異源四倍體LLAA“Gelria × Purple Sensation”百合組織培養再生及體外結球調控

Jui-Yu Chang; 張瑞妤

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/15864

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	許圳塗(Chou Tou Shii)
dc.contributor.author	Jui-Yu Chang	en
dc.contributor.author	張瑞妤	zh_TW
dc.date.accessioned	2021-06-07T17:53:59Z	-
dc.date.copyright	2012-08-20
dc.date.issued	2012
dc.date.submitted	2012-08-16
dc.identifier.citation	參考文獻（Reference） 1. 卜學賢、陳維倫.1988. 活性碳對培養基中植物生長調節物質的吸收附作用. 植物生理學報. 14（4）：401-405. 2. 方華舟、洪萬泓. 2006. 百合組織培養及快繁技術的研究與探討. 貴州林業科技34（4）：27-29. 3. 方煒、饒瑞佶. 2004. 高亮度發光二極體在生物產業的應用. 中華農業學報. 5：432-446. 4. 王俐、李枝林、趙燕. 2001. 百合的組織培養及快繁技術. 雲南農業大學學報. 16（4）：304-307. 5. 王敏、劉邻渭. 2001. 葉綠素及衍生物研究進展與護綠工藝分析. 鄭州輕工業學院學報（自然科學版）16：63-67. 6. 王禱、楊萬年. 2005. 宜昌百合小鱗莖誘導的初步研究. 氨基酸和生物資源. 27（3）：7-8. 7. 吳淑華. 2001. 基因型、滲透壓劑、ABA及Fluridone對百合為體繁殖小鱗莖葉片發育形態之影響. 國立台灣大學園藝學研究所碩士論文. 8. 李林川、瞿禮嘉. 2006. 生長素對擬南芥葉片發育調控的研究進展. 植物學通報. 23（5）：459-465. 9. 李建鋒、張榮、董瑩瑩. 2010. 施用尿素對冬蘿蔔產量形成及葉綠素含量的影響. 安徽農業科學. 38（4）：1786-1896. 10. 李紅利、孫振元、趙梁軍、韓蕾、巨關升. 2009. 茉莉酸類物質對植物生長發育及抗性的影響. 中國農學通報. 25（16）：167-172. 11. 李黛、談鋒、祝順琴. 2005. 淡黃花百合的組織培養. 種子. 24（9）：27-29. 12. 李黛、談鋒. 2004. 誘導百合鱗片芽的影響因子研究. 種子. 23（11）：18-20. 13. 林伯青、戴廷恩、鍾仁彬. 2008. 六種LED光源組合對東方型雜交百合鱗片增殖、葉片形成與發根之影響. 台灣園藝. 54（3）：223-230. 14. 林貴美、李小泉、李朝生、韋華芳、鄧瑜、陳霞、張進忠. 2007. 6-BA 對麝香百合組織培養繼代苗的影響. 中國農業科技導報. 9（2）：66-68. 15. 金石文. 1995. 百合屬之種原保存、遺傳歧異性分析及其種源利用與評估. 國立台灣大學園藝學研究所博士論文. 16. 金美玉、朴炫春、廉美蘭. 2009. 茉莉酸甲酯對組培”Mona”百合鱗莖及鱗片葉生長的影響. 安徽農業科學. 37（1）：39, 82. 17. 柯學莎、李偉. 2006. 激素對水生植物生理生態的影響及其應用. 生態學報. 26（5）：1542-1549. 18. 胡鳳榮、席夢利、劉光欣、王鵬凱、張睿婧、池堅、施季森. 2006. 東方百合鱗莖快速增長的組培體系研究. 分子植物育種. 4（6）：882-886. 19. 殷秀杰、燕昌江、李鳳蘭、胡寶忠. 2009. 混合鹽鹼脅迫對白三葉種子萌發的影響. 東北農葉大學學報. 40（12）：58-61. 20. 張延龍、梁建麗、牛立新. 2006. 東方百合試管鱗莖膨大的研究. 西北農林科技大學學報（自然科學版）. 34（6）：75-78. 21. 張施君、王鳳蘭、周厚高、江如藍. 2004. 新鐵炮百合和金百合的組織培養與快速繁殖. 湖南農業大學學報（自然科學版）. 30（2）：135-137. 22. 崔焱森.張俊蓮.李學才.王蒂.黃鵬.王麗.杜喜梅. 2007. 馬鈴薯試管苗對鹽脅迫的生理反應. 中國馬鈴薯. 21（1）：1-5. 23. 張藝萍、崔光芳、王繼華、吳學尉、賈文杰、吳麗芳. 2011. 百合試管子球培育影響. 江西農業大學學報. 33（1）：29-31. 24. 張藝萍、崔光芬、王繼華、吳學尉、賈文杰、吳麗芳. 2011. 百合試管子球培育影響因子的研究. 江西農業大學學報. 33（1）：29-31. 25. 曹鳳秋、劉國偉、王偉紅、吳學明、劉來華. 2009. 高等植物尿素代謝及運轉的分子機理. 植物學報. 44（3）：273-282. 26. 許圳塗. 1978. 台灣原生百合生長習性及栽培利用之研究. 國立台灣大學園藝系編印. 27. 許圳塗、金石文、阮明淑. 2002. 百合. 財團法人台灣區花卉發展協會. 28. 郭小鶯. 1996. 群間雜交百合早熟性、耐熱性及稔性之表型表現與評估. 國立台灣大學園藝學研究所碩士論文. 29. 陳孝銘. 2003. 外加Abscisic acid、Osmotica 及 Fluridone對百合組培苗小鱗莖葉片發育形態之影響. 國立台灣大學園藝學研究所碩士論文. 30. 陳春賓. 2008. 百合遠緣雜種LA及LO之稔性特性及多倍體誘導. 國立台灣大學園藝學研究所碩士論文. 31. 陸春霞、岑秀芬、黃燕芬、韋鵬霄. 2005. 不同激素配比對百合葉片誘導與分化的影響. 廣西農業生物科學. 24（4）：331-334. 32. 郭海濱、雷家軍. 2006. 卷丹百合鱗片及珠芽組織培養研究. 農業生物技術科學. 22（2）：72-74. 33. 閆新房、丁林波、丁義. 2009. LED光源在植物組織培養中的應用. Chinese Agricultural Science Bulletin. 25（12）：42-45. 34. 傅玉蘭、何風群. 2001. 影響百合試管鱗莖增殖因素的研究. 安徽農業大學學報. 28（2）：179-181. 35. 曾美貞. 2000. 艷紅鹿子百合鱗片與癒傷組織培養之植株再生. 國立台灣大學園藝學研究所碩士論文. 36. 黃海. 2003. 植物葉片發育調控機理研究的發展. 植物學通報. 20: 416-422 37. 黃朝慶. 2002. 植物異型葉的發生與適應性. 自然保育季刊. 39: 35-40 38. 萬小榮、李玲. 2004. 高等植物脫落酸生物合成途徑及其酶調控. 植物學通報. 21（3）： 352-359. 