一种植物源杀菌剂的研制及其在番茄叶霉病防治中的应用
|
摘要
植物源农药因其高效、低毒、低残留及与环境和谐性而受到社会青睐。本研究运用菌丝生长速率法对31种中、草药单剂的水提物进行了抑菌活性的测定,其中猪胆汁、金银花、连翘等提取液抑菌效果较好。在单剂筛选的基础上,利用几种中、草药如苦参、苍耳子和蛇床子等配制成中草药复合制剂LS-1,研究了LS-1抑菌范围、助剂筛选、持效期、药效稳定性及对作物生长的影响,并进行了番茄叶霉病田间的防治效果试验。结果表明,LS-1对大豆疫霉(Phytophthora sojae)、南瓜疫霉(Phytophthora capsici)、辣椒疫霉(Phytophthora capsici)、禾谷镰刀菌(Fusarium graminicola)的菌丝生长抑制率达到100%;对番茄灰霉病菌(Botrytis cinerea)、烟草赤星病菌(Alternaria alternata)、番茄枯萎病菌(Fusarium oxysporum Schlecht.)和番茄早疫病菌(Alternaria solani)菌丝生长抑制率分别达到86.24%、90.96%、75.04%和97.94%;对番茄枯萎病菌(F.oxysporum Schlecht.)、烟草赤星病菌(A.alternata)、辣椒疫霉(P.capsici)和稻瘟病菌(Pyricularia oryzae)的孢子及黄瓜霜霉病菌(Pseadoperonospora cubensis)孢子囊的萌发也有较强的抑制作用,试验结果表明该制剂具有一定的广谱性,尤其对疫霉属真菌如大豆疫霉(P.sojae)、南瓜疫霉(P.capsici)和辣椒疫霉(P.capsici)有特效。LS-1对黄瓜、辣椒和番茄的种子发芽率及苗期形态无影响。LS-1不加助剂对黄瓜炭疽病接种防治效果达到98.35%,LS-1对黄瓜白粉病和小麦白粉病分别选择助剂吐温80、8209,接种防治效果达84.09%和87.59%。LS-1在浓度为0.04g/ml时对番茄叶霉病的田间防治效果达到88.29%,与常用的化学药剂甲基托布津(0.00125g/ml)防治效果相当。LS-1常温下保存9个月期间,定期测定其对烟草赤星病菌(A.alternata)、番茄枯萎病菌(F.oxysporum Schlecht.)、辣椒疫霉(P.capsici)、大豆疫霉(P.sojae)及南瓜疫霉(P.capsici)抑菌活性,结果表明不同时期抑菌效果无显著差异,具有一定的稳定性。
Environmental-friendly Botanical Fungicide was widely welcomed in the world due to its higher efficiency, lower residue and accordance with the environment. In this paper, inhibitory activities of 31 water extracts from Chinese traditional medicine had been mensurated according to mycelium growth. An ideal effect had been acquired from Honeysuckle, Fructus Forsythiae, Bulbus Allii, choler. LS-1 was exploited from water extracts of several kinds of botanical mixture such as Light-yellow Sophora, Fructus Xanthii, Monnier's Snowparsley,etc.. LS-1 was made up on the base and carried out studies of fungicidal activity, Scope of inhibitory fungi, filtering adjuvant, period of preserving efficiency, stability of LS-1, effect of crop growth, control effect of Tomato Leaf Mould had been studied. LS-1 had 100% inhibitory rates to mycelium growth of Fusarium graminicola, Phytophthora capsici, Phytophthora sojae, and inhibitory rates of 86.24%, 90.96%, 75.04% and 97.94% to Botrytwas cinerea, Alternaria altemata, Fusarium oxysporum, Alternaria solani; LS-1 could inhibit sprouting and generating of the spores(sporangium) such as Phytophthora capsici ,Fusarium graminicola, etc. Especially, LS-1 had a better effect on fungus of Phytophthora. So an ideal effect had been acquired from LS-1 indoor. The influence of LS-1 on cucumber, pepper and tomato seedlings had been tested. The injury to their normal growth