溫度、乙烯與黑暗貯運對紅花朵麗蝶蘭開花品質之影響

Szu-Chieh Lin; 林思潔

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35221

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	李哖(Nean Lee)
dc.contributor.author	Szu-Chieh Lin	en
dc.contributor.author	林思潔	zh_TW
dc.date.accessioned	2021-06-13T06:44:32Z	-
dc.date.available	2005-09-01
dc.date.copyright	2005-08-01
dc.date.issued	2005
dc.date.submitted	2005-07-29
dc.identifier.citation	王明吉、李哖 1991. 光度對蝴蝶蘭小苗生長、開花及碳水化合物及葉片酸度變化之影響中國園藝 37(4):290. 李哖 1988. 蝴蝶蘭之生長與開花生理蝴蝶蘭生產改進研討會專集台東改良場印 p.13-27. 李哖 1991. 蝴蝶蘭之幼年性園藝作物產期調節研討會專集Ⅱ 台中農改場印p.77-86. 李哖 2001. 蝴蝶蘭光合作用、開花生理及葉片黃斑劣變之研究產業科技發展學術合作論文集 Ⅰ:22-35. 李哖、林雨森 1992. 蝴蝶蘭花朵之呼吸作用中國園藝 38(4):228-240. 李哖、林菁敏 1984. 溫度對白花蝴蝶蘭生長與開花之影響中國園藝 40(3):233-231. 李哖、林菁敏 1987. 蝴蝶蘭之花期調節園藝作物產期調節研討會專集台中改良場編印 p.27-44. 李哖、郭瑋君 1999. 台灣蝴蝶蘭和大白花雜交種之光合作用產學科技發展學術合作論文集台灣糖業股份有限公司編印 p.90-103. 李哖、楊學琳 2000. 溫度及日長對朵麗蝶蘭Doritaenopsis Purple Gem生長與開花的影響產業科技發展學術合作論文集Ⅰ:19-28. 李彬志 2000. 蝴蝶蘭葉片黃斑、花朵壽命及花朵對乙烯敏感度之研究國立臺灣大學園藝學研究所碩士論文林雨森 1988. 蝴蝶蘭切花採收後生理與老化國立台灣大學園藝學研究所碩士論文林育如 1994. 光、溫度與生長調節劑對蝴蝶蘭生長與開花之影響國立臺灣大學園藝學研究所碩士論文林育如 2002. 蝴蝶蘭腋芽發育與開花調控關係之研究國立臺灣大學園藝學研究所博士論文林育如、李哖 1998. 蝴蝶蘭涼溫催花前後之光需求中國園藝 44(4):463-478. 林鄉薰 2001. 1-MCP與乙烯前處理對盆花及切花壽命及品質之影響國立臺灣大學園藝學研究所碩士論文林鄉薰、李哖和張天鴻 2003. 乙烯與1-MCP前處理對盆栽台灣蝴蝶蘭花朵萎凋之影響中國園藝 49(2):199-210. 林讚標 1977. 台灣蘭科植物Vol. 2. 昌達印製有限公司洪惠娟 1998. 貯運與貯運前後與環境對蝴蝶蘭抽梗與開花品質的影響國立台灣大學園藝學研究所碩士論文洪惠娟、李哖 1998. 貯運方法對蝴蝶蘭抽梗和開花品質的影響中國園藝 44(4):555. 張綺恂 2002. 乙烯、黑暗貯運及1-MCP對不同蝴蝶蘭盆花品種產後品質開花之影響國立臺灣大學園藝學研究所碩士論文張綺恂、李哖和張天鴻 2003. 乙烯與黑暗引起蝴蝶蘭盆花花朵及花苞萎凋中國園藝 49(2):173-182. 連程翔 1995. 唐菖蒲與蝴蝶蘭採收後生理之研究國立台灣大學園藝學研究所博士論文楊學琳 1996. 溫度、光與無機養分對姬蝴蝶蘭和朵麗蝶蘭生長與開花的影響國立臺灣大學園藝學研究所碩士論文黃肇家 1995. 蝴蝶蘭切花低溫生理障礙之研究國立台灣大學園藝學研究所博士論文 Altvorst Van A. C. and Bovy A. G. 1995. The role of ethylene in the senescence of carnation flowers, a review. Plant Growth Regulation 16:43-53. Arditti, J. 1979. Aspects of the physiology of orchids. P.422-656. In: H. W. Woolhouse (ed). Advances in botanical research, Vol. 7 Academic Press. London. Borochov, A., and W. R. Woodson 1989. Physiology and biochemistry of flower petal senescence. Hort. Rev. 11:15-43. Burg S. P. and Dijkman M. J. 1967. Ethylene and auxin participation in pollen induced fading of Vanda orchid blossoms. Plant. Physiol. 42:1648-1650. Chen, W. S., H. Y. Liu, Z. H. Liu, L. Yang and W. H. Chen. 1994. Gibberellin and temperature influence carbohydrate content and flowering in Phalaenopsis. Physiol. Plant. 90:391-395. Christenson E. A. 2001. Phalaenopsis：A Monograph Timber Press, Inc. De Vries, J. T. 1953. On the flowering of Phalaenopsis schilleriana. Rchb. F.. Ann. Bogor. 1:61-76. Gibba. M. M., Blessington T. M. Price J. A. and Wang Y. T. 1989. 