中萜类成分分析[J].南京大学学报1996,32(4):706-711
[9]赵青、王嵩森、侯振富.白沙蒿挥发油成分研究[J].兰州大学学报(自然科学版)2000,36(4):45-49
[10]白银娟、师彦平、胡幼华等.毛莲蒿化学成分研究[J].兰州大学学报(自然科学版)1995,31(1):1258-126
[11]师治贤、袁希召.毛细管气相色谱法研究牛尾蒿精油化学成分[J].植物学报1982,24(2):159-163
[12]师治贤、张金霞、顾文华等.蒙古蒿精油化学成分的研究[J].植物学报1987,29(4):674-676
[13]方洪钜、胡秋、马娅平等.白花蒿挥发油化学成分的研究[J].兰州大学学报(自然科学版)2000,36(4):45-49
[14]刘群.黄花蒿花序精油化学成分初步分析[J].植物学报1988,30(2):223-225
[15]朱亮锋、陆碧瑶、罗友娇等.艾蒿和艾蒿精油化学成分的研究[J].云南植物学研究1985,7(4):443-445
[16]顾静文、刘立鼎、陈京达等.铁杆蒿精油的化学成分[J].江西科学1999,3(17):187-189
[17]李连胃、喜进安、刘宗才等.毛莲蒿挥发油成分研究[J].河南农业大学学报1998,2(32):196-198
[18]颜世芬、梁冰、李菊白等.黑沙蒿微量元素及精油的化学成分研究[J].分析实验室1994,3(13):82-84
[19]吴信子、王思宏、方英玉等.黄蒿中挥发油成分的分析[J].延边大学学报(自然科学版)1997,23(2):35—38
[20]刘立鼎、顾静文、陈京达等,黄花蒿和青蒿精油的化学成分[J].江西科学1996,14(4):234—238
[21]谢怡孙、袁梦仙、李保同等.蒌蒿精油的杀虫活性与化学成分研究[J].江西植保2001,24(4):105—108
[22]安长新、钟近洁、堵年生等.椒蒿挥发油GC—MS分析[J].新疆医科大学学报2001,24(2):162
[23]周峰、秦路平、连佳芳等.艾叶的化学成分、生物活性和植物资源[J].天然药物2000,18(2):96-98
[24]防治慢性气管炎艾叶油研究协作组.艾叶油及其有效成分的药理研究[J].医药工业
1977,11:5
[25]肖培根主编.新编中药志第三卷[M].北京:化学工业出版社2002,1:239-241
[26]年华、郑汉臣、秦路平等.奇蒿的研究进展[J].天然药物化学2002,5(20):305-309
[27]国家医药管理局中草药情报中心站编.植物药有效成分手册[M].北京:人民卫生出版社1986,3
[28]周志宇主编.阿拉善荒漠草地类初级营养类型研究[M].兰州:甘肃科学技术出版社1990:146-147
[29]哈斯巴根、陈山、满都拉等.蒙古族利用冷蒿的民族植物学研究[J].内蒙古师大学报(自然科学版)1994,2:59-65
[30]张继、马君义、姚健等.黑沙蒿资源的综合开发利用研究[J].中国野生植物资源2003,22(1):27—29
[31]赵兵、王玉春、欧阳潘.青蒿素生物合成机理研究现状[J].广西植物1999,19(2):154-158
[32]刘春朝、王玉春、欧阳潘.青蒿素研究进展[J].化学进展1999,11(1):41-48
[33]路洪顺.黄花蒿的开发利用价值与栽培技术[J].中国林副特产2002,1:6—8
[34]商风杰、杜晓琪、刘桂杰.我国东北蒿属药用植物资源极其利用[J].中国林副特产1997,3:58—59
[35]邹晓葵、汪勤、江汉湖等.利用野生植物资源萎蒿制作蒿茶的研究[J].中国野生植物资源1996,4:22-25
[36]崔乃然主编.新疆主要饲用植物志第二册[M].乌鲁木齐:新疆科技卫生出版社1994,11:262-273
[37]郭柯.毛乌素沙地油蒿群落的循环演替[J].植物生态学报2000,24(2):243-247
[38]王庆锁、梁艳英.油蒿群落植物多样性动态[J].中国沙漠1997,17(2):159-163
[39]赖芳兰、邹桂花.蕃阳湖藜蒿的特性及繁殖方法的研究[J].江西农业大学学报1998,20(2):247-251
[40]宋宏新、杨大庆.沙蒿籽的油脂、胶质及综合利用研究[J].食品科技2002,7:72-74
[41]白寿宁、云秀芳.沙蒿开发利用探讨[J].粮食与油脂2000,3:31-33
[42]张宝田、王德利、杨允菲.黄蒿生物学特性及生物量动态的研究[J].中国草地2002,24(1):13-17
