紅龍果之仙人掌盾介殼蟲 (半翅目：盾介殼蟲科) 綜合防治

Yi-Ting Chen; 陳宜婷

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/67751

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	柯俊成(Chiun-Cheng Ko)
dc.contributor.author	Yi-Ting Chen	en
dc.contributor.author	陳宜婷	zh_TW
dc.date.accessioned	2021-06-17T01:47:45Z	-
dc.date.available	2019-07-28
dc.date.copyright	2017-07-28
dc.date.issued	2017
dc.date.submitted	2017-07-25
dc.identifier.citation	臺灣農作物有害生物查詢系統－行政院農委會動植物防疫檢疫局http://210.69.150.201/insectsite/ 植物保護圖鑑－行政院農業委員會動植物防疫檢疫局https://www.baphiq.gov.tw/view.php?catid=4225 認識作物害蟲－行政院農業委員會農業試驗所http://digiins.tari.gov.tw/diagnosis/index.php 植物保護手冊－行政院農業委員會農業藥物毒物試驗所http://www.tactri.gov.tw/wSite/ct?xItem=3691&ctNode=333&mp=11 駐越南臺北經濟文化辦事處－中華民國外交部http://www.taiwanembassy.org/vn/ http://www.baphiq.gov.tw/office/klbaphiq/view.php?page_max=50&catid=5158 維基百科 https://zh.wikipedia.org/wiki/Wikipedia:%E9%A6%96%E9%A1%B5 中華民國輸入植物或植物產品檢疫規定 https://www.baphiq.gov.tw/files/web_articles_files/baphiq/9186/12487.pdf 輸入植物檢疫相關規定 https://www.baphiq.gov.tw/office/klbaphiq/view.php?catid=5158 行政院農業委員會動植物防疫檢疫局 http://www.baphiq.gov.tw/ 農業統計資料查詢 http://agrstat.coa.gov.tw/sdweb/public/book/Book.aspx Arthropods of Economic Importance http://wbd.etibioinformatics.nl/bis/diaspididae.php?menuentry=soorten&id=112# National Pesticide information Center－Potassium Salts of Fatty Acids http://npic.orst.edu/factsheets/psfagen.pdf The Plant List 2013 http://www.theplantlist.org/1.1/browse/A/Cactaceae/ Valid Names Results http://scalenet.info/catalogue/Diaspis%20echinocacti/ 王清玲。2010。作物蟲害非農藥防治資材。行政院農業委員會農業試驗所特刊142號。180頁。王智立、林正忠。2005。紅龍果果腐及仙人掌莖腐病。植物病理學會刊 14: 269 – 274。朱怡達。2005。非游離輻射安全的探討。國立臺灣大學物理研究所碩士論文。152頁。余建美。2016。臺灣地區紅龍果產業發展現況。紅龍果整體產業價值鏈整合技術發表暨產業交流研討會。行政院農業委員會臺中區農業改良場。臺中林天送。2009。微波爐的發明。科學發展 435： 70-72。林正忠、郭韋柏、蔡叔芬。2006。臺灣地區紅龍果病害。豐年半月刊 56: 38-42。林季孜。2004。木材真空微波加熱乾燥技術研究。國立臺北科技大學冷凍與低溫科技研究所。碩士論文。77頁。施圓通。2016。臺灣蚜小蜂科分類。國立臺灣大學生物資源暨農學院昆蟲學研究所博士論文 788頁。翁振宇、陳淑佩、吳文哲。2013。臺灣進口植物農產品檢出介殼蟲圖鑑。行政院農業委員會農業試驗所特刊 178號。181頁。章加寶。2005。有機農栽培作物蟲害管理談非農藥防治法。花蓮區有機農業生產技術研討會專刊。行政院農業委員會花蓮區農業改良場。花蓮陳志任。2007。微波電漿乾燥紅蘿蔔片之開發。國立屏東科技大學生物機電工程系所碩士論文。50頁。陳奕君。2015。紅龍果有機栽培管理技術。行政院農業委員會臺東區農業改良場技術特刊 61號。49頁。陳淑佩、翁振宇、吳文哲。2014。臺灣進口植物農產品檢出盾介殼蟲 (半翅目：介殼蟲總科：盾介殼蟲科)。臺灣農業研究63: 129-142。黃士晃。2013。優質紅龍果種苗繁殖生產技術。行政院農業委員會臺南區農業改良場。臺南區農業專訊 85: 1-5。黃毓斌、邱一中、李奇峰、陳淑珮、江明耀。2011。紅龍果栽培常見害蟲及其防治管理。行政院農業委員會農業試驗所技術服務 88: 26-30。楊宏仁。2006。檬果溫水處理防治採收後病害技術介紹。行政院農業委員會農業試驗所技術服務 65: 22-25。楊秀珠。2015。作物整合管理理念與在農業經營上之應用。農業世界 383: 1-10。葉士財、尤澤森、謝慶昌。