39. 路艷、卞貴建、王永清. 2007. 大百合鱗片誘導不定芽的影響因素研究. 現代農業科技. 16：8-10. 40. 趙海濤、劉春、明軍、穆鼎. 2010. ABA對’西伯利亞’百合試管鱗莖發育及休眠的影響. 園藝學報. 37（3）：428-434. 41. 趙慶芳、曾小英、丁蘭、佘立萍、張彥明. 2003. 東方百合組織培養和快速繁殖研究. 西北師範大學學報（自然科學版）. 39（1）：66-68. 42. 齊春敏、王奎玲、劉慶超、劉慶華. 2008. 青島百合組織培養研究. 農業生物技術科學. 24（4）：85-88. 43. 潘瑞熾、古煥慶. 1998. 茉莉酸甲酯對花生幼苗生長抗旱性的影響. 植物學報. 40（3）：256-262. 44. 蔣科技、皮妍、侯嶸、唐克軒. 2010. 植物內源茉莉酸類物質的生物合成途徑及其生物學意義. 植物學報. 45（2）：137-148. 45. 鄭一強、孫紅梅. 2011. 東方百合試管鱗莖形成條件優化. 中國農學通報. 27（6）：90-94. 46. 鄭免. 1983. 台灣百合實生苗簇生習性及影響生長發育因子之研究. 國立台灣大學園藝研究所碩士論文. 47. 鄭曉雲、應紹舜. 2006. 台灣的艷紅鹿子百合生物學之研究. Jour. Exp. For. Nat. Taiwan Univ. 20：31-43. 48. 錢善勤、王忠、莫億偉、顧蘊潔. 2004. 植物向光性反應的研究進展. 植物學通報. 21（3）：263-272. 49. 錢瓊秋、李彩琴、朱祝軍. 2004. 兩個百合品種組織培養的比較研究. 浙江農業學報. 16（4）：198-201. 50. 戴廷恩、侯鳳舞、許圳塗. 2005. 原生鐵炮型百合形態標誌及發育可塑性之研究. 台灣農業研究. 54：207-218. 51. 關錦毅、郝再彬、張達、王秀麗. 2009. 葉綠素提取與檢測及生物學功效的研究進展. 東北農業大學學報. 40（12）：130-134. 52. 嚴松、嚴長杰、顧銘洪. 2008. 植物葉發育的分子機理. 遺傳. 30（9）：1127-1135. 53. 饒瑞佶、方煒、蔡田龍. 2003. 超高亮度紅、藍光LED應用於蝴蝶蘭組織培培苗栽培之研究. 12（4）：93-100. 54. Aguettaz, P., A. Paffen, I. Delvallee, P. van der Linde and G. J. de Klerk. 1990. The development of dormancy in bulblets of Lilium speciosum generated in vitro. Plant Cell Tissue Organ Cult. 22：167-172. 55. Barba-Gonzalez, R., A. C. Lokker, K. B. Lim, M. S. Ramanna and J. M. van Tuyl. 2004. Use of 2n gametes for the production of sexual polyploids from sterile Oriental × Asiatic hybrids of lilies（Lilium）. Theor. Appl. 109：1125-1132. 56. Barton, M. K. 2001. Leaving the meristem behind : regulation of KNOX genes. Genome Boil. 2: 1002.1-1002.3. 57. Bryne, M. E. 2005. Networks in leaf development. Curr. Opin. Plant Biol. 8：59-66.a 58. Byrne, M. E. 2005. Shoot development—genetic interactions in the meristem. Biol. Sci. 33: 1499-1501. b 59. Capitani, F., S. Biondi, G. Falasca, V. Ziosi, A. Balestrazzi, D. Carbonera, P. Torrigiani and M. M. Altamura. 2005. Methyl jasmonate disrupts shoot formation in tobacco thin cell layers by over-inducing mitotic activity and cell expansion. Planta. 220：507-519. 60. Chen, H. C., S. G. Hwang, S. M. Chen, C. T. Shii and W. H. Cheng. 2011. ABA-mediated heterophylly is regulated by differential expression of 9-cis-epoxycarotenoid dioxygenase 3 in lilies. Plant Cell Physiol. 52（10）：1806-1821. 61. Chin, S. W., C. E. Kuo, J. J. Liou and C.T. Shii. 1997. Dominant expression on vigor and heat tolerance of Lilium longiflorum germplasm in distant hybridization with Asiatic and Oriental lilies. Acta Hort. 430：495-502. 62. Comber, H. F. 1949. A new classification of the genus Lilium. N. A. L. S. Yearbook. 13：86-105. 63. De Jong, P. C. 1974. Some notes on the evolution of lilies. Yearbook North Amer. Lily Soc. 27：23-28. 64. de Klerk, G. K. Kim, M. van Schadewijk, and M. Gerrits. 1992. Growth of bulblets of Lilium speciosum in vitro and in soil. Acta Hort. 325：513-520. 65. Eeckhaut, T. G. R., S. P. O. Werbrouck, L. W. H. Leus, E. J. V. Bockstaele and P. C. Debergh. 