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L. Rae. 1973. Temperature and ethylene effects on cut flower of carnation (Dianthus caryophyllus L.). J. Amer. Soc. Hort. Sci. 98(6):568-572. Mor Y., Reid M. S. and Kofranek A. M. 1980. Role of the ovary in carnation senescence. Sci. Hortic. 13:377-383. Nell. T. A. and Noordegraaf. C. V., 1991. Simulated transport, postproduction irradiance influence postproduction performance of pottedted roses. HortScience 26:1401-1404. Nishimura, G. and K. Kosugi. 1972. Studies on the flower formation of orchids Ⅵ. Effect of temperature and daylength on the elongation of flower stalks and flowering. Proc. Spring Meeting Jap. Soc. Hortic. Sci., p.342-343. O’Neill S. D., Nadeau J. A. and Zhang X. S. 1993. Interorgan regulation of ethylene biosynthetic genes by pollination. The Plant Cell Vol. 5. p.419-432. Porat R., Borochov A., Halevy A. H. and O’Neill S. D. 1994. Pollination-induced senescence of Phalaenopsis petals. Plant Growth Regulation 15:129-136. Porat R., Halevy A. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35221	-
dc.description.abstract	本研究以16個紅花朵麗蝶蘭品種為材料，探討溫度、乙烯及黑暗貯運對朵麗蝶蘭開花品質之影響，結果顯示朵麗蝶蘭滿天紅（Dtps. Queen Beer）、 King Shiang's Kide、Formosa Rose營養生長以30/25℃為宜，滿天紅在25/20處理後28天可抽梗，抽梗後1週抽梗率達100%。低溫平均可抽近2枝花梗，25/20℃分枝性較佳。朵麗蝶蘭King Shiang's Kide於30/25℃以上均不抽梗。以2μl•l-1乙烯處理朵麗蝶蘭13個盆花品種，其基部花朵及大花苞對乙烯敏感，各品種中以Minho Diamond、Monsanhon、King Shiang’s Rose、Minho Little Rose及San Ge Diamond 5品種對乙烯較不敏感，其中King Shiang’s Rose、Formosa Rose與對乙烯略敏感之King Shiang’s Coral具親緣關係。朵麗蝶蘭 Murray Spencer-Tsuei Hua Lady ‘Taida’、滿天紅（Dtps. Queen Beer）、Little Gem Stripes、Dtps. Formosa Rose × Phal. Shin In Lady、新滿天紅、Tainan Beauty、立匠Eagle為對乙烯極敏感之品種。朵麗蝶蘭Dtps. Formosa Rose × Phal. Shin In Lady 黑暗貯運7天會造成部分花朵花苞萎凋，主要使花梗頂端小花苞乾縮。朵麗蝶蘭KHM313 I-shin Jem黑暗貯運花梗長度大於17cm者花朵對黑暗不敏感，但小花苞萎凋；花梗長小於17cm者花苞對黑暗不敏感。	zh_TW
dc.description.abstract	This study is probed into various day/night temperature, ethylene and stimulated dark transport condition on Doritaenopsis flowering quality by 16 red Doritaenopsis cultivars. The result shows vegetative growth temperature was better at 30/25℃ of Dtps. Queen Beer, Dtps. King Shiang's Kide and Dtps. Formosa Rose. Dtps. Queen Beer’s stalk can emerge at 25/20℃ after 28 days and all plants were emerged after 1 week. At lower temperature, every plants has two stalks; plants at 25/20℃ has more branches. Dtps. King Shiang's Kide didn’t emerge at 30/25℃. Treat 13 potted Doritaenopsis with 2μl•l-1 ethylene 12 hrs can observed the older flowers and the larger buds were more sensitive to ethylene. 5 cultivars include Dtps. Minho Diamond, Dtps. Monsanhon, Dtps. King Shiang’s Rose, Dtps. Minho Little Rose and Dtps. San Ge Diamond were more insensitive to ethylene among 13 cultivars. In these cultivars, Dtps. King Shiang’s Rose, Dtps. Formosa Rose and Dtps. King Shiang’s Coral are relative. Dtps. Murray Spencer-Tsuei Hua Lady ‘Taida’, Dtps. Queen Beer, Dtps. Little Gem Stripes, Dtps. Formosa Rose × Phal. Shin In Lady, Dtps. 