柑橘類揮發物誘引柑橘木蝨的可能配方探討

黃竑襦; Hong-Ru Huang

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完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	蕭旭峰	zh_TW
dc.contributor.advisor	Shiuh-Feng Shiao	en
dc.contributor.author	黃竑襦	zh_TW
dc.contributor.author	Hong-Ru Huang	en
dc.date.accessioned	2023-06-20T16:26:25Z	-
dc.date.available	2023-11-09	-
dc.date.copyright	2023-06-20	-
dc.date.issued	2023	-
dc.date.submitted	2023-02-18	-
dc.identifier.citation	黃安利。1987。柑橘立枯病病原菌之形態與消長動態之電顯研究。國立台灣大學植物病理與微生物學研究所博士論文。羅清澤、張書忱、貢穀紳、邱人璋。1952。台灣柑橘病蟲害調查報告。農林學報第一輯。78-126頁。 Aksenov A, Martini X, Zhao W, Stelinski L, Davis C. 2014. Synthetic blends of volatile, phytopathogen-induced odorants can be used to manipulate vector behavior. Front Ecol Evol 2: 78. Aldrich, Jr. 1988. Chemical Ecology of the Heteroptera. Annu Rev Entomol 33: 211-238. Alves GR, Diniz AJF, Parra JRP. 2014. Biology of the huanglongbing vector Diaphorina citri (Hemiptera: Liviidae) on different host plants. J Econ Entomol 107: 691-696. Ammar ED, Alessandro R, Shatters Jr RG, Hall DG. 2013. Behavioral, ultrastructural and chemical studies on the honeydew and wqxy secretions by nymphs and adults of the asian citrus psyllid Diaphorina citri (Hemiptera: Psyllidae). PLoS ONE 8: e64938. Ammar ED, Ramos JE, Hall DG, Dawson WO, Shatters Jr RG. 2016. Acquisition, replication and inoculation of Candidatus Liberibacter asiaticus following various acquisition periods on huanglongbing-Infected citrus by nymphs and adults of the asian citrus psyllid. PLoS ONE 11: e0159594. Ammar ED, Shatters Jr RG, Hall DG. 2011. Localization of Candidatus Liberibacter asiaticus, associated with citrus huanglongbing disease, in its psyllid vector using fluorescence in situ hybridization. J Phytopathol 159: 726-734. Amorós ME, Pereira das Neves V, Rivas F, Buenahora J, Martini X, Stelinski LL, Rossini C. 2018. Response of Diaphorina citri (Hemiptera: Liviidae) to volatiles characteristic of preferred citrus hosts. Arthropod Plant Interact 13: 367-374. Azam M, Jiang Q, Zhang B, Xu C, Chen K. 2013. Citrus leaf volatiles as affected by developmental stage and genetic type. Int J Mol Sci 14: 17744-17766. Baldwin IT. 2010. Plant volatiles. Curr Biol 20: R392-397. Bedini S, Flamini G, Girardi J, Cosci F, Conti B. 2015. Not just for beer: evaluation of spent hops (Humulus lupulus L.) as a source of eco-friendly repellents for insect pests of stored foods. J Pest Sci 88: 583-592. Beloti VH, Santos F, Alves GR, Bento JMS, Yamamoto PT. 2017. Curry leaf smells better than citrus to females of Diaphorina citri (Hemiptera: Liviidae). Arthropod Plant Interact 11: 709-716. Bové J, Barros A. 2006. Huanglongbing: A destructive, newly emerging, century-old disease of citrus. J Plant Pathol 88: 7-37. Brodersen C, Narciso C, Reed M, Etxeberria E. 2014. Phloem production in huanglongbing-affected citrus trees. Hort Sci 49: 59-64. Bruce TJ, Pickett JA. 2011. Perception of plant volatile blends by herbivorous insects--finding the right mix. Phytochemistry 72: 1605-1611. Bruce TJ, Wadhams LJ, Woodcock CM. 2005. Insect host location: a volatile situation. Trends Plant Sci 10: 269-274. Bruinsma M, Posthumus