2004. Chemically induced polyploidization in Spathiphyllum wallisii Regel through somatic embryogenesis. Plant Cell, Tiss. Organ Cult. 78：241-246. 66. Fei, X. L., M. F. Wang and L. Dong. 2009. Plant regerneration from in vitro cultured leaves of Lanzhou lily（Lilium davidii var. unicolor）. Sci. Hort. 119：458-461. 67. Fukao, T. and J. Bailey-Serres. 2007. Ethylene—A key regulator of submergence responses in rice. Plant Science. 175：43-51. 68. Gabryszewska, E. 2001. Effect of ABA, fluridone and light quality on growth and dormancy of tissue-culture herbaceous peony shoots. Acta Hort. 560：407-410. 69. Gerrits-Langens, M. M., S. Nashimoto, A. F. Croes and G. J. D. Klerk. 2001. Development of dormancy in different lily genotypes regenerated in vitro. Plant Growth Regulation. 34：215-222. 70. Han S., N. Kitahata, K. Sekimata, T. Saito, M. Kobayashi, K. Nakashima, K. Yamaguchi-Shinozaki, K. Shinozaki, and S. Yoshida. 2004. A novel inhibitor of 9-cis-epoxycarotenoid dioxygenase in abscisic acid biosynthesis in higher plants. Plant Physiol. 135: 1574-1582. 71. Han, B. H., B. W. Yae, H. J. Yu, and K. Y. Peak. 2005. Improvement of in vitro micropropagation of Lilium oriental hybrid ‘Casablanca’ by the formation of shoot with abnormally swollen basal plates. Sci. Hortic. 103：351-359. 72. Haruki, K., T. Yamada K, T. Hosoki, K. Ohta. 1996. Effects of sugar and temperature on the growth of miniature bulbs of Lilium japonicum Thunb. cultured on a rotary shaker. Journal of the Japanese Society for Horticultural Science. 65（2）：363-371. 73. Helsley, C. 1983. New classification of Lilium species. The North American Lily Society Year Book 36: 67-72. 74. Howell, H. S., S. Lall, and P. Che. 2003. Cytokinins and shoot development. Plant Sci. 8: 453-459. 75. Hsu, T., H. Lin, J. Wang, R. Chen, Y. Wang, and B. Lin. 2001. Early genes responsive to abscisic acid during heterophyllous induction in Marsilea quadrifolia. Plant Mol. Biol. 47: 703-715. 76. Jasik, J. and G. J. de Klerk. 2006. Effect of methyl jasmonate on morphology and dormancy development in lily bulblets regenerated in vitro. J. Plant Growth Regul. 25：45-51. 77. Kessler, S. and N. Sinha. 2004. Shaping up: the genetic control of leaf shape. Curr. Opin. Plant Biol. 7: 65-72. 78. Kim, K. S., E. Davelaar and G. J. Deklerk. 1994. Abscisic acid controls dormancy development and bulb formation in lily plantlets regeneration in vitro. Physiologia Plantarum 90：59-64. 79. Klancnik, K., M. Mlinar, A. Gaberscik. 2012. Heterophylly results in a variety of “spectral signatures” in aquatic plant species. Aquatic Botany. 98：20-26. 80. Kozuka, T., G. Horiguchi, G. T. Kim, M. Ohgishi, T. Sakai and H. Tsukaya. 2005. The different growth responses of the Arabidopsis thaliana leaf blade and the petiole during shade avoidance are regulated by photoreceptors and sugar. Plant Cell Physiol. 46（1）：213-223. 81. Kuwabara, A., K. Ikegami, T. Koshiba and T. Nagata. 