2016。紅龍果濕腐病及煤煙病之發生與預防。行政院農業委員會臺中區農業改良場 131: 71-88。廖苑吟。2012。暗期中斷對紅龍果 (Hylocereus polyrhizus) 芽體分化與萌花之影響。國立臺灣大學園藝學研究所碩士論文。53頁。劉碧鹃。2010。臺灣地區紅龍果的栽培。行政院農業委員會農業試驗所鳳山熱帶園藝試驗分所。32頁。蔡正壽。2003。紅龍果 (Hylocereus undatus Britt.& Rose) 異種授粉對果實形質之影響。國立中興大學園藝系碩士論文。97頁。蔡志濃、林筑蘋、安寶貞、鄧汀欽、廖吉彥、倪蕙芳、楊宏仁。2013。紅龍果的重要病害及其防治 (上)。行政院農業委員會農業試驗所技術服務 95： 1-4。蔡志濃、林筑蘋、安寶貞、鄧汀欽、廖吉彥、倪蕙芳、楊宏仁。2013。紅龍果的重要病害及其防治 (下)。行政院農業委員會農業試驗所技術服務 96： 4-7。盧秋通、王清玲。2009。農作物害蟲生物防治之研究與發展。行政院農業委員會農業試驗所技術服務 80: 18-21。 Bergamim Filho A, Amorim L. 1999. Manejo integrado de pragas (IPM): problemas conceituais para sua aplicação em fitopatologia. Fitopatologia Brasileira. 24: 385-390. Brodie G, Jacob MV, Farrell P, Golachowska M. 2016. Microwave and Radio-Frequency Technologies in Agriculture: An Introduction for Agriculturalists and Engineers. De Gruyter Open. 355 pp. Brown DE, Burke J, Lester Thurow. 2003. Inventing Modern America: From the Microwave to the Mouse. The MIT Press. pp. 80-83. Chiang WY, Wu MH, Wu KL, Teng HH, Lin MH, Tsai YF, Ko CC, Jiang JA, Yang EC, Chu KR. 2014. A microwave applicator for uniform irradiation by circularly polarized waves in an anechoic chamber. Rev. Sci. Instrum. 85: 084703. Das I, Kumar G, Shah NG. 2013. Microwave Heating as an Alternative Quarantine Method for Disinfestation of Stored Food Grains. International Journal of Food Science. pp. 1-13. de Souza Born F, Cerqueira de Araújo MJ, Monaísy Alencar Lima H, de Melo Rodrigues V, Forti Broglio-Micheletti SM, Prédes Trindade RC, Pintos de Lemos EE, Passos da Silca DM. 2009. Control of Diaspis echinocacti (Bouché, 1833) (Hemiptera: Diaspididae) in prickly-pear. Acta Horti. 811: 223-226. Ferris GF. 1937. Atlas of the scale insects of North America. Stanford Univ. Press. Calif. SI-36: 1-4. Gagné RJ, Bennett FD. 1993. Two new species of Lestodiplosini (Diptera: Cecidomyiidae) preying on Homoptera and Thysanoptera in southern Florida. Florida Entomologist. 76: 341-348. Gamage TV, Sanguansri P, Swiergon P, Eelkema M, Wyatt P, Leach P, Alexander DLJ, Knoerzer K. 2015. Continuous combined microwave and hot air treatment of apples for fruit fly (Bactrocera tryoni and B. jarvisi) disinfestation. IFSET 29: 261-270. Grant V, Grant KA. 1978. The pollination spectrum in the southwestern American cactus flora. Plant Systematics and Evolution. 133: 29-37. Gunasena HPM, Pushpakumara DKNG, Kariyawasam M. 2007. Dragon fruit, Hylocereus undatus (Haw.) Britton and Rose. Underutilized fruit trees in Sri Lanka. 