MA, Mumm R, Mueller MJ, van Loon JJ, Dicke M. 2009. Jasmonic acid-induced volatiles of Brassica oleracea attract parasitoids: effects of time and dose, and comparison with induction by herbivores. J Exp Bot 60: 2575-2587. Capoor SP, Rao DG, Viswanath SM. 1974. Greening disease of citrus in the deccan trap country and its relationship with the vector, Diaphorina citri Kuwayama. Int Organ Citrus Virol Conf Proc (1957-2010) 6. Cha DH, Hesler SP, Moser CL, Nojima S, Linn CE, Roelofs WL, Loeb GM. 2008a. Flight tunnel responses of female grape berry moth (Paralobesia viteana) to host plants. J Chem Ecol 34: 622-627. Cha DH, Nojima S, Hesler SP, Zhang A, Linn CE, Roelofs WL, Loeb GM. 2008b. Identification and field evaluation of grape shoot volatiles attractive to female grape berry moth (Paralobesia viteana). J Chem Ecol 34: 1180-1189. Chen CL. 2017. Host preference and the application of using orange jasmine as a trap crop for Diaphorina citri (Hemiptera: Liviidae). Thesis of National Taiwan University: Taipei, Taiwan: 1-68. Chen SL, Zhang LP, Cai XM, Li X, Bian L, Luo ZX, Li ZQ, Chen ZM, Xin ZJ. 2020. (E)-Nerolidol is a volatile signal that induces defenses against insects and pathogens in tea plants. Hort Res 7: 52. Dala-Paula BM, Plotto A, Bai J, Manthey JA, Baldwin EA, Ferrarezi RS, Gloria MBA. 2018. Effect of huanglongbing or greening disease on orange juice quality, a review. Front Plant Sci 9: 1976. Deletre E, Chandre F, Barkman B, Menut C, Martin T. 2016. Naturally occurring bioactive compounds from four repellent essential oils against Bemisia tabaci whiteflies. Pest Manag Sci 72: 179-189. Doring TF, Röhrig K. 2016. Behavioural response of winged aphids to visual contrasts in the field. Ann Appl Biol 168: 421-434. Douglas HD, Co JE, Jones TH, Conner WE, Day JF. 2005. Chemical odorant of colonial seabird repels mosquitoes. J Med Entomol 42: 647-651. Du SS, Tian Y, Fan H, Wang Y, Hu D, Zheng Y. 2022. Insecticidal and repellent activities of volatile constituents from Litsea dilleniifolia P. Y. Pai et P. H. Huang againsts stored-product insects. Rec Nat Prod: 398-403. El-Sayed A, Cole L, Revell J, Manning LA, Twidle A, Knight A, Bus V, Suckling D. 2013. Apple volatiles synergize the response of codling moth to pear ester. J Chem Ecol 39: 634-652. Ellouze I, Abderrabba M, Sabaou N, Mathieu F, Lebrihi A, Bouajila J. 2012. Season's variation impact on Citrus aurantium leaves essential oil: chemical composition and biological activities. J Food Sci 77: T173-180. Figueiredo AC, Barroso JG, Pedro LG, Scheffer JJC. 2008. Factors affecting secondary metabolite production in plants: volatile components and essential oils. Flavour Fragrance J 23: 213-226. Fung YC, Chen CN. 2006. Effects of temperature and host plant on population parameters of the citrus psyllid (Diaphorina citri kuwayama). Formosan Entomol 26: 109-123. Garnier M, Danel N, Bové JM. 1984. The greening organism is a gram negative bacterium. Int Organ Citrus Virol Conf Proc (1957-2010) 9. Garnier M, Jagoueix-Eveillard S, Cronje PR, Le Roux HF, Bové JM. 2000. Genomic characterization of a liberibacter present in an ornamental rutaceous tree, Calodendrum