[1] Tamaki Y, Noguchi H, Yushima T, et al. Two sex pheromones of the smaller tea totrix: isolation, identification, and synthesis[J]. Appl Ent Zool, 1971, 6: 139~141.
[2] Tamaki Y, Noguchi H, Sugie H, et al. Minor components of the female sex-attractant pheromone of the smaller tea tortrix moth (Lepidoptera: Tortricidae): Isolation and identification[J]. Appl Ent Zool, 1979, 14: 101~113.
[3] Tamaki Y, Noguchi H, Sugie H, et al. Four-component synthetic sex pheromone of the smaller tea tortrix moth: Field evaluation of its potency as an attractant for male moth[J]. Jap Appl Ent Zool, 1980, 24: 221~228.
[4] Tamaki Y, Noguchi H.Biological activities of analogues of 10-Methyldodecyl acetate, a sex-pheromonal components of the smaller Tea Tortix moth (Adoxophyes sp., Lepidotera: Tortricidae)[J]. Appl Ent Zool, 1984, 19(2): 245~251.
[5] Noguchi H, Tamaki Y, Yushima T.Sex pheromone of the Tea Tortrix Moth: Isolation and identification[J]. Appl Ent Zool, 1979, 14(2): 225~228.
[6] 萧素女. 茶卷叶蛾性费洛蒙田间诱虫效果测试[J]. 台湾茶叶研究导报, 1998, 17: 9~17.
[7] Noguchi H, Tamaki Y, Yushima T.Sex pheromone of the tea tortrix moth: Isolation and identification[J]. Appl Ent Zool, 1979, 14(2): 225~228.
[8] Ando T, Taguchi K, Horikawa T.Female sex pheromone of the tea leafroller, Caloptilia theivora Walsingham (Lepidoptera: Gracillariidae)[J]. Agric Biol Chem, 1985, 49(1): 233~234.
[9] Wakamura S, Yasuda T, Ichikawa A, et al. Sex attractant pheromone of the tea tussock moth Euproctis pseudoconspersa (Strand) (Lepidoptera: Lymantridae). Identification and field attraction[J]. App Entomo Zool, 1994, 29: 403~411.
[10] Zhao CH, Millar JG, Wen Z, et al. Isolation, identification, and synthesis of the female sex pheromone of the tea tussock moth, Euproctis pseudoconspersa (Strand) (Lepidoptera: Lymantridae)[J]. Entom Sinica, 1996, 3: 58~69.
[11] Tsai RS, Yang EC, Wu CY, et al. A potent sex attractant of the male tea tussock moth, Euproctis pseudoconspersa (Strand) (Lepidoptera: Lymantridae) in Taiwan: field and EAG responses[J]. Zool Studies, 1999, 38(3): 301~306.
[12] Becker D, Kimmel T, Cyjon R, et al. (3Z,6Z,9Z)-3,6,9-Nonadecatriene-a component of the sex pheromonal system of the giant looper, Boarmia (Ascotis) selenaria Schiffermüller (Lepidoptera: Geometridae)[J]. Tetrahedron Lett, 1983, 24: 5505~5508.
[13] Becker D, Cyjon R, Cosse A, et al. Identification and enantioselective synthesis of (Z,Z)-6,9-cis-(3S,4R)- epoxynonadecadiene , the major sex pheromone component of Boarmia selenaria[J]. Tetrahedron Lett, 1990, 31: 4923~4926.
[14] Cossé AA, Cyjon R, Moore I, et al. Sex pheromone components of the giant looper, Boarmia selenaria Schiff. (Lepidoptera: Geometridae): Identification, synthesis, electrophysiological evaluation, and behavioral activity[J]. J Chem Ecol, 1992, 18:165~181.
[15] 殷坤山, 洪北边, 尚稚珍, 等. 茶尺蠖性信息素生物学综合研究.自然科学进展-国家重点实验室通讯[J], 1993, 3(4): 28~34.
[16] Witjaksono, Ohtani K, Masanobu Y, et al. Responses of Japanese giant looper male moth to synthetic sex pheromone and related compounds[J]. J Chem Ecol, 1999, 25(7): 1633~1643.
[17] Ho HY, Tao YT, Tsai RS, et al. Isolation, identification, and synthesis of sex pheromone components of female tea cluster caterpillar, Andraca bipunctata Walker (Lepidoptera: Bombycidae) in Taiwan[J]. J Chem Ecol, 1996, 22(2): 271~285.