1: 110-141. Hanks LM, Denno RF. 1998. Dispersal and Adaptive Deme Formation in Sedentary Coccoid Insects. Genetic Structure and Local Adaptation in Natural Insect Populations. pp. 239-262. Hassan A, von Hörsten D, Lücke W. 2010. Application of microwave energy to control maize weevil (Sitophilus zeamais) in maize grains (Zea mays)). World Food System-A Contribution from Europe,Tropentag, Zurich. Herting B. 1972. Homoptera. A catalogue of parasites and predators of terrestrial arthropods. Section A. Host or Prey/Enemy. 5. Commonwealth Agricultural Bureaux, Commonwealth Institute of Biological Control. pp. 1-156. Hou L, Johnson JA., Wang S. 2016. Radio frequency heating for postharvest control of pests in agricultural products: A review. Postharvest Biol. Technol. 113: 106-118. Howell JO, Tippins HH. 1977. Deseriptions of first instars of nominal type-species of eight diaspidid tribes. Ann. Entomol. Soc. Am. 70: 119-135. Howell JO. 1975. Deseriptions of some immature stages in two Diaspis species (Homoptera: Coccoidea: Diaspididae). Ann. Entomol. Soc. Am. 68: 409-416. Japoshvili GO, Stathas GJ, Kampouris SG. 2010. Natural enemies of Diaspis echinocacti in Greece and first records of Aphytis debachi and Plagiomerus diaspidis. Phytoparasitica 38: 121-123. Jiang YL, Lin TS, Lee CL. 2011. Phenology, canopy composition, and fruit quality of yellow pitaya in tropical Taiwan. HortScience 46: 1497-1502. Jones DA, Lelyveld TP, Mavrofidis SD, Kingman SW, Miles NJ. 2002. Microwave heating applications in environmental engineering—a review. Lagunas-Solar MC. 2012. Non-Chemical Disinfestation of Food and Agricultural Commodities with Radiofrequency Power. Insecticides – Basic and Other Applications. pp. 233-258. Miller DR, Davidson JA. 2005. Armored Scale Insect Pests of Trees and Shrubs (Hemiptera: Diaspididae). Cornell University Press. pp. 1-442. Myartseva SN. 2007. A new species of Encarsia Förster (Hymenoptera: Aphelinidae), parasitoid of Acutaspis agavis (Townsend & Cockerell) (Homoptera: Diaspididae) from Mexico. Zoosystematica Rossica. 16: 271-273. Nerd A, Tel-Zur N, Mizrahi J. 2002. Fruits of Vine and Columnar Cacti. Cacti Biology and Uses. University of California Press. 1: 1-280. Nobel PS, de la Barrera E. 2002. High temperatures and Net CO2 uptake, growth, and stem damage for the hemiepiphytic cactus Hylocereus undatus. Biotropica. 