capense, in the western cape province of south africa. Proposal of 'Candidatus Liberibacter africanus subsp. capensis'. Int J Syst Evol Microbiol 50 Pt 6: 2119-2125. Germinara GS, Conte A, Lecce L, Di Palma A, Contò F, Del Nobile MA. 2015. Controlled release of propionic acid and (E)-2-hexenal against Sitophilus granarius (L.) (Coleoptera: Curculionidae). J Food Process Preserv 39: 123-130. González-Mas MC, Rambla JL, López-Gresa MP, Blázquez MA, Granell A. 2019. Volatile compounds in citrus essential oils: a comprehensive review. Front Plant Sci 10: 12. Guo S-s, Wang Y, Pang X, Geng Z-f, Cao J-q, Du S-s. 2019. Seven herbs against the stored product insect: toxicity evidence and the active sesquiterpenes from Atractylodes lancea. Ecotoxicol Environ Saf 169: 807-813. Hall DG, Richardson ML, Ammar ED, Halbert SE. 2013. Asian citrus psyllid, Diaphorina citri, vector of citrus huanglongbing disease. Entomol Exp Appl 146: 207-223. Hodges AW, Rahmani M, Stevens TJ, Spreen TH. 2014. Economic impacts florida citrus industry 2012-13: 1-39. Hogenhout SA, Ammar ED, Whitfield AE, Redinbaugh MG. 2008. Insect vector interactions with persistently transmitted viruses. Annu Rev Phytopathol 46: 327-359. Hori. M, Enya. S. 2013. Attractiveness of synthetic volatile blends of flowering rice panicles to Trigonotylus caelestialium Kirkaldy (Heteroptera: Miridae). J Appl Entomol 137: 97-103. Hua YC. 2019. The promising volatile organic compounds from rutaceous plant flushes that attract Diaphorina citri Kuwayama (Hemiptera: Liviidae). Thesis of National Taiwan University: Taipei, Taiwan: 1-46. Hung SC. 2006. Ecology and vectorship of the citrus psyllid in relation to the prevalence of citrus huanglongbing. PhD Dissertation National Taiwan University: Taipei, Taiwan: 1-164 Hung TH, Hung SC, Chen CN, Hsu MH, Su HJ. 2004. Detection by PCR of Candidatus Liberibacter asiaticus, the bacterium causing citrus huanglongbing in vector psyllids: Application to the study of vector-pathogen relationships. Plant Pathol 53: 96-102. Inoue H, Ohnishi J, Ito T, Tomimura K, Miyata S, Iwanami T, Ashihara W. 2009. Enhanced proliferation and efficient transmission of Candidatus Liberibacter asiaticus by adult Diaphorina citri after acquisition feeding in the nymphal stage. Ann Appl Biol 155: 29-36. Jaenson TGT, Pålsson K, Borg K, Anna K. 2006. Evaluation of extracts and oils of mosquito (Diptera: Culicidae) repellent plants from Sweden and Guinea-Bissau. J Med Entomol 43: 113-119. Jagoueix S, Bove JM, Garnier M. 1994. The phloem-limited bacterium of greening disease of citrus is a member of the alpha subdivision of the Proteobacteria. Int J Syst Bacteriol 44: 379-386. Johnston N, Paris T, Paret ML, Freeman J, Martini X. 2022. Repelling whitefly (Bemisia tabaci) using limonene-scented kaolin: A novel pest management strategy. Crop Prot 154: 105905. Khadka A, Allan SA, Cho D, Weeks ENI. 2020. Can the addition of odor and visual targets enhance attraction of the asian citrus psyllid (Hemiptera: Liviidae) to sticky traps? J Econ Entomol 113: 2563-2567. Killiny N, Jones SE. 2017. Profiling of volatile organic compounds released from individual