[18] Kou R, Tang DS, Chow YS, et al. Sex pheromone components of the smaller tea tortrix moth, Adoxophyes sp. (Lepidoptera: Tortricidae) in Taiwan[J]. J Chem Ecol, 1990, 16: 1409~415.
[19] Kou R.Callig behavior and pheromone titer in the smaller Tea Tortrix moth, Adoxophyes SP. (Lepidotera: Tortricidae)[J]. J Chem Ecol, 1992, 18(6): 855~861.
[20] Tosiro Yasuda.The Japanese species of the genus Adoxophyes Heyricis (Lepidoptera, Tortricidae)[J], Tran Lepid Soc Japan, 1998, 49(37): 159~173.
[21] Kou R, Chow YS.Individual variation in sex pheromone of smaller tea tortrix moth Adoxophyes sp. (Lepidoptera: Tortricidae)[J]. J Chem Ecol, 1991, 17: 1917~1923.
[22] Tsai RS, Chow YS.Mating disruption of the smaller tea tortrix moth Adoxophyes sp. with a pheromone tape containing (Z)-11-tetradecenyl acetate[J]. J Agric Assoc China, 1992, 157: 76~80.
[23] Mochizuki F, Fukumoto T, Noguchi H, et al. Resistance to a mating disruptant composed of (Z)-11-tetradecenyl acetate in the smaller tea tortrix, Adoxophyes honmai (Yasuda) (Lepidoptera: Tortricdae)[J]. Appl Entomol Zool, 2002, 37(2): 299~304.
[24] Tabata J, Noguchi H, Kainoh Y, et al. Sex pheromone production and perception in the mating disruption-resistant strain of the smaller tea leafroller moth, Adoxophyes honmai[J]. Entom Exp Appl, 2006, 122: 145~153.
[25] 陈宗懋. 茶小卷叶蛾(Adoxophyes honmai)对(Z)-11-十四碳烯-1-醇醋酸酯交配阻扰剂的抗性[J]. 中国茶叶, 2003, 25(3): 37~38.
[26] Kagoshima. Plant protection association.history of plant protection of Kagoshima prefecture[P]. Iwamura Insatsu, Kagoshima, Japan. 1994.
[27] Satake A, Ohgushi T, Urano S, et al. Modeling population dynamics of a tea pest with temperature-dependent development: predicting emergence timing and potential damage[J]. Ecol Res, 2006, 21: 107~116.
[28] Wakamura S, Ichikawa A, Yasuda T, et al. EAG and field responses of the male tea tussork moth, Euproctis pseudoconspersa (Strand) (Lepidoptera: Lymantridae) to (R)- and racemic mixture of 10, 14-dimethylpentadecyl isobutyrate[J]. Appl Entomol Zool, 1996, 31: 623~625.
[29] Zhao CH, Millar JG, Pan KH, et al. Responses of tea tussork moth, Euproctis pseudoconspersa, to its pheromone, (R)-10, 14-dimethylpentadecyl isobutyrate, and to the S-enantiomer of its pheromone[J]. J Chem Ecol, 1998, 24(8): 1347~1353.
[30] 戈峰, 陈小飞, 王常平, 等. 茶毛虫性信息素对茶毛虫防治效果研究[J]. 茶叶科学, 2002, 22(2): 115~118.
[31] 王永模, 戈峰, 刘向辉, 等. 应用性信息素迷向法防治茶毛虫的田间试验[J]. 昆虫知识, 2006, 43(1): 60~63.
[32] Ando T, Ohtani K, Yamamoto M, et al. Sex pheromone of Japanese giant looper, Ascotis selenaria cretacea: identification and fiel tests[J]. J Chem Ecol, 1997, 23(10): 2413~2423.
[33] Ohtani K, Witjaksono, Fukumoto T, et al. Mating disruption of the Japanese giant looper in tea gardens permeated with synthetic pheromone and related compounds[J]. Entom Exp Appl, 2001, 100: 203~209.
[34] Snoeren TAL, Jong PW, Dicke M.Ecogenomic approach to the role of herbivore-induced plant volatiles in community ecology[J]. J Ecol, 2007, 95: 17~26.
[35] D’Alessandro M, Turlings TCJ. Advances and challenges in the identification of volatiles that mediate interactions among plants and arthropods[J]. RSC, 2006, 131: 24~32.
[36] Schnee C, Kollner T, Held M, et al. The products of a single maize sesquiterpene synthase form a volatile defense signal that attracts natural enemies of maize herbivores[J]. PNAS, 2006, 103(4): 1129~1134.