34: 225-231. Nur U. 1990. Chromosomes, sex-ratios, and sex determination. Armoured scale insects, their biology, natural enemies and control. World Crop Pests. Elsevier, Amsterdam, the Netherlands 4A: 179-190. Oetting RD. 1984. Biology of the cactus scale, Diaspis echinocacti (Bouché) (Homoptera: Diaspididae). Ann. Entomol. Soc. Am. 77: 88-92. Reddy MVB, Raghavan GSV, Kushalappa AC, Paulitz TC. 1998. Effect of microwave treatment on quality of wheat seeds infected with Fusarium graminearum. J. agric. Engng Res. 71: 113-117. Rita WS, Suprapta DN, Sudana IM, Swantara IMD. 2013. First Report on Fusarium solani, a Pathogenic Fungus Causing Stem Rot Disease on Dragon Fruits (Hylocereus sp.) in Bali. J. Biol. 17: 93-99. Rosen D, DeBach P. 1979. Species of Aphytis of the world. Series Entomol. 17: 1-801. Saakyan-Baranova AA. 1954. Pests of greenhouse plants. Akademii Nauk SSSR Glav. Bot. Sad. Zashchita Rastenii Vreditelei i Bodez. 4: 7–41. (in Russian) Thompson WR. 1953. A Catalogue of the Parasites and Predators of Insect Pests. Section 2. Host Parasite Catalogue. Part 2. Hosts of the Hymenoptera (Agaonidae to Braconidae). Commonwealth Institute of Biological Control, Ottawa, Ontario, Canada. 190 pp. Vadivambal R, Jayas DS, White NDG. 2008. Mortality of stored-grain insects exposed to microwave energy. ASABBE 51: 641-647. Valiente-Banuet A, Santos Gally R, Arizmendi MC, Casas A. 2006. Pollination biology of the hemiepiphytic cactus Hylocereus undatus in the Tehuacán Valley, Mexico. J. Arid Environ. 68: 1-8. Yadav DN, Anand T, Sharma M, Gupta RK. 2014. Microwave technology for disinfestation of cereals and pulses: An overview. J Food Sci Technol. 51: 3568-3576. Zchori-Fein E, Perlman SJ. 2009. Distribution of the bacterial symbiont Cardinium in arthropods. Mol Ecol. DOI: 10.1111/j.1365-294X.2004.02203.x Zouba A, Khoualdia O, Diaferia A, Rosito V, Bouabidi H, Chermiti B. 2009. Microwave treatment for postharvest control of the date moth Ectomyelois ceratoniae. Tunisian J. Plant Prot. 4: 173-184.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/67751	-
dc.description.abstract	臺灣地區紅龍果近年來栽培面積大增，2014 年種植面積到達 1,676 公頃，產量 38,965 公噸，但也因為栽培面積擴大、栽培方法單一、集約種植、溫網室栽培及氣候變遷快速等，發生病蟲害種類逐年增加。近年來發現在臺灣紅龍果園間及溫室開始遭受仙人掌盾介殼蟲 (Diaspis echinocacti (Bouché)) 的危害，仙人掌盾介殼蟲屬於全球分布危害仙人掌科植物的重要半翅目昆蟲，因為生活史短、繁殖快速及個體微小，發現時常已經造成植株衰弱及與病害共同感染，致產生嚴重損失。本研究係探討物理防治、化學防治(包含殺蟲劑及有機資材)、及抗蟲品種(系)等綜合防治法對本蟲之抑制情形以運用於紅龍果之管理。物理防治以高頻微波加熱處理紅龍果苗表面上的危害蟲體，10秒內上升到 65℃ 可以達到 100% 的卵致死率。化學藥劑試驗防治本蟲效果由防治率高到低依序為百利普芬水基乳劑 26.23%、賜派滅水懸劑 12.28% 及達特南水溶性粒劑 8.85%。選用五種臺灣市售有機資材測試防治效果，防治率依序為脂肪酸鉀鹽 28.77%、窄域油 10.68%、混合苦楝液 10.34%、辣椒大蒜萃取物 7.34% 及印度苦楝油 6.80%，顯示混合苦楝液及印度苦楝油的防治效果不佳，而脂肪酸鉀鹽殺蟲效果較顯著，間隔七天後再次施用一次防治率可提高至 40.83%。抗蟲品種(系)選育試驗來源為臺南農改場培育出之 13 種紅龍果新品種(系)，篩選仙人掌盾介殼蟲較無偏好之紅龍果植株，結果以103ASG-8、福龍及紫圓二等品種(系)抗蟲性最為顯著。本研究進行多項防治仙人掌盾介殼蟲的方法試驗，期望可以提供推行綜合防治之參考。	zh_TW