2003. Effect of ethylene and abscisic acid upon heterophylly in Ludwigia arcuata(Onagraceae). Planta 217: 880-887. 82. Kyozuka, J. 2007. Control of shoot and root meristem function by cytokinin. Curr. Opin. Plant Boil. 10: 442-446. 83. Langens-Gerrits, M. M., S. Nashimoto, A. F. Croes and G. J. De Klerk. 2001. Development of dormancy in different lily genotypes regenerated in vitro. Plant Growth Regul. 34: 215–222. 84. Li, L. C., D. M. Kang, Z. L. Chen, and L. J. Qu. 2007. Hormonal regulation of leaf morphogenesis in Arabidopsis. J. Integr. Plant Biol. 49: 75-80. 85. Lighty, R. W. 1968. Evolutionary tends in Lilies. Yearbook North Amer. Lily Soc. 31：40-44. 86. Lim, K. B. and Van Tuyl J. M. 2007. Lily. In：Anderson NO（ed）Flower breeding and genetics. Springer, New Yok. p.517-537. 87. Lin, B. L. and W. J. Yang. 1999. Blue light and abscisic acid in dependently induce heterophyllous switch in Marsilea quadrifolia. Plant Physiol. 119: 429-434. 88. Lin, B. L., H. J. Wang, J. S. Wang, L. I. Zaharia and S. R. Abrams. 2005. Abscisic acid regulation of heterophylly in Marsilea quadrifolia L.：effects of R-（－）and S-（＋）isomers. J. Exp. Bot. 56：2935-2948. 89. Lin, C. H, B. L. Lin and W. Y. Kao. 2008. Can ethylene induce heterophyll in Marsilea quadrifolia? Taiwania 53: 237-241. 90. Liu, T. S. and S. S. Ying. 1978. Lilium tourn, ex L. In：H. L. Liu, T. C. Huang, T. Koyama, C. E. Devol,（Eds）,Flora of Taiwan 5, Epoch Publishing, Taipei. p.57-62. 91. Mat, N., N. A. Rosni, N. Z. A. Rashid, N. Haron, Z. M. Nor, N. F. H. Nudin, A. G. Yunus and A. M. Ali. 2012. Leaf morphological variations and heterophylly in Ficus deltoidea Jack（Moraceae）. Sains Malaysiana. 41（5）：527-538. 92. Matusova, R., K. R. Francel, W. A. Verstappen, M. C. R. Mommer, L. and E. J. W. Visser . 2005. Underwater photosynthesis in flooded terrestrial plant: A matter of leaf plasticity. Ann. Bot. 96: 581-589. 93. Matusova, R., K. Rani, F. W. A. Verstappen, M. C. R. Franssen, M. H. Beale and H. J. Bouwmeester. 2005. The strigolactone germination stimulants of the plant-parasitic Striga and Orobanche spp. are derived form the carotenoid pathway. Plant Physiol. 139（2）：920-934. 94. McRae, E. A. 1998. Lilies. Timber Press, Portland. 95. Minorsky, P. V., 2003. The hot and the classic: Heterophylly in the aquatic plants. Plant Physiol. 133: 1671-1672. 96. Mommer, L. and E. J. W. Visser. 2005. Underwater photosynthesis in flooded terrestrial plant: A matter of leaf plasticity. Ann. Bot. 96: 581-589. 97. Murashige, T. and F. S. Skoog. 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15：473-497. 98. Noda, S. 1966. Cytogenetics of the origin of triploid Lilium tigrinum. Bull Osaka Gakuin Univ. 6：85-140. 99. Noda, S. and E. Schmitzer. 1992. Natural occurrence of triploid Lilium bulbiferum native to Europe. Yearbook North Amer. Lily Soc. 43：78-81. 100. Paffen, A. M. G., P. Aguettaz, I. Delvallee, G. J. de Klerk and R. J. Bogers. 