intact juvenile and mature citrus leaves. J Plant Physiol 208: 47-51. Laflèche D, Bové JM. 1970a. Mycoplasmes dans les agrumes atteints de “greening”, de “stubborn” ou de maladies similaires. Fruits 25: 455-465. Laflèche D, Bové JM. 1970b. Structures de type mycoplasme dans les feuilles d’orangers atteints de la maladie du greening. Comptes Rendus de l 'Academie Bulg des Sci 270: 1915-1917. Lapis EB, Borden JH. 1993. Olfactory discrimination by Heteropsylla cubana (Homoptera: Psyllidae) between susceptible and resistant species of Leucaena (Leguminosae). J Chem Ecol 19: 83-90. Li Y, Zhong S, Qin Y, Zhang S, Gao Z, Dang Z, Pan W. 2014. Identification of plant chemicals attracting and repelling whiteflies. Arthropod Plant Interact 8: 183-190. Lin SY, Roan SF, Lee CL, Chen IZ. 2010. Volatile organic components of fresh leaves as indicators of indigenous and cultivated citrus species in taiwan. Biosci Biotechnol Biochem 74: 806-811. Liu XQ, Jiang HB, Fan JY, Liu TY, Meng LW, Liu Y, Yu HZ, Dou W, Wang JJ. 2021. An odorant-binding protein of Asian citrus psyllid, Diaphorina citri, participates in the response of host plant volatiles. Pest Manag Sci 77: 3068-3079. Logan JG, Stanczyk NM, Hassanali A, Kemei J, Santana AEG, Ribeiro KAL, Pickett JA, Mordue AJ. 2010. Arm-in-cage testing of natural human-derived mosquito repellents. Malar J 9: 239. Lopez MD, Maudhuit A, Pascual-Villalobos MJ, Poncelet D. 2012. Development of formulations to improve the controlled-release of linalool to be applied as an insecticide. J Agric Food Chem 60: 1187-1192. Müller GC, Junnila A, Kravchenko VD, Revay EE, Butlers J, Schlein Y. 2008. Indoor protection against mosquito and sand fly bites: a comparison between citronella, linalool, and geraniol candles. J Am Mosq Control Assoc 24: 150-153. Müller GC, Junnila A, Butler J, Kravchenko VD, Revay EE, Weiss RW, Schlein Y. 2009. Efficacy of the botanical repellents geraniol, linalool, and citronella against mosquitoes. J Vector Ecol 34: 2-8. Mann RS, Ali JG, Hermann SL, Tiwari S, Pelz-Stelinski KS, Alborn HT, Stelinski LL. 2012a. Induced release of a plant-defense volatile 'deceptively' attracts insect vectors to plants infected with a bacterial pathogen. PLoS Pathog 8: e1002610. Mann RS, Tiwari S, Smoot JM, Rouseff RL, Stelinski LL. 2012b. Repellency and toxicity of plant-based essential oils and their constituents against Diaphorina citri Kuwayama (Hemiptera: Psyllidae). J Appl Entomol 136: 87-96. Mayer CJ, Vilcinskas A, Gross J. 2008a. Pathogen-induced release of plant allomone manipulates vector insect behavior. J Chem Ecol 34: 1518-1522. Mayer CJ, Vilcinskas A, Gross J. 2008b. Phytopathogen lures Its insect vector by altering host plant odor. J Chem Ecol 34: 1045-1049. McCollum G, Baldwin E. 2016. Huanglongbing: devastating disease of citrus. Hortic Rev 315-361. Mu D, Cui L, Ge J, Wang MX, Liu LF, Yu XP, Zhang QH, Han BY. 2012. Behavioral responses for evaluating the attractiveness of specific tea shoot volatiles to the tea green leafhopper, Empoaca vitis. Insect Sci 19: 229-238. Ninkovic V, Markovic D, Dahlin I. 2016. Decoding neighbour volatiles in preparation for future