dc.description.abstract	The cultivated area of pitaya in Taiwan is extending rapidly in recent years. For example, it reached 1,676 hectares and full production capacity was 38,965 tons in 2014. Meanwhile, lack of integrated pest management, intensive cultivation, facility cultivation and climatic upheaval raised the population and spread of the pests. The occurrence and infestation of cactus scale, Diaspis echinocacti (Bouché), has been detected in the fields and greenhouses. Which is an important worldwide pest of the cactus family, and is hard to detect before causing severe damage due to its fast reproducing rate, short life history and small size. In current study, physical control methods, chemical control methods (including insecticides and organic matreials), and planting insect-resistant cultivars were studied for the further application of integrated management. High-frequency microwave heating was chosen to study the physical control approach, where D. echinocacti eggs were completely eliminated within 65℃ in 10 second heating. The insecticides were also been tested where the control rates of Pyriproxyfen EW, Dinotefuran SG and Spirotetramat SC were 26.23%, 12.28% and 8.85%, respectively. Five organic material has been applied to test their control efficacy, where the control rates of potassium salts of fatty acids, narrow range oil, mixed neem oil, capsicum and garlic extract and neem oil are 28.77%, 10.68%, 10.34%, 7.34% and 6.80%, respectively. Furthermore, in the second replication which conducted 7 days after the first experiment, potassium salts of fatty acids gained 40.83% control rate. 13 pitaya cultivars (including several new cultivars from Tainan District Agricultural Research and Extension Station) were selected to test their insect-resisting ability., the results showed the cactus scale population was lowest on 103ASG-8, fu long, purple round 2 cultivars. These control studies provide information which can be used in future integrated control applications.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T01:47:45Z (GMT). No. of bitstreams: 1 ntu-106-R04645001-1.pdf: 2903125 bytes, checksum: 1fa93a95f4f8421c22d660c8cf1cac51 (MD5) Previous issue date: 2017	en