1990. The development of dormancy in lily bulblets generated in vitro. Acta Hort. 266：51-58. 101. Pan, M. J. and J. van Staden. 1998. The use of charcoal in in vitro culture—A review. Plant Growth Regul. 26：155-163. 102. Peck, D. E. and B. Cumming. 1986. Beneficial effects of activated charcoal on bulblet production in tissue cultures of Muscari armeniacum. Plant Cell Tissue Organ Culture. 6：9-14. 103. Poethig R. S., 1997 Leaf morphogenesis in flowering plants. The Plant Cell 9: 1077-1087. 104. Puliga, S., C. Vazzana and W. J. Davies. 1996. Control of crops leaf growth by chemical and hybraulic influences. J. Exp. Bot. 47：529-537. 105. Robinson, T. L. and B. H. Barritt. 1990. Endogenous abscisic acid concentrations, vegetative growth, and water relations of apple seedlings following PEG-induced water stress. J. Amer. Soc. Hort. Sci. 115：991-999. 106. Rohwer, B. C. L. and J. E. Erwin. 2008 . Horticultural applicarions of jasmonate：A review. J. Hortic. Sci. Biotechnol. 83（3）：283-304. 107. Rong, L., J. Lei and C. Wang. 2011. Collection and evaluation of the genus Lilium resource in Northeast China. Genet Resour Crop Evol. 58：115-123. 108. Saruwateri, H., Y. S. Nakano, K. Nakano, M. Hiramatsu, Y. Ozaki and H. Okubo. 2008. Interspecific lily hybrids with the ability to flower precociously and to produce multiple flower stalks from Lilium formosanum. J. Japan. Soc. Hort. Sci. 77：312-317. 109. Scofield S. and J. A. H. Murray. 2006. KNOX gene function in plant stem cell niches. Plant Mol. Biol. 60：929-946. 110. Shepard, J. F., D. Bidbey, T. Barsby and R. Kemble. 1983. Genetic transfer in plants through interspecific protoplast fusion. Science. 219：683-688. 111. Shii, C. T. 1983. The distribution and variation of Lilium formosanum Wall and L. longiflorum Thumb. in Taiwan. N. A. L. S. Yearbook. 36：48-51. 112. Sinha, N. 1999. Leaf development in angiosperms. Annu. Rev. Plant Physiol. Plant Mol. Biol. 50：419-446. 113. Sinha, N. 1999. Leaf development in angiosperms. Annu. Rev. Plant Physiol. Plant Mol. Biol. 50：419-446. 114. Smith, L. G. and S. Hake. 1992. The initiation and determination of leaves. Plant Cell. 4：1017-1027. 115. Sylvester, A. W., L. Smith and M. Freeling. 1996. Acquisition of identity in the developing leaf. Ann. Rev. Cell Dev. Biol. 12：257-304. 116. Tanaka, B. M., T. Takamura, H. Watanabe, M. Endo, T. Yanagi, K. Okamoto. 1998. In vitro growth of cymbidium plantlets cultured under superbright red and blue light-emitting diodes（leds）. J. Hortic Sci. Biotechnol. 73（1）：39-44. 117. Tanaka, M. and Y. Sakanishi. 1978. Factors affecting the growth of in vitro cultured lateral buds from Phalaenopsis flower stalks. Sci. Hortic. 8（2）：169-178. 118. Tanaka, M., M. Kumura and M. Goi. 1988. Optimal conditions for shoot production from Phalaenopsis flower-stalk cuttings cultured in vitro. Sci. Hort. 35：117-126. 