using LS-1 had not happened. Adjuvant of LS-1 had been filtered, when Tween 80 was used to Cucumber Powdery Mildew, original LS-1 to Cucumber Anthracnose, 8209 to Wheat Powdery Mildew, the results showed that Control effect was up to 84.09%,98.35% and 87.59%. Control effect of LS-1 on Tomato Leaf Mould in the field was up to 88.29%. Its effect was close to usual chemical medicine. Efficiency to inhibitory growth of fungous mycelium such as Alternaria altemata , Fusarium oxysporum , Phytophthora capsici, Phytophthora sojae had not change in different period During LS-1 had been preserved for nine months
Graduate: Li Yonggang Majorplant pathology Supervisor: Vice Prof. Wen Jingzhi
Environmental-friendly Botanical Fungicide was widely welcomed in the world due to its higher efficiency, lower residue and accordance with the environment. In this paper, inhibitory activities of 31 water extracts from Chinese traditional medicine had been mensurated according to mycelium growth. An ideal effect had been acquired from Honeysuckle, Fructus Forsythiae, Bulbus Allii, choler. LS-1 was exploited from water extracts of several kinds of botanical mixture such as Light-yellow Sophora, Fructus Xanthii, Monnier's Snowparsley,etc.. LS-1 was made up on the base and carried out studies of fungicidal activity, Scope of inhibitory fungi, filtering adjuvant, period of preserving efficiency, stability of LS-1, effect of crop growth, control effect of Tomato Leaf Mould had been studied. LS-1 had 100% inhibitory rates to mycelium growth of Fusarium graminicola, Phytophthora capsici, Phytophthora sojae, and inhibitory rates of 86.24%, 90.96%, 75.04% and 97.94% to Botrytwas cinerea, Alternaria altemata, Fusarium oxysporum, Alternaria solani; LS-1 could inhibit sprouting and generating of the spores(sporangium) such as Phytophthora capsici ,Fusarium graminicola, etc. Especially, LS-1 had a better effect on fungus of Phytophthora. So an ideal effect had been acquired from LS-1 indoor. The influence of LS-1 on cucumber, pepper and tomato seedlings had been tested. The injury to their normal growth using LS-1 had not happened. Adjuvant of LS-1 had been filtered, when Tween 80 was used to Cucumber Powdery Mildew, original LS-1 to Cucumber Anthracnose, 8209 to Wheat Powdery Mildew, the results showed that Control effect was up to 84.09%,98.35% and 87.59%. Control effect of LS-1 on Tomato Leaf Mould in the field was up to 88.29%. Its effect was close to usual chemical medicine. Efficiency to inhibitory growth of fungous mycelium such as Alternaria altemata , Fusarium oxysporum , Phytophthora capsici, Phytophthora sojae had not change in different period During LS-1 had been preserved for nine months