dc.description.tableofcontents	中文摘要 ii Abstract iv 目錄 vi 表次 x 圖次 xi Chapter 1 .前言 1 Chapter 2 .往昔研究 6 2.1 國內外紅龍果栽培現況 6 2.1.1 紅龍果植物簡介 6 2.1.2 紅龍果價值 7 2.1.3 紅龍果開花與授粉 8 2.1.4 紅龍果繁殖與栽培 8 2.1.5 紅龍果溫網室 9 2.1.6 紅龍果進出口檢疫 10 2.2 紅龍果栽培重要病蟲害與防疫檢疫 11 2.2.1 仙人掌盾介殼蟲之簡介 13 2.2.2 仙人掌盾介殼蟲之鑑定特徵 13 2.2.3 仙人掌盾介殼蟲-生活史與習性 14 2.2.4 仙人掌盾介殼蟲-防治 15 2.3 微波應用背景與安全性 16 2.3.1 微波優點 17 2.3.2 介電係數 17 2.4 非農藥資材 18 2.4.1 印度苦楝油 18 2.4.2 辣椒大蒜萃取物 18 2.4.3 脂肪酸鉀鹽 19 2.4.4 窄域油 19 Chapter 3 .材料與方法 21 3.1 供試植物與昆蟲 21 3.1.1 飼養盾介殼蟲之紅龍果枝條 21 3.1.2 仙人掌盾介殼蟲偏好試驗之紅龍果枝條 21 3.1.3 供試昆蟲 21 3.2 仙人掌盾介殼蟲形態與生態觀察 22 3.2.1 仙人掌盾介殼蟲雌雄蟲差異 22 3.2.2 仙人掌盾介殼蟲不同齡期防治效果 22 3.2.3 仙人掌盾介殼蟲與紅龍果病害之關係 22 3.2.4 仙人掌盾介殼蟲在生態鏈之角色 23 3.2.5 仙人掌盾介殼蟲之蠟殼作用 24 3.3 高頻微波系統 25 3.4 供試藥劑 26 3.4.1 化學藥劑試驗 26 3.4.2 非農藥有機資材試驗 27 3.5 實驗方法 27 3.5.1 高頻微波防治紅龍果仙人掌盾介殼蟲效果試驗 27 (1) 微波與盾介殼蟲蠟質殼 27 (2) 微波與卵存活率之關係 28 3.5.2 化學藥劑對紅龍果仙人掌盾介殼蟲防治試驗 28 3.5.3 非農藥資材對紅龍果仙人掌盾介殼蟲防治試驗 29 3.5.4 多種紅龍果品種(系)對仙人掌盾介殼蟲之抗蟲性試驗 29 Chapter 4 .結果 31 4.1 高頻微波防治紅龍果仙人掌盾介殼蟲效果試驗 31 4.1.1 微波與盾介殼蟲蠟質殼 31 4.1.1 卵存活率、植物受損面積與溫度之關係 31 4.2 化學藥劑對紅龍果仙人掌盾介殼蟲防治試驗 31 4.3 非農藥資材對紅龍果仙人掌盾介殼蟲防治試驗 32 4.4 多種紅龍果品種(系)對仙人掌盾介殼蟲之抗蟲性試驗 33 Chapter 5 .討論 34 5.1 高頻微波防治紅龍果仙人掌盾介殼蟲效果試驗 34 5.1.1 微波與盾介殼蟲蠟質殼 34 5.1.2 微波與卵存活率之關係 35 5.2 化學藥劑對紅龍果仙人掌盾介殼蟲防治試驗 35 5.2.1 三種化學藥劑防治比較 35 5.2.2 11% 百利普芬水基乳劑防治試驗 36 5.3 非農藥資材對紅龍果仙人掌盾介殼蟲防治試驗 36 5.3.1 五種非農藥資材防治比較 36 5.3.2 脂肪酸鉀鹽防治試驗 37 5.4 多種紅龍果品種(系)對仙人掌盾介殼蟲之抗蟲性試驗 38 5.4.1 試驗材料與若蟲趨性 38 5.4.2 植株枝條老幼與若蟲偏好之調查 38 5.4.3 植株上下部位差異調查 39 5.4.4 紅龍果品種(系)抗仙人掌盾介殼蟲之比較分析 39 Chapter 6.結論 . 41 參考文獻 42 圖與表 50 附錄 69
dc.language.iso	zh-TW
dc.title	紅龍果之仙人掌盾介殼蟲 (半翅目：盾介殼蟲科) 綜合防治	zh_TW
dc.title	Integrated Control of the Cactus Scale, Diaspis echinocacti (Bouché) (Hemiptera: Diaspididae) in Pitaya	en
dc.type	Thesis
dc.date.schoolyear	105-2
dc.description.degree	碩士
dc.contributor.coadvisor	朱國瑞(Kwo-Ray Chu)
dc.contributor.oralexamcommittee	溫宏治(Hung-Chich Wen),陳文華(Wen-Hua Chen)
dc.subject.keyword	紅龍果,仙人掌盾介殼蟲,物理防治,化學防治,抗蟲品種,綜合防治,	zh_TW
dc.subject.keyword	Pitaya,Diaspis echinocacti (Bouche),physical control,chemical control,insect-resistant varieties,integrated control,	en
dc.relation.page	76
dc.identifier.doi	10.6342/NTU201702019
dc.rights.note	有償授權
dc.date.accepted	2017-07-26
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	植物醫學碩士學位學程	zh_TW
顯示於系所單位：	植物醫學碩士學位學程

文件中的檔案：

檔案	大小	格式
ntu-106-1.pdf 目前未授權公開取用	2.84 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。