119. Tanaka, M., M. Kumura and M. Goi. 1988. Optimal conditions of shoot production from Phalaenopsis flower-stalk cuttings cultured in vitro. Sci. Hortic. 35：117-126. 120. Thomas, T.D. 2008. The role of activated charcoal in plant tissue culture. Biotechnology Advances. 26：618-631. 121. Tsukaya, H. 2002. Interpretation of mutants in leaf morphology：Genetic evidence for a compensatory system in leaf morphogenesis that provides a new link between cell and organismal theories. Int. Rev. Cyt. 217：1-39. 122. Tsukaya, H. 2002. Leaf development. The Arabidopsis Book. 1：1-23. 123. Tsukaya, H. 2005. Leaf shape: genetic controls and environmental factors. Int. J. Dev. Biol. 49: 547-555. 124. Van Aartrijk, J. and G. J. Blom-Barnhoorn. 1980. Effect of sucrose, mineral, salts, and some organic substances on the adventitious regeneration in vitro of plantlets from bulb-scale tissue of Lilium speciosum“Rubrum”. Acta Hort. 109：297-302. 125. Van Aarttrijk, J., G. J. Blom-Barnhoorn and P. C. G. Van der Linde. 1990. Lilies. In：P. V. Ammirato, D. A. Evans, W. R. Sharp and Y. P. S. Bajaj（eds.）, Handbook of Plant Tissue Culture V5. Collier Macmillan, London, p.535-576. 126. Van Tuyl, J. M., K. van de Sande, R. van Dien, D. Straathof and H. M. C. van Holsteijn. 1990. Overcoming interspecific crossing barriers in Lilium by ovary and embryo culture. Acta Hort. 266：317-322. 127. Van Tuyl, J. M., M. P. Van Dien, M. G. M. Van Creij, T. C. M. Van Kleinwee, J. Franken and R. J. Bino. 1991. Application of in vitro pollination, ovary culture, ovule culture and embryo rescue for overcoming incongruity barriers in interspecific Lilium crosses. Plant Sci. 74：115-126. 128. Van Tuyl, M. J., A. van Dijken, H. S. Chi, K. B. Lim, S. Villemoes and B. C. E. van Kronenburg. 2000. Breakthroughs in interspecific hybridization of lily. Acta Hort. 508：83-88. 129. Varshney, A., V. Dhawan and P. S. Srivastava. 2000. A protocol for in vitro mass propagation of Asiatic hybrids of lily through liquid stationary culture. In vitro Cell Dev. Biol. Plant. 36：383-391. 130. Voesenek, L. A. C. J., J. J. Benschop, J. Bou, M. C. H. Cox, H. W. Groeneveld, F. F. Millenaar, R. A. M. Vreeburg, and A. J. M. Peeters. 2003. Interaction between plant hormones regulate submergence-induced shoot elongation in the flooding-tolerant dicot Rumex palustris. Ann. Bot. 91: 205-211. 131. Wan, X. R. and L. Li. 2004. Pathways and related enzymes of ABA biosynthesis in higher plants. 植物學通報. 21（3）：352-359. 132. Wasilewska, A., F. Vlad, C. Sirchandra, Y. Redko, F. Jammes, C. Valon, N. F.D. Frey and J. Leung. 2008. An update on abscisic acid signaling in plants and more….Mol. Plant 1: 198-217. 133. Werner, T., and T. Schmulling. 2009. Cytokinin action in plant development. Curr. Opin. Plant Boil. 12:527-538. 134. Werner, T., V. Motyka, M. Strnad, and T. Schmulling. 2001. Regulation of plant growth by cytokinin. PNAS. 98:10487-10492. 