Graduate: Li Yonggang Majorplant pathology Supervisor: Vice Prof. Wen Jingzhi
引文
1 白志诚,张祝莲等.植物性农药的发展[J].延安大学学报,1995,14(4):1~8
2 操海群,岳永德,花日茂等.植物源农药研究进展[J],安徽农业大学学报,2000,27(1):40~44
3 陈培培等.四种常见红树植物抑制植物病原真菌效能的评价[J].天然产物研究与开发,1994,6(1):5~10
4 陈昕,等.人参皂甙Rb_1的肠内菌的代谢[J].药学学报,1999,34:410~414
5 陈昕,等.人参皂甙Rb_1的在大鼠肠内菌的代谢吸收入血成分的研究[J].药学学报,1999,34:481~483
6 储茂泉,古宏晨等.中草药浸提过程的动力学模型[J].中草药,2000,31(7):504~506
7 杜小凤,徐建明.植物源农药研究进展[J].农药,2000,39(11):8~10
8 范培军,张镜澄等.芫妥子的超临界CO_2流体萃取研究[J].天然产物研究与开发,1995,7(3):33~36
9 方德秋,肖顺元.柠檬醛及香精油的抗菌性研究概述[J].天然产物研究与开发,1994,6(4):75~77
10 方仲达.植病研究方法[M].第3版.北京:中国农业出版社.1998:152
11 费有春.简明词典[M].北京:化学工业出版社,1985.26
12 冯理,程亚青等.植物保护与农业可持续发展[J].甘肃农业科技,1998,8:1~3
13 郭孝武.一种提取中草药化学成分的方法—超声提取法[J].天然产物研究与开发,2000,11(3):37~40
14 郭兴启,朱汉城等,大黄提取物对番茄花叶病毒(ToMV)病防治作用的研究[J].山东农业大学学报,1998,29(2):171~175
15 果德安,陈道峰,邱峰.我国中药基础研究现状与未来应重点研究的领域[M].药学科学前沿现状与发展方向,中国医药科技出版社,2000:117~123
16 郝小江,沈月毛.我国未来的天然药物研究[J].药学科学前沿现状与发展方向,中国医药科技出版社,2000:85~89
17 何康等.中国农业百科全书,农药卷[M].农业出版社,1993年
18 侯玉霞,李重九,马立新等.中草药中抗植物病毒TMV活性PZ1作用机理研究[J].中国农业大学学报,2000,5(1):21~24
19 华南农业大学.植物化学保护(第二版)[M].北京:中国农业出版社,1994
20 黄梁绮龄,苏美玲.香港地区红树植物资源研究(Ⅰ)四种常见红树植物抑制植物病原真菌效能的评价[J],天然产物研究与开发,1994a,6(1):5~8
21 黄梁绮龄,苏美玲.香港地区红树植物资源研究(Ⅱ)红树植物 Lumintzera racemosd(榄李)抑制植物真菌有效成分的分离与鉴定[J].天然产物研究与开发,1994b,6(3):6~10
22 江建云.植物性农药研究进展[J].湖南农业科学,1991,6:43~46
23 江绍玫.植物源无公害农药研究开发现状[J].江西农业大学学报,2000,22(1):140~142
24 将继志,史娟,赵丽坤等.几种植物提取物诱导马铃薯对致病疫霉的抗性.植物病理学
报,2001,31(2):145~151
25 蒋细良,谢德龄.农用抗生素的作用机理[J].生物防治通报,1994,10(2)76~81
26 蒋细良,朱昌雄等.抗生素除草剂M-22除草效果的初步评价[J].中国生物防治,2001,1:47~49
27 康卓.中国生物源农药产业化进展[J].农药,2001,40(3):4~8
28 李军,冯耀声.超临界二氧化碳萃取茶多酚的研究[J].天然产物研究与开发,1996,8(3):42~47
29 李永刚,文景芝.植物源杀菌剂研究现状与进展[J].东北农业大学学报,2002,33(2):198~201
30 李玉平,慕小倩等.几种菊科植物杀菌活性的初步研究[J].西北农林科技大学学报,2002,30(1):68~72
31 李玉平.菊科植物杀菌活性系统筛选的初步研究[J].陕西杨陵:西北农林科技大学生命科学学院,2001
32 李中岳,李郁柏.开展生物农药前景广阔[J].技术监督实用技术,1997,5:20
33 梁训生,谢联辉.植物病毒学[M].北京:农业出版社,1994.154~155
34 林存銮,裘维蕃.一些植物抽提物对黄瓜花叶病毒的治疗作用[J],植物保护学报,1987,14(4):217~220
35 林捷,吴锦涛等.柚皮提取物的抑菌作用研究[J].华南农业大学学报,1999,20(3):59~42
36 林孔勋.杀菌剂毒理学[M].北京:中国农业出版社,1989
37 刘长令.国外部分农药品种在我国知识产权保护状况[J].农药,2000,39(7):5~8
38 李斌.杀虫剂研发进展[J].农药,2000,39(4):6~9
39 刘长令.用于植物保护中天然产物[J].农药译丛,1995,17(3):15~20
40 刘济明.贵州农药植物资源研究[J].西南农业大学学报,2002,24(1):1~7
41 刘学端,肖启明.植物源农药防治烟草花叶病机理初探[J].中国生物防治,1997,13(3):128~131