competition and implications for tritrophic interactions. Perspect Plant Ecol Evol Syst 23: 11-17. Nyasembe VO, Teal PEA, Mukabana WR, Tumlinson JH, Torto B. 2012. Behavioural response of the malaria vector Anopheles gambiae to host plant volatiles and synthetic blends. Parasit Vectors 5: 234. Oyedele AO, Gbolade AA, Sosan MB, Adewoyin FB, Soyelu OL, Orafidiya OO. 2002. Formulation of an effective mosquito-repellent topical product from lemongrass oil. Phytomedicine 9: 259-262. Pascual-Villalobos MJ, Castañé C, Martín F, López MD, Guirao P, Riudavets J. 2021. (E)-Anethole microspheres as an alternative insecticide in funnel traps. J Stored Prod Res 93: 101862. Patt J, Mafra-Neto A, Setamou M, Mangan R, Yang C, Sa N, Adamczyk J. 2011. Multimodal cues drive host-plant assessment in asian citrus psyllid (Diaphorina citri). Environ Entomol 40: 1494-1502. Patt JM, Setamou M. 2010. Responses of the asian citrus psyllid to volatiles emitted by the flushing shoots of its rutaceous host plants. Environ Entomol 39: 618-624. Pinero J, Dorn S. 2007. Synergism between aromatic compounds and green leaf volatiles derived from the host plant underlies female attraction in the oriental fruit moth. Entomol Exp Appl 125: 185-194. Prokopy RJ, Owens ED. 1978. Visual generalist with visual specialist phytophagous insects: host selection behaviour and application to management. Entomol Exp Appl 24: 609-620. Sétamou M, Sanchez A, Patt JM, Nelson SD, Jifon J, Louzada ES. 2012. diurnal patterns of flight activity and effects of light on host finding behavior of the asian citrus psyllid. J Insect Behav 25: 264-276. Sétamou M, Sanchez A, Saldaña RR, Patt JM, Summy R. 2014. Visual responses of adult asian citrus psyllid (Hemiptera: Liviidae) to colored sticky traps on citrus trees. J Insect Behav 27: 540-553. Salibe AA, Cortez RE. 1968. Leaf mottling, a serious virus disease of citrus in the Philippines. In: University Florida (ed) Proceedings of 4th Conference IOCV: 131-136. Salvagnin U, Malnoy M, Thöming G, Tasin M, Carlin S, Martens S, Vrhovsek U, Angeli S, Anfora G. 2017. Adjusting the scent ratio: Using genetically modified Vitis vinifera plants to manipulate European grapevine moth behaviour. Plant Biotechnol J 16: 264-271. Scarpati ML, Scalzo RL, Vita G. 1993. Olea europaea Volatiles attractive and repellent to the olive fruit fly (Dacus oleae, Gmelin). J Chem Ecol 19: 881-891. Stockton DG, Martini X, Patt JM, Stelinski LL. 2016. The influence of learning on host plant preference in a significant phytopathogen vector, Diaphorina citri. PLoS ONE 11: e0149815. Sule H, Muhamad R, Omar D, Hee A, Hee W. 2012. Response of Diaphorina citri Kuwayama (Hemiptera: Psyllidae) to volatiles emitted from leaves of two rutaceous plants. J Agric Sci 4. Tangpao T, Krutmuang P, Kumpoun W, Jantrawut P, Pusadee T, Cheewangkoon R, Sommano SR, Chuttong B. 2021. Encapsulation of basil essential oil by paste method and combined application with mechanical trap for oriental fruit fly control. Insects 12: 633. Tasin M, Bäckman AC, Bengtsson M, Ioriatti C, Witzgall P. 2006. Essential host plant cues in the grapevine moth. Sci Nat 93: 141-144. Tasin