新滿天紅, Dtps. Tainan Beauty and Dtps. 立匠Eagle are sensitive with ethylene. Dark transport for 7 days con induced flower and bud wilting in Dtps. Formosa Rose × Phal. Shin In Lady, especially young buds at the top of stalk. 4 or 7 days dark storage of Dtps. KHM313 I-shin Jem, plants’ flower was insensitive to dark when stalk length over 17cm but younger bud was sensitive. Bud was insensitive to dark storage when stalk length is between 0-17cm.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T06:44:32Z (GMT). No. of bitstreams: 1 ntu-94-R91628119-1.pdf: 2632930 bytes, checksum: 3fc4acca5cc13080088a362f37065578 (MD5) Previous issue date: 2005	en
dc.description.tableofcontents	前言（Intorduction） 1 前人研究（Literature Review） 3 一、朵麗蝶蘭之生長習性 3 二、影響蝴蝶蘭開花之因子 4 （一）幼年性 5 （二）溫度 5 （三）日長 6 （四）光強度 7 （五）生長調節劑 8 三、蝴蝶蘭花朵老化 8 （一）自然老化 8 （二）授粉 9 （三）逆境 10 （四）乙烯 10 四、黑暗貯運對盆花蝴蝶蘭之影響 12 材料與方法（Materials and Methods） 14 一、植物材料 14 二、試驗場地與栽培管理方式 14 三、試驗設計 15 （一）溫度對朵麗蝶蘭抽梗、開花之影響 15 （二）乙烯對朵麗蝶蘭花朵花苞萎凋之影響 15 （三）黑暗貯運對朵麗蝶蘭花朵花苞萎凋之影響 16 四、藥劑配製及試驗調查 17 （一）1-MCP的配製與施用 17 （二）乙烯的配製與施用 17 （三）1-MCP及乙烯試驗 18 （四）貯藏試驗 18 （五）試驗調查項目 18 五、碳水化合物含量分析 18 結果（Results） 25 一、溫度對朵麗蝶蘭生長與開花之影響 25 （一）溫度對滿天紅品種生長與開花之影響 25 （二）溫度對朵麗蝶蘭King Shiang's Kide生長與開花之影響 27 （三）溫度對朵麗蝶蘭Formosa Rose生長與開花之影響 28 二、朵麗蝶蘭對乙烯、1-MCP及黑暗貯運之反應及其花朵壽命 30 （一）朵麗蝶蘭品種間對2μl•l-1乙烯之敏感度及對乙烯作用抑制劑1-MCP的反應 30 （二）朵麗蝶蘭立匠Eagle對不同乙烯濃度之反應 32 （三）Dtps. Formosa Rose × Phal. Shin In Lady花朵花苞對黑暗貯運之敏感度 32 （四）不同品種朵麗蝶蘭觀賞壽命之調查 33 （五）朵麗蝶蘭KHM313 I-shin Jem不同花梗長度黑暗貯運後花朵花苞之敏感度 33 討論（Discussion） 83 一、溫度對朵麗蝶蘭抽梗、開花之影響 83 二、朵麗蝶蘭對乙烯、1-MCP及黑暗貯運之反應及其花朵壽命 86 摘要（Abstract） 90 Summary 91 參考文獻（References） 93
dc.language.iso	zh-TW
dc.subject	1-MCP	zh_TW
dc.subject	朵麗蝶蘭	zh_TW
dc.subject	乙烯	zh_TW
dc.subject	黑暗貯運	zh_TW
dc.subject	溫度	zh_TW
dc.subject	ethylene	en
dc.subject	1-MCP	en
dc.subject	temperature	en
dc.subject	dark storage	en
dc.subject	Doritaenopsis	en
dc.subject	Dtps.	en
dc.title	溫度、乙烯與黑暗貯運對紅花朵麗蝶蘭開花品質之影響	zh_TW
dc.title	Effect of Temperature, Ethylene and Dark Storage on Flowering of Red Doritaenopsis	en
dc.type	Thesis
dc.date.schoolyear	93-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林瑞松(Ruey-Song Lin),王自存(Tsu-Tsuen Wang),葉德銘(Der-Ming Yeh),張耀乾(Yao-Chien Chang)
dc.subject.keyword	朵麗蝶蘭,乙烯,黑暗貯運,溫度,1-MCP,	zh_TW
dc.subject.keyword	Doritaenopsis,Dtps.,ethylene,dark storage,temperature,1-MCP,	en
dc.relation.page	92
dc.rights.note	有償授權
dc.date.accepted	2005-07-29
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	園藝學研究所	zh_TW
顯示於系所單位：	園藝暨景觀學系

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