42 刘志俊,谢德明,刘志波.国外农药发展现状及未来展望[J].农药科学与管理,2000,21(2):33~37
43 梅益等.中国大百科全书,化工卷[M].中国大百科全书出版社,1987
44 孟昭礼,吴献忠等.银杏提取液对四种植物病原菌的抑菌作用[J].植物病理学报,1995,25(4):357~360
45 秦炜,郑涛等.超声场对姜黄素提取过程的强化[J].清华大学学报,1998,)38:46~48
46 上田富雄.生物农药的现状及开发动向[J].张思华译.农药译丛,1993,15(6):1~4
47 沈建国,翟梅枝等.我国植物源农药研究进展[J].福建农林大学学报,2002,31(1):27~31
48 唐除痴等.农药化学[M].天津:南开大学出版社,1998
49 屠豫钦.天然源农药的研究利用—机遇和问题[J].世界农药,1999,21(4):4~11
50 汪文陆.苦楝杀虫有效成分及生物活性的研究[D].广州:华南农业大学,1989
51 王本祥,王秋丽.中药成分研究的新思路[M].药理学进展,科学出版社,2000:10~18
52 王国平,潘川芝等.植物源作物诱抗剂对小麦赤霉病的抑制效果[J].湖南农业大学学
报,2001,27(1):50~52
53 王进忠,孙淑玲,苏红田.植物源杀虫剂的研究利用现状及展望[J].北京农学院学报,2000,15(2):72~75
54 王利国,马祁.天然产物对植物病毒的抑制作用[J].中国生物防治,2000,16(3):127~130
55 王维华,王南舟等,以连翘为原料的食品天然防腐剂的研制[J]天然产物研究与开发,1996,8(4):87~90
56 王小艺.中国植物源杀虫剂的研究与应用[J].世界农业,2000,(2):30~32)
57 王远程,孙东旭.昆虫抗菌物质的诱导和应用[J].微生物学通报,1994,5:290~293
58 文艳华,冯志新等.植物抽提物对几种植物病原线虫的杀线活性筛选[J].华中农业大学学报,2001,20(3):235~238
59 吴恭谦.拟白头翁素910512-5防治小麦赤霉病简报[J].植物保护学报,1995,22(4):375~376
60 吴健玲,刘玉亭等.用超临界流体技术萃取分离香茅油的研究[J].天然产物研究与开发,1994,6(1):42~48
61 吴钜文.十字花科蔬菜害虫的综合治理[J].中国蔬菜,1997(6):55~57
62 吴文君,刘玉亭等.天然产物杀虫剂—原理方法实践[J].西安:陕西科学技术出版社,1998
63 吴文君.杀虫植物苦皮藤研究概况(J).农药,199130(2):7~9
64 吴霞,张一宾.2000年世界农药市场概况及2005年世界农药市场展望[J].世界农药,2001,33(5):1~7
65 吴轶青.使用天然抗菌化合物保护作物.农药译丛,1996,18(3):9~12
66 夏春华,杨钟鸣,朱伯荣等.茶皂素在农药工业中应用研究进展[J].茶叶科学,2000,20(2):82~88
67 向智敏,毕丽君等.超临界二氧化碳萃取墨红花香气成分的研究[J],1996,8(4):42~46
68 徐汉虹,赵善欢,周俊.猪毛蒿精油杀虫有效成分[J].昆虫学报,1994,37(4):411~416
69 徐苏酩.天然产物源农药和农药先导物[J].农药译丛,1994,16(2):18~24
70 杨令家,谷宏伟,魏顺.芦荟药材情况分析[J].时珍国药研究,1997,8(3):245~246
71 杨秀娟,何玉仙.国外利用杀线植物防治植物寄生线虫[J].世界农业,1998,4:37
72 杨征敏,吴文君等.苦皮藤假种皮中的杀菌活性成分研究[J].农药学学报,2001,3(2):93~96
73 杨征敏,吴文君等.卫矛科植物苦皮藤杀菌活性研究初报[J].西北农林科技大学学报),2002,30(5):74~76
74 叶正楚,王契.中国农业害虫生物防治及防治概况与进展[J].昆虫知识,1992,29(3):179~182
75 余世望,范表生等.60种食药两用中药抗菌素菌防腐作用研究[J].天然产物研究与开发,1997,9(4)61~67
76 袁珂,刘延泽等.中草药化学成分研究中几种不同提取方法的比较研究[J]。天产物研究与开发,1997,9(4):57~61
77 张国珍,攀瑛,丁万隆等.麻黄和细辛挥发油的抗真菌作用[J].植物保护学报,1995,22 (4):373~374
78 张建国.植物源农药及其发展前景[J].烟台果树,2000,(2):3~5
79 张兴,马志卿等.生物农药评述[J].西北农林科技大学学报,2002,30(2):142~148
80 张子明.生物农药的定义、特点和现状[J].农药科学与管理,1996,(6):32~33
81 赵纯森,黄俊斌等.厚朴叶中抑菌活性成分鉴别及其防病效果[J].华中农业大学学报,1994,13(4):373~377
82 赵善欢.小菜蛾的抗药性及防治策略[J].西北学业大学学报,1995,23(3):21~24
83 郑良.Howard FERRIS.58种中(草)药对植物寄生线虫 Meloidogyne javanica 和 Pratylenchus vulnus 的药效研究[J].植物病理学报,2001,31(2):175~183
84 郑永权,姚建仁等.苦参杀抑菌生物活性的初步研究[J].植物保护学报,1999,25(6):17~19
85 中国科学院上海药物研究所.中草药有效成分提取与分离[M].上海:上海科学技术出版社,1983
86 钟国华,马安勤.植物源农药研究开发中几个问题的探讨[A].李典谟.走向21世纪的中国昆虫学[M].北京:中国科学技术出版社,2000.1077~1080)
87 周立刚,张颖君等.黄酮和甾体类化合物的抗真菌活性成分研究[J].天然产物研究与开发,1997,9(3):93~96