M, Bäckman AC, Coracini M, Casado D, Ioriatti C, Witzgall P. 2007. Synergism and redundancy in a plant volatile blend attracting grapevine moth females. Phytochemistry 68: 203-209. Teck SLC, Fatimah A, Beattie A, Heng RKJ, King WS. 2011. Influence of host plant species and flush growth stage on the asian citrus psyllid, Diaphorina citri Kuwayama. Am J Agric Biol Sci 6: 536-543. Texeira DC, Ayres J, Kitajima EW, Danet L, Jagoueix-Eveillard S, Saillard C, Bové JM. 2005. First report of a huanglongbing-like disease of citrus in Sao Paulo State, Brazil and association of a new liberibacter species, "Candidatus Liberibacter americanus", with the disease. Plant Dis 89: 107. Thöming G, Knudsen GK. 2014. Attraction of pea moth Cydia nigricana to pea flower volatiles. Phytochem 100: 66-75. Tisgratog R, Sukkanon C, Grieco JP, Sanguanpong U, Chauhan KR, Coats JR, Chareonviriyaphap T. 2017. Evaluation of the constituents of vetiver oil against Anopheles minimus (Diptera: Culicidae), a malaria vector in thailand. J Med Entomol 55: 193-199. Tiwari S, Killiny N, Stelinski LL. 2013. Dynamic insecticide susceptibility changes in Florida populations of Diaphorina citri (Hemiptera: Psyllidae). J Econ Entomol 106: 393-399. Tsai CH, Hung TH, Su HJ. 2008. Strain identification and distribution of citrus Huanglongbing bacteria in Taiwan. Bot Stud 49: 49-56. Tsai JH, Liu YH. 2000. Biology of Diaphorina citri (Homoptera: Psyllidae) on four host plants. J Econ Entomol 93: 1721-1725. Vekiari SA, Protopapadakis EE, Papadopoulou P, Papanicolaou D, Panou C, Vamvakias M. 2002. Composition and seasonal variation of the essential oil from leaves and peel of a Cretan lemon variety. J Agric Food Chem 50: 147-153. Vickers CE, Gershenzon J, Lerdau MT, Loreto F. 2009. A unified mechanism of action for volatile isoprenoids in plant abiotic stress. Nat Chem Biol 5: 283-291. Webster B, Bruce T, Dufour S, Birkemeyer C, Birkett M, Hardie J, Pickett J. 2008. Identification of volatile compounds used in host location by the black bean aphid, Aphis fabae. J Chem Ecol 34: 1153-1161. Webster B, Bruce T, Pickett J, Hardie J. 2010. Volatiles functioning as host cues in a blend become nonhost cues when presented alone to the black bean aphid. Anim Behav 79: 451-457. Wenninger EJ, Stelinski LL, Hall DG. 2009. Roles of olfactory cues, visual cues, and mating status in orientation of Diaphorina citri Kuwayama (Hemiptera: Psyllidae) to four different host plants. Environ Entomol 38: 225-234. Wibe A, Borg K, Anna K, Cross J, Bichão H, Fountain M, Liblikas I, Sigsgaard L. 2014. Combining 1,4-dimethoxybenzene, the major flower volatile of wild strawberry Fragaria vesca, with the aggregation pheromone of the strawberry blossom weevil Anthonomus rubi improves attraction. Crop Prot 64: 122-128. Xu CF, Xia YH, Li KB, Ke C. 1988. Further study of the transmission of citrus huanglungbin by a psyllid, Diaphorina citri Kuwayama. Int Organ Citrus Virol Conf proc (1957-2010) 10. Yu PH. 2015. Studies of the behavior of asian citri psyllids (Diaphorina citri Kuwayama) (Hemiptera:psyllidae) on the vectorship of citrus huanglongbing pathogen (Candidatus Liberibacter). Thesis