[43]周海燕.水分胁迫对冷蒿和差不嘎蒿体内水分状况的影响[J].中国沙漠1999,19(supp.1):26-29
[44]王海鸥、周瑞莲.高温胁迫下差不嘎蒿和冷蒿的生理变化极其抗热性研究[J].中国沙漠1999,19(supp.1):55-58
[45]赵爱芬、周海燕.沙地冷蒿种群的耐牧机理研究初报[J].中国沙漠1999,19(supp.1):65-68
[46]蒋林、林有润.中国蒿属植物比较形态和解剖学研究[J].钟恺农业技术学院学报1997,10(1):12—23
[47]潘晓玲.新疆种子植物属的区系地理成分分析[J].植物研究1999,19(3):250—257
[48]丛浦珠.质谱学在天然有机化学中的应用[M].北京:科学出版社1987:329—638
[49]肖崇厚.中药化学[M].上海科学技术出版社,1985
[50]王兰珍、马希汉、王姝清等.元宝枫叶总黄酮提取方法研究[J].西北林学院学报1997,12(4):64—67
[51]邓丹雯、郑功源、方续平.藜蒿黄酮提取方法研究[J].天然产物研究与开发2001,6(13):48-51
[52]赵伯涛、钱骅、薛辉等. 芦蒿花总黄酮提取工艺的研究[J].中国野生植物资源2001,6(20):55-56
[53]陈新、叶文峰、刘秀娟.蒌蒿素原粉中总黄酮的提取及含量测定[J].江西师范大学学报(自然科学版)2000,2(24):164-166
[54]J、B哈本主编.黄酮类化合物[M].北京:科学出版社1983
[55]宿艳萍、曹志强、于锡刚等.多不饱和脂肪酸的功效及来源[J].人参研究2001,13(4):7—9
[56]刘倩、李占杰、谢曼丹等.芥末种子中脂肪酸的G C—M S分析[J].分析测试学报2001,20(3):49—50
[57]王印基.中国粮油食品[M].1986,3:10
[58]熊正英、张崇旭、郑毅.多不饱和脂肪酸与运动[J].青海师范大学学报(自然科学版)2002,3:67—70
[59]罗湘宁.植物油脂脂肪酸的研究及展望[J],青海科技1998,5(3):4—4
[60]唐传核、徐建祥、彭志英.脂肪酸营养与功能的最新研究[J].中国油脂2000,25(6):20—23
[61]中国科学院上海药物研究所编著.中草药有效成分提取与分离[M].上海科技出版社1983,135—150
[62]王英典、刘宁主编.植物生物学实验指导[M].北京:高等教育出版社2001,6:56—57
[63]Satar S. Chemical Characterization of Essential Oils from Mongolian Species of The Genus Artimisia[J]. Pharmazie1986, 41(11):819-820
[64]Jenningss Wet al. Qualitative Analysis of Flavor and Fragrance Volatices by Glass Capillary Gas Chromatography[M]. New York: N, Y. Academic Press, 1980
[65]Heller SR. EPA/NIH/MS Spectral Date Base[M].New York:U.S.Govemment Printing Office1978 (1-2):84-222
[66]guberto G, Biondi D, Piatelli M Composition of volatile Oil ofCrithmum Maritimum L. Flavour Fragrance[J].1991, 6(2):121-123
[67]Weyerstahl P. Goldsack R.J. The Essential Oil of Artemisia Moorcrofliana Wall. Flavour Fragrance[J]. 1992, 7(2):73-77
[68]Adams RP. Identification of Essential Oils by Ion Trap Mass Spectroscopy [M].San Diego :Academic Press 1989:208—280
[69]Masada Y. Analysis of Essential Oils by Gas Chromatography and Mass Spetrometry [M]. New York: John Wiley and Sons Inc1967:48—270