88 朱振东,周茂繁等.黄连生物碱对植物病原菌的抑菌作用及其应用的初步研究[J].华中农业大学学报,1991,13(4):373~377
89 Benner P.. Pesticidal conpounds from higher plants [J]. Pestic Sci. 1993,39:95
90 FERRARI C, L BARBIERI, F STIRPE. Effects of some plant ribosome inactivating proteins on ribosomes from Musca domestca[J].Comparative Biochomistry and Physiology, 1991,100B:223—227
91 Pillmoor John B., Kenneth Wright and Adrian S Terry. Natural products as a source of agroehemicals and leads for chemical synthsis [J]. Pestic Sci, 1993,39:131~140
92 Koushik Seetharaman,Elizabeth Whitehead,Nanscy P Keller, et la. In vituo activity of sorgum seed antifungal proteins against gain mold pathogens[J].J Agile Food Chem,1997,45:3666~3671
93 Lasota J A, R A Dybas.Avermectins,a novel class of compounds: implications for use in arthropod pest control[J].Annu Rev Entomol, 1991,36:91~117
94 Lin Lee-Juian, Galen peiser, Bai-Ping Uing, et al. Identification of plant growth inhibitory priciples in Ailakthus alfissima and Castela tortuosa[J]. Jagric Food Chem, 1995,43:1706~1711)
95 Manici Luisa, Lazzeri Luca and Sancho palmieri. In vitro fungitoxic activity of some glucodsinolates and their enzymederived products toward plant pathogentic fungi[J].J Agric Food Chem, 1997,45:2768~2773
96 MacGUIDWIN A E, T L LAYNE.Response of nematode communities to sudangrass and
sorghum-sudangrass hybrids grown as green manure cropa[J]. Journal of Nematology, 1995,27:609—516
97 Chuyen Nouyen Van, Kurata Tadao and Hiromichi Kato. Antimicrobial activity of Kumazasa (sasa albo-marginata)[J].J Ageic Food Chem, 1982,46(4):971~978
98 Nychas G J K, et al. An Natural antimicrobials from plants [M]. New Methods,Food Preserv, 1995,58~89
99 Odani T, et al. Studies on the alsorption, distribution, excretion and metobolism of ginseng saponins Ⅱ[J]. The absorption, distribution, excretion of ginsenoside Rg_1 inrats. Chen Pharm Bull 1983,31:292~298
100 Odani T, et al. Studies on the alsorption, distribution, excretion and metobolism of ginseng saponins Ⅲ[J]. The absorption, distribution, excretion of ginsenoside Rg_1 inrats. Chen Pharm Bull 1983,31:1059~1066
101 Ratuayake B M, et al. An antifungal chromene from Eupatorium Riparium [J].Phytochemistry, 1992,31(6): 1983~1985
102 SWAIN T. Secondary compounds as protective agents [J]. Ann Rev Physol, 1997,28:479~501
103 Tahara H ,et al. Afungitoxin inducibly produced by Dandelion leaves treated with Cupric Chloride [J].Agric Biol Chem, 1988,52(1):2947~2948