of National Taiwan University: Taipei, Taiwan: 1-59. Zeng L, Wang X, Kang M, Dong F, Yang Z. 2017. Regulation of the rhythmic emission of plant volatiles by the circadian clock. Int J Mol Sci 18. Zhang H, Xie Y, Liu C, Chen S, Hu S, Xie Z, Deng X, Xu J. 2017. Comprehensive comparative analysis of volatile compounds in citrus fruits of different species. Food Chem 230: 316-326. Zhang ZQ, Sun XL, Xin ZJ, Luo ZX, Gao Y, Bian L, Chen ZM. 2013. Identification and field evaluation of non-host volatiles disturbing host location by the tea geometrid, Ectropis obliqua. J Chem Ecol 39: 1284-1296. Zhao JP, Wang HT, Zeng XN, Xue PP. 2013. Differences in selection behaviors and chemical cues of adult asian citrus psyllids, Diaphorina citri, on healthy and huanglongbing-infected young shoots of citrus plants. J Agric Sci 5: 83-91. Zheng F, Li T, Xu H, Hu P, Wang R, Zhang Z, Jia J. 2021. Long-lasting repellent activities of eco-friendly polyurethane system for controlled citral against melon fly. Crop Prot 148: 105745. Zhou J, Zhang N, Wang P, Zhang S, Li D, Liu K, Wang G, Wang X, Ai H. 2015. Identification of host-plant volatiles and characterization of two novel general odorant-binding proteins from the legume pod borer, Maruca vitrata Fabricius (Lepidoptera: Crambidae). PLoS ONE 10: e0141208.	-
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/87626	-
dc.description.abstract	亞洲柑橘木蝨 (Diaphorina citri Kuwayama) 為柑橘黃龍病的主要傳播媒介，其傳播黃龍病造成柑橘產業重大損失。本研究嘗試找尋木蝨具偏好性的化合物以製作誘引劑，期望能將誘引劑結合黃色黏板，以提升黃色黏板偵測木蝨族群之靈敏度與可信度，冀能使氣味結合黃色黏板成為高效誘殺器，進一步解決亞洲柑橘木蝨在防治時機與藥劑使用上的問題。試驗首先選擇 4 種氣味 (兩種柑橘類精油與兩種離體植株嫩葉) 之揮發物作為誘引氣味基礎資材，利用 Y 型管測試柑橘木蝨之偏好性，再以氣相層析質譜儀 (GC-MS) 進行樣本化合物分析，嘗試尋找最有潛力之誘引成份以進行後續分析，最終再以黃色黏板結合具顯著偏好性資材以半田間方式測試其誘捕率。試驗結果顯示，四種柑橘類氣味中柑橘木蝨僅以 62.18% 選擇顯著偏好甜橙精油的揮發物，以甜橙精油主要八種揮發化合物依照 GC-MS 分析比例，配製的 4 種濃度人造氣味柑橘木蝨皆不具偏好性，且僅以 100 ppm 濃度樣本效果較為正向，因此以其配置法為基礎，依序個別剃除其中 1 種化合物，發現柑橘木蝨以 37.43% 與 37.14% 的選擇率顯著不偏好個別剃除檸檬烯 (Limonene) 與瓦倫烯 (Valencene) 後混合物的氣味，推測此兩種化合物可能為關鍵化合物，之後分別以原始 100 ppm 混合物中相對單獨檸檬烯 (Limonene)、單獨瓦倫烯 (Valencene) 的含有量另外配置 1000 ppm~1 ppm 四種序列稀釋濃度混合物進行木蝨偏好性測試，結果發現柑橘木蝨僅以 62.64% 對 100 ppm 之檸檬烯與瓦倫烯混合物產生顯著偏好；黃色黏板結合甜橙精油或 100 ppm 之檸檬烯與瓦倫烯混合物進行組合試驗，結果顯示甜橙精油組黃色黏板捕捉量在 7.5 hr 後開始有捕捉數量的顯著差異並維持至試驗結束，而 100 ppm 檸檬烯與瓦倫烯混合物則在 3.5 hr 後開始有捕捉數量的顯著差異並維持至試驗結束。顯示甜橙精油揮發物中的檸檬烯與瓦倫烯化合物具有發展誘引劑的可能性，可作為後續開發柑橘木蝨誘引劑之基礎。	zh_TW
dc.description.abstract	The Asian citrus psyllid (ACP) (Diaphorina citri Kuwayama) is the main vector of Huanglongbing (HLB), the disease responsible for the severe destruction of citrus industry in many countries. This study aims to investigate attractive compounds for combination with yellow sticky trap to improve the control efficiency of ACPs. Four odors of citrus (two essential oils and two young leaves of citrus) were subjected to GC-MS analysis and Y-tube olfactometer bioassay to test the response of ACPs to individual odors. The results showed sweet orange essential oil is a better odor which could significantly attract more ACPs (62.18%). The main eight components derived from sweet orange essential oil were then chose to blend mixtures with various concentrations for Y-tube olfactometer bioassay and the results suggested that 100 ppm mixture