[37] 许宁, 陈宗懋, 游小清. 三级营养关系中茶树间接防御茶尺蠖危害的生化机制[J]. 茶叶科学, 1998, 18(1): 1~5.
[38] 许宁, 陈宗懋, 游小清. 引诱茶尺蠖天敌寄生蜂的茶树挥发物的分离与鉴定[J]. 昆虫学报, 1999, 42(2): 126~131.
[39] 韩宝瑜, 周鹏, 付建玉, 等. 昆虫化学信息素诱集绒茧蜂控制茶尺蠖的研究[J]. 茶叶科学, 2005, 26(1): 72~75.
[40] Cho JY, Mizutani M, Shimizu B, et al. Chemical profiling and gene expression profiling during the manufacturing process of Taiwan oolong tea “oriental beauty”[J]. Biosci Biotechnol Biochem, 2007, 71(6): 1476~1486.
[41] 赵冬香. 茶树-假眼小绿叶蝉-蜘蛛间化学、物理通讯机制的研究[D]. 杭州: 浙江大学博士论文, 2001.
[42] Sudoi V, Mwangi JM, David KS.Preliminary surveyof natural enemies of citrus aphid, Toxoptera aurantii (Homoptera: Aphidae), in tea at Timbilil estate, Kericho[J]. Tea, 1996, 17(2): 50~52.
[43] Sudoi V, Rotich F.The rearing of hoverfly xanthogrammaae-gyptmm (Diptera: syrphidae) for use as a biocontrol agent in controlling cirtrus aphids Toxoptera aurantii (Homoptera: aphidae) in tea[J]. Tea, 1997, 18(1): 42~44.
[44] 韩宝瑜. 茶树–茶蚜–捕食、寄生性天敌间定位、取食的物理、化学通讯机制[D]. 杭州: 中国农业科学院博士学位论文, 1999.
[45] 韩宝瑜, 周成松. 茶梢和茶花信息物引诱有翅茶蚜效应的研究[J]. 茶叶科学, 2004, 24(4): 249~254.
[46] 苗进, 韩宝瑜. MeSA诱导茶树抗叶蝉取食效应的DC-EPG分析[J]. 植物保护学报, 2008, 32(2): 143~147.
[47] Farmer EE, Ryan CA.Interplant communication: Airborne methyl jasmonate induces synthesis of proteinase inhibitors in plant leaves[J]. PNAS, 1999, 87: 7713~7716.
[48] Park SW, Kaimoyo E, Kumar D.Methyl salicylate is a critical mobile signal for plant systemic acquired resistance[J]. Science, 2007, 318(5847): 113~116.
[49] Lou YG, Du MH, Turlings TC.Exogenous application of jasmonic acid induced volatile emissions in rice and enhances parasitism of Nilaparvata lugens eggs by the parasitoid Anagrus nilaparvatae[J]. J Chem Ecol, 2005, 31(10): 2357~2372.
[50] 鲁玉杰, 王霞, 娄永根, 等. 乙烯信号转导途径在褐飞虱诱导的水稻挥发物释放中的作用[J]. 科学通报, 2006, 51(18): 2146~2153.
[51] Bi HH, Ren SZ, Li MS.Allelopathy induced by methyl jasmonate and methyl salicylate[J]. J chem ecol, 2007, 35(5): 1089~1103.
[52] 章金明. MeSA、叶蝉为害和机械刺伤对茶芽挥发物及PAL、PPO酶活性影响[D]. 杭州: 中国农业科学院硕士论文, 2006, 1~57.
[53] 苗进. 外源MeSA诱导茶树防御假眼小绿叶蝉机理的研究[D]. 杭州: 中国农业科学院博士论文, 2008, 1~100.
[54] 桂连友. 外源茉莉酸甲酯处理茶树对茶尺蠖幼虫生长的影响[J]. 中国农业科学, 2005, 38(2): 302~307.
[55] 桂连友. 外源茉莉酸甲酯对茶树抗虫作用的诱导及其机理[D]. 杭州: 中国农业科学院博士学位论文, 2004, 1~130.
[56] Gaston LK, Shorey HH, Saario CA.Insect population control by the use of sex pheromones to inhibit orientation between the sexes[J]. Nature, 1967, 213: 1155.
[57] 戈峰, 李典谟. 可持续农业中的害虫管理[J]. 昆虫知识, 1997, 34(1): 48~52.
浙公网安备 33019902000101号 