104 Takino Y, et al. Studies on the alsorption, distribution, excretion and metobolism of ginseng saponins I[J]. Quantitative analysis og ginsenoside Rg_1 in rats. Chem Pharm Bull, 1982,30:2196~2201
2 操海群,岳永德,花日茂等.植物源农药研究进展[J],安徽农业大学学报,2000,27(1):40~44
3 陈培培等.四种常见红树植物抑制植物病原真菌效能的评价[J].天然产物研究与开发,1994,6(1):5~10
4 陈昕,等.人参皂甙Rb_1的肠内菌的代谢[J].药学学报,1999,34:410~414
5 陈昕,等.人参皂甙Rb_1的在大鼠肠内菌的代谢吸收入血成分的研究[J].药学学报,1999,34:481~483
6 储茂泉,古宏晨等.中草药浸提过程的动力学模型[J].中草药,2000,31(7):504~506
7 杜小凤,徐建明.植物源农药研究进展[J].农药,2000,39(11):8~10
8 范培军,张镜澄等.芫妥子的超临界CO_2流体萃取研究[J].天然产物研究与开发,1995,7(3):33~36
9 方德秋,肖顺元.柠檬醛及香精油的抗菌性研究概述[J].天然产物研究与开发,1994,6(4):75~77
10 方仲达.植病研究方法[M].第3版.北京:中国农业出版社.1998:152
11 费有春.简明词典[M].北京:化学工业出版社,1985.26
12 冯理,程亚青等.植物保护与农业可持续发展[J].甘肃农业科技,1998,8:1~3
13 郭孝武.一种提取中草药化学成分的方法—超声提取法[J].天然产物研究与开发,2000,11(3):37~40
14 郭兴启,朱汉城等,大黄提取物对番茄花叶病毒(ToMV)病防治作用的研究[J].山东农业大学学报,1998,29(2):171~175
15 果德安,陈道峰,邱峰.我国中药基础研究现状与未来应重点研究的领域[M].药学科学前沿现状与发展方向,中国医药科技出版社,2000:117~123
16 郝小江,沈月毛.我国未来的天然药物研究[J].药学科学前沿现状与发展方向,中国医药科技出版社,2000:85~89
17 何康等.中国农业百科全书,农药卷[M].农业出版社,1993年
18 侯玉霞,李重九,马立新等.中草药中抗植物病毒TMV活性PZ1作用机理研究[J].中国农业大学学报,2000,5(1):21~24
19 华南农业大学.植物化学保护(第二版)[M].北京:中国农业出版社,1994
20 黄梁绮龄,苏美玲.香港地区红树植物资源研究(Ⅰ)四种常见红树植物抑制植物病原真菌效能的评价[J],天然产物研究与开发,1994a,6(1):5~8
21 黄梁绮龄,苏美玲.香港地区红树植物资源研究(Ⅱ)红树植物 Lumintzera racemosd(榄李)抑制植物真菌有效成分的分离与鉴定[J].天然产物研究与开发,1994b,6(3):6~10
22 江建云.植物性农药研究进展[J].湖南农业科学,1991,6:43~46
23 江绍玫.植物源无公害农药研究开发现状[J].江西农业大学学报,2000,22(1):140~142
24 将继志,史娟,赵丽坤等.几种植物提取物诱导马铃薯对致病疫霉的抗性.植物病理学
报,2001,31(2):145~151
25 蒋细良,谢德龄.农用抗生素的作用机理[J].生物防治通报,1994,10(2)76~81
26 蒋细良,朱昌雄等.抗生素除草剂M-22除草效果的初步评价[J].中国生物防治,2001,1:47~49
27 康卓.中国生物源农药产业化进展[J].农药,2001,40(3):4~8
28 李军,冯耀声.超临界二氧化碳萃取茶多酚的研究[J].天然产物研究与开发,1996,8(3):42~47
29 李永刚,文景芝.植物源杀菌剂研究现状与进展[J].东北农业大学学报,2002,33(2):198~201
30 李玉平,慕小倩等.几种菊科植物杀菌活性的初步研究[J].西北农林科技大学学报,2002,30(1):68~72
31 李玉平.菊科植物杀菌活性系统筛选的初步研究[J].陕西杨陵:西北农林科技大学生命科学学院,2001
32 李中岳,李郁柏.开展生物农药前景广阔[J].技术监督实用技术,1997,5:20
33 梁训生,谢联辉.植物病毒学[M].北京:农业出版社,1994.154~155
34 林存銮,裘维蕃.一些植物抽提物对黄瓜花叶病毒的治疗作用[J],植物保护学报,1987,14(4):217~220
35 林捷,吴锦涛等.柚皮提取物的抑菌作用研究[J].华南农业大学学报,1999,20(3):59~42
36 林孔勋.杀菌剂毒理学[M].北京:中国农业出版社,1989
37 刘长令.国外部分农药品种在我国知识产权保护状况[J].农药,2000,39(7):5~8
38 李斌.杀虫剂研发进展[J].农药,2000,39(4):6~9
39 刘长令.用于植物保护中天然产物[J].农药译丛,1995,17(3):15~20
40 刘济明.贵州农药植物资源研究[J].西南农业大学学报,2002,24(1):1~7
41 刘学端,肖启明.植物源农药防治烟草花叶病机理初探[J].中国生物防治,1997,13(3):128~131
42 刘志俊,谢德明,刘志波.国外农药发展现状及未来展望[J].农药科学与管理,2000,21(2):33~37
43 梅益等.中国大百科全书,化工卷[M].中国大百科全书出版社,1987
44 孟昭礼,吴献忠等.银杏提取液对四种植物病原菌的抑菌作用[J].植物病理学报,1995,25(4):357~360
45 秦炜,郑涛等.超声场对姜黄素提取过程的强化[J].清华大学学报,1998,)38:46~48