better attracts ACPs. After the single compound removal experiment, Limonene and Valencene in sweet orange essential oil were identified as the key components which could attract over 60% ACPs (attract only 37.43% and 37.14% ACPs when Limonene and Valencene were removed from the blend mixtures respectively). Further test showed that 62.64% ACPs were attracted to 100 ppm mixture of Limonene and Valencene. Semi-field studies revealed that yellow sticky trap combined with sweet orange essential oil or mixture of Limonene and Valencene could steadily attract more ACPs after 7.5 hours and 3.5 hours respectively. To sum up, sweet orange essential oils or its components Limonene and Valencene were the potential candidates for development of ACPs attractant.	en
dc.description.provenance	Submitted by admin ntu (admin@lib.ntu.edu.tw) on 2023-06-20T16:26:25Z No. of bitstreams: 0	en
dc.description.provenance	Made available in DSpace on 2023-06-20T16:26:25Z (GMT). No. of bitstreams: 0	en
dc.description.tableofcontents	誌謝中文摘要 I Abstract III 目錄 V 表目錄 VIII 圖目錄 IX 壹、前言 1 貳、往昔研究 4 一、柑橘黃龍病簡介 4 二、亞洲柑橘木蝨簡介 6 三、柑橘木蝨偏好習性與傳病概況 7 四、柑橘黃龍病及其媒介昆蟲的防治策略 8 五、柑橘木蝨的寄主偏好和尋找寄主機制 9 六、有機揮發化合物的應用 11 參、材料與方法 14 一、試驗用之蟲源、植物源以及氣味源 14 二、固相微萃取所有氣味樣本之揮發物 14 三、試驗樣本揮發物分析 15 四、氣味樣本製備 15 (一) 四種試驗樣本製備 15 (二) 柑橘木蝨對不同濃度甜橙精油揮發物氣味的Y型管偏好性試驗 15 (三) 柑橘木蝨對甜橙精油揮發物中八種化合物個別篩除後混合物樣本之 Y 型管偏好性試驗 16 (四) 柑橘木蝨對檸檬烯、瓦倫烯、兩者混合物及剩餘六種主要化合物混合物之Y型管偏好性試驗 16 (五) 柑橘木蝨對不同濃度檸檬烯與瓦倫烯混合物之Y型管偏好性試驗 16 五、Y型管偏好性測試 17 (一) Y型管裝置組架設 17 (二) 偏好性試驗 18 六、以具木蝨顯著偏好性之樣本提升黃色黏板的捕捉力試驗 18 七、數據分析 18 肆、結果 19 一、GC-MS 分析試驗氣味樣本的主要八種化合物 19 二、Y型管偏好性試驗 20 (一) 四種柑橘氣味樣本 20 (二) 柑橘木蝨對不同濃度模擬甜橙精油揮發物氣味的 Y 型管偏好性試驗 21 (三) 柑橘木蝨對甜橙精油揮發物中八種化合物個別篩除後混合物樣本之Y型管偏好性試驗 21 (四) 柑橘木蝨對檸檬烯、瓦倫烯、兩者混合物及剩餘六種主要化合物混合物之Y型管偏好性試驗 22 (五) 柑橘木蝨對不同濃度檸檬烯與瓦倫烯混合物之Y型管偏好性試驗 23 三、以具木蝨顯著偏好性之樣本提升黃色黏板的捕捉力試驗 23 伍、討論 25 一、GC-MS 分析試驗氣味樣本的主要八種化合物 25 二、Y型管偏好性測試 25 三、以具木蝨顯著偏好性之樣本提升黃色黏板的捕捉力試驗 33 陸、結論 35 柒、參考文獻 36	-
dc.language.iso	zh_TW	-
dc.subject	柑橘黃龍病	zh_TW
dc.subject	黃色黏板	zh_TW
dc.subject	誘引劑	zh_TW
dc.subject	氣相層析質譜儀	zh_TW
dc.subject	亞洲柑橘木蝨	zh_TW
dc.subject	Asian citrus psyllid (ACP)	en
dc.subject	Attractant	en
dc.subject	Yellow sticky trap	en
dc.subject	Gas chromatography-mass spectrometry (GC-MS)	en
dc.subject	Huanglongbing	en
dc.title	柑橘類揮發物誘引柑橘木蝨的可能配方探討	zh_TW
dc.title	Studies of promising attractive formulations of citrus volatile compounds for Diaphorina citri Kuwayama (Hemiptera: Liviidae)	en
dc.type	Thesis	-
dc.date.schoolyear	111-1	-
dc.description.degree	碩士	-
dc.contributor.coadvisor	黃榮南	zh_TW
dc.contributor.coadvisor	Rong-Nan Huang	en
dc.contributor.oralexamcommittee	陳文華;顏瑞泓	zh_TW
dc.contributor.oralexamcommittee	Wen-Hua Chen;Jui-Hung Yen	en
dc.subject.keyword	亞洲柑橘木蝨,柑橘黃龍病,氣相層析質譜儀,誘引劑,黃色黏板,	zh_TW
dc.subject.keyword	Asian citrus psyllid (ACP),Huanglongbing,Gas chromatography-mass spectrometry (GC-MS),Attractant,Yellow sticky trap,	en
dc.relation.page	61	-
dc.identifier.doi	10.6342/NTU202300586	-
dc.rights.note	同意授權(限校園內公開)	-
dc.date.accepted	2023-02-18	-
dc.contributor.author-college	生物資源暨農學院	-
dc.contributor.author-dept	植物醫學碩士學位學程	-
dc.date.embargo-lift	2026-02-17	-
顯示於系所單位：	植物醫學碩士學位學程

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