135. Werner, T., V. Motyka, V. Laucou, R. Smets, H. V. Onckelen, and T. Schmulling. 2003. Cytokinin-deficient transgenic Arabidopsis plants show multiple developmental alterations indicating opposite functions of cytokinins in the regulation of shoot and root meristem activity. The Plant Cell 15: 2532-2550. 136. Werner, T., V. Motyka, V. Laucou, R. Smets, H. V. Onckelen, and T. Schmulling. 2003. A new classic of cytokinin research: Cytokinin-deficient Arabidopsis plants provide new insights into cytokinin biology. The Plant Cell, Vol. 15: 2489–2492. 137. Wilkins, H. F. and J. M. Dole. 1997. The physiology of flowering in Lilium. Acta Hort. 430：183-188. 138. Wilson, E. H. 1925. The lilies of Eastern Asia. Dulau and Company London. p.20-33. 139. Woodcock, H. B. D. and W. T. Stearn. 1950. Lilies of the world：Their cultivation and classification. Charles Scribner’s Sons, London. p.340. 140. Yanagi, T., K. Okamoto, and S. Takita.1996. Effects of blue, red, and blue/red lights of two different PPF levels on growth and morphogenesis of lettuce plants. Acta Horticulturae 440:117-122. 141. Ying, S. S. 2000. Liliaceae, p. 35-71. In D. E. Boufford, C. F. Hsieh, T. C. Huang, C. S. Kuoh, H. Ohashi, and H. J. Su ( eds.) Flora of Taiwan, 2nd Edition. Vol. 5. Editorial Committee of the Flora of Taiwan. Department of Botany, National Taiwan University, Taipei. 142. Zhao, X. Y., X. L. Chen, D.M. Li and K. F. Liu. 1996. Resources and research situation of the genus Lilium in China. Acta Hort. 414：59-68.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/15864	-
dc.description.abstract	LA型雜交百合生長呈中強簇生型，多倍體化後形態發生偏向鱗片型生長。本研究目的為探討異源四倍體選系LLAA “ Gelria × Purple sensation” 組織培養體外結球與生長發育之影響因子，期以針對較偏晚熟之特性進行改善。本試驗以百合試管苗鱗片為培植體，接種於MS基本培養基，另外參試添加有機添加物、BA、活性碳、蔗糖或ABA生合成抑制劑對其再生作用及小鱗莖生長發育之影響。結果有機添加物以1 g/L 麥芽萃取物不定芽再生率較高。在含有0.3-1.5 mg/L BA之培養基能促進鱗片葉形成。此外，培養基中添加1-2 g/L 活性碳亦有助於鱗片葉的形成。高糖濃度則有利於小鱗莖肥大生長，但會抑制葉身發育，在12％蔗糖濃度下無鱗片葉發生。鱗片葉形成數目及速率與百合的早熟性有密切的關係，8-10枚鱗片葉可視為其生理成熟的一個指標。經ELISA分析結果顯示，百合群間內生ABA含量與結球時葉原體後發育形態密切相關。早熟性百合內生ABA含量較低，呈鱗片葉型結球，而晚熟種百合內生ABA含量較高，呈鱗片型結球。而LED光源組合BRFr照射下可促進鱗片葉發生。	zh_TW
dc.description.abstract	LA hybrid lily was mid-high vigorous rosette type in growth. Mitotic polyploidization of LA hybrid lily was scale type of growth. To improve the character of late-maturing, in this frame, we were probing the factors that influenced in vitro bulb development in LLAA “ Gelria × Purple sensation”. This work used the in vitro lilies scale as the explants cultured on MS medium supplemented with organic additive, BA, Activated charcoal (AC), sucrose or ABA inhibitors. The results showed that the optimal medium of bulb regeneration was MS＋0.1 mg/L NAA＋1 g/L AC＋1 g/L malt extract. Modified MS medium supplemented with 0.3~0.5 mg/L BA promoted improved the scale leaf formation. The addition of 1~2 g/L AC promoted scale leaf formation. The medium supplemented with high concentration of sucrose improved size of bulblets but inhibited blade formation. On the 12％ sucrose medium showed no scale leaf formation. Scale leaf number and formation rate were the physiologic mature index when 1to 8 scale leaves formation. Lilies of endogenous ABA content closely to related to the bulblet development. The distinct morphological difference between scale type and scale leaf type growth patterns in L. spesiosum and L. formosanum, respectively, we used for ELISA assays show the endogenous ABA level was significantly higher in oriental lily（L. spesiosum）than longiflorum lily（L. formosanum）. This research studies on influence of regeneration and growth under different light quality shows that（BRFr）irradiation would improve the leaves formation.	en
dc.description.provenance	Made available in DSpace on 2021-06-07T17:53:59Z (GMT). No. of bitstreams: 1 ntu-101-R97628105-1.pdf: 4162401 bytes, checksum: 9ef8d8dcf1f3c53e8ebb952053c55d78 (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	目錄口試委員會審定書………………………………………………………………………i 誌謝……………………………………...…………………………………...………….ii 中文摘要……………………………………………………………..………...……….iii 英文摘要…………………………………………………………………..……...…….iv 縮寫字………………………………………………………………..…….....................v 前言……………………………………………………………………………………...1 前人研究………………………………………………………………….......…….…...3 一、百合地理分布、性狀及分類地位……………………………………………….… 3 二、遠緣雜種百合早熟性表現及多倍體化表現型優勢………………………….……6 三、百合簇生苗期發育形態與早熟機制之關聯………………………………….……8 四、植物葉片形態發育機制與影響生長之因子………………………………….……9 五、百合組織培養繁殖………………………………………………………...………15 材料與方法…………………………………………………..……………………….. 19 一、參試材料…………………………………………………......……......……….....19 二、試驗方法…………………………………………..………………………...……19 1. 母株系之增殖……………………………………………………………….…..…19 2. 品種間再生效率及小鱗莖發育特性之體外評估……………...........………20 3. 添加物對四倍體選系LA小鱗莖再生及體外結球之影響……………………….20 4. 滲透壓變化對異源四倍體 LA 體外結球變形葉發育形態之影響……………21 5. ABA 生合成抑制劑與體外結球鱗片葉發生的關係………………………...…22 6. Fluridone 處理白化效應之克服…………………………...…....................……26 7. 光源組合對百合鱗片葉誘導之效益評估…………………...…………………27 結果………………………………………………………………………………….…29 1. 品種間再生效率及小鱗莖發育特性之體外評估……………………...…29 2. 有機添加物對四倍體選系 LA 小鱗莖再生及體外結球之影響………………30 3. BA對四倍體選系LLAA “ Gel × PS ”不定芽再生與體外結球鱗片葉發生之影響………………………………………………………………………………….31 4. 活性碳對異源四倍體百合 LA 再生繁殖之影響……………….………......…31 5. 滲透壓變化對異源四倍體 LA 體外結球變形葉發育形態之影響……………31 6. ABA 生合成抑制劑與異源四倍體百合 LA 體外結球鱗片葉發生的關係…..32 7. Fluridone 處理白化效應之克服………….…………………………..…………34 8. 光源組合對百合鱗片葉誘導之效益評估…………………..………...…………35 討論………………………………………………………………………...………..…73 1. 品種間再生效率及小鱗莖發育特性之體外評估………………….....…73 2. 有機添加物對四倍體選系 LA 小鱗莖再生及體外結球之影響………………74 3. BA對四倍體選系 LLAA“ Gel × PS ”不定芽再生與體外結球鱗片葉發生之響…………………………………………………………………..……...……74 4. 活性碳對異源四倍體百合 LA 再生繁殖之影響…….…………….………......75 5. 滲透壓變化對異源四倍體 LA 體外結球變形葉發育形態之影響…………....75 6. ABA 生合成抑制劑與異源四倍體百合 LA 體外結球鱗片葉發生的關係…..77 7. Fluridone 處理白化效應之克服………………………….……………………...77 8. 光源組合對百合鱗片葉誘導之效益評估……………………………….………78 結論…………………………………………………………………………………….80 參考文獻…………………………………………………………………….……… 81 附錄………………………………………………………………………….……92
dc.language.iso	zh-TW
dc.subject	鱗片葉	zh_TW