46 上田富雄.生物农药的现状及开发动向[J].张思华译.农药译丛,1993,15(6):1~4
47 沈建国,翟梅枝等.我国植物源农药研究进展[J].福建农林大学学报,2002,31(1):27~31
48 唐除痴等.农药化学[M].天津:南开大学出版社,1998
49 屠豫钦.天然源农药的研究利用—机遇和问题[J].世界农药,1999,21(4):4~11
50 汪文陆.苦楝杀虫有效成分及生物活性的研究[D].广州:华南农业大学,1989
51 王本祥,王秋丽.中药成分研究的新思路[M].药理学进展,科学出版社,2000:10~18
52 王国平,潘川芝等.植物源作物诱抗剂对小麦赤霉病的抑制效果[J].湖南农业大学学
报,2001,27(1):50~52
53 王进忠,孙淑玲,苏红田.植物源杀虫剂的研究利用现状及展望[J].北京农学院学报,2000,15(2):72~75
54 王利国,马祁.天然产物对植物病毒的抑制作用[J].中国生物防治,2000,16(3):127~130
55 王维华,王南舟等,以连翘为原料的食品天然防腐剂的研制[J]天然产物研究与开发,1996,8(4):87~90
56 王小艺.中国植物源杀虫剂的研究与应用[J].世界农业,2000,(2):30~32)
57 王远程,孙东旭.昆虫抗菌物质的诱导和应用[J].微生物学通报,1994,5:290~293
58 文艳华,冯志新等.植物抽提物对几种植物病原线虫的杀线活性筛选[J].华中农业大学学报,2001,20(3):235~238
59 吴恭谦.拟白头翁素910512-5防治小麦赤霉病简报[J].植物保护学报,1995,22(4):375~376
60 吴健玲,刘玉亭等.用超临界流体技术萃取分离香茅油的研究[J].天然产物研究与开发,1994,6(1):42~48
61 吴钜文.十字花科蔬菜害虫的综合治理[J].中国蔬菜,1997(6):55~57
62 吴文君,刘玉亭等.天然产物杀虫剂—原理方法实践[J].西安:陕西科学技术出版社,1998
63 吴文君.杀虫植物苦皮藤研究概况(J).农药,199130(2):7~9
64 吴霞,张一宾.2000年世界农药市场概况及2005年世界农药市场展望[J].世界农药,2001,33(5):1~7
65 吴轶青.使用天然抗菌化合物保护作物.农药译丛,1996,18(3):9~12
66 夏春华,杨钟鸣,朱伯荣等.茶皂素在农药工业中应用研究进展[J].茶叶科学,2000,20(2):82~88
67 向智敏,毕丽君等.超临界二氧化碳萃取墨红花香气成分的研究[J],1996,8(4):42~46
68 徐汉虹,赵善欢,周俊.猪毛蒿精油杀虫有效成分[J].昆虫学报,1994,37(4):411~416
69 徐苏酩.天然产物源农药和农药先导物[J].农药译丛,1994,16(2):18~24
70 杨令家,谷宏伟,魏顺.芦荟药材情况分析[J].时珍国药研究,1997,8(3):245~246
71 杨秀娟,何玉仙.国外利用杀线植物防治植物寄生线虫[J].世界农业,1998,4:37
72 杨征敏,吴文君等.苦皮藤假种皮中的杀菌活性成分研究[J].农药学学报,2001,3(2):93~96
73 杨征敏,吴文君等.卫矛科植物苦皮藤杀菌活性研究初报[J].西北农林科技大学学报),2002,30(5):74~76
74 叶正楚,王契.中国农业害虫生物防治及防治概况与进展[J].昆虫知识,1992,29(3):179~182
75 余世望,范表生等.60种食药两用中药抗菌素菌防腐作用研究[J].天然产物研究与开发,1997,9(4)61~67
76 袁珂,刘延泽等.中草药化学成分研究中几种不同提取方法的比较研究[J]。天产物研究与开发,1997,9(4):57~61
77 张国珍,攀瑛,丁万隆等.麻黄和细辛挥发油的抗真菌作用[J].植物保护学报,1995,22 (4):373~374
78 张建国.植物源农药及其发展前景[J].烟台果树,2000,(2):3~5
79 张兴,马志卿等.生物农药评述[J].西北农林科技大学学报,2002,30(2):142~148
80 张子明.生物农药的定义、特点和现状[J].农药科学与管理,1996,(6):32~33
81 赵纯森,黄俊斌等.厚朴叶中抑菌活性成分鉴别及其防病效果[J].华中农业大学学报,1994,13(4):373~377
82 赵善欢.小菜蛾的抗药性及防治策略[J].西北学业大学学报,1995,23(3):21~24
83 郑良.Howard FERRIS.58种中(草)药对植物寄生线虫 Meloidogyne javanica 和 Pratylenchus vulnus 的药效研究[J].植物病理学报,2001,31(2):175~183
84 郑永权,姚建仁等.苦参杀抑菌生物活性的初步研究[J].植物保护学报,1999,25(6):17~19
85 中国科学院上海药物研究所.中草药有效成分提取与分离[M].上海:上海科学技术出版社,1983
86 钟国华,马安勤.植物源农药研究开发中几个问题的探讨[A].李典谟.走向21世纪的中国昆虫学[M].北京:中国科学技术出版社,2000.1077~1080)
87 周立刚,张颖君等.黄酮和甾体类化合物的抗真菌活性成分研究[J].天然产物研究与开发,1997,9(3):93~96
88 朱振东,周茂繁等.黄连生物碱对植物病原菌的抑菌作用及其应用的初步研究[J].华中农业大学学报,1991,13(4):373~377
89 Benner P.. Pesticidal conpounds from higher plants [J]. Pestic Sci. 1993,39:95
90 FERRARI C, L BARBIERI, F STIRPE. Effects of some plant ribosome inactivating proteins on ribosomes from Musca domestca[J].Comparative Biochomistry and Physiology, 1991,100B:223—227
91 Pillmoor John B., Kenneth Wright and Adrian S Terry. Natural products as a source of agroehemicals and leads for chemical synthsis [J]. Pestic Sci, 1993,39:131~140
92 Koushik Seetharaman,Elizabeth Whitehead,Nanscy P Keller, et la. In vituo activity of sorgum seed antifungal proteins against gain mold pathogens[J].J Agile Food Chem,1997,45:3666~3671
93 Lasota J A, R A Dybas.Avermectins,a novel class of compounds: implications for use in arthropod pest control[J].Annu Rev Entomol, 1991,36:91~117
94 Lin Lee-Juian, Galen peiser, Bai-Ping Uing, et al. Identification of plant growth inhibitory priciples in Ailakthus alfissima and Castela tortuosa[J]. Jagric Food Chem, 1995,43:1706~1711)
95 Manici Luisa, Lazzeri Luca and Sancho palmieri. In vitro fungitoxic activity of some glucodsinolates and their enzymederived products toward plant pathogentic fungi[J].J Agric Food Chem, 1997,45:2768~2773
96 MacGUIDWIN A E, T L LAYNE.Response of nematode communities to sudangrass and
sorghum-sudangrass hybrids grown as green manure cropa[J]. Journal of Nematology, 1995,27:609—516
97 Chuyen Nouyen Van, Kurata Tadao and Hiromichi Kato. Antimicrobial activity of Kumazasa (sasa albo-marginata)[J].J Ageic Food Chem, 1982,46(4):971~978
98 Nychas G J K, et al. An Natural antimicrobials from plants [M]. New Methods,Food Preserv, 1995,58~89
99 Odani T, et al. Studies on the alsorption, distribution, excretion and metobolism of ginseng saponins Ⅱ[J]. The absorption, distribution, excretion of ginsenoside Rg_1 inrats. Chen Pharm Bull 1983,31:292~298
100 Odani T, et al. Studies on the alsorption, distribution, excretion and metobolism of ginseng saponins Ⅲ[J]. The absorption, distribution, excretion of ginsenoside Rg_1 inrats. Chen Pharm Bull 1983,31:1059~1066
101 Ratuayake B M, et al. An antifungal chromene from Eupatorium Riparium [J].Phytochemistry, 1992,31(6): 1983~1985
102 SWAIN T. Secondary compounds as protective agents [J]. Ann Rev Physol, 1997,28:479~501
103 Tahara H ,et al. Afungitoxin inducibly produced by Dandelion leaves treated with Cupric Chloride [J].Agric Biol Chem, 1988,52(1):2947~2948
104 Takino Y, et al. Studies on the alsorption, distribution, excretion and metobolism of ginseng saponins I[J]. Quantitative analysis og ginsenoside Rg_1 in rats. Chem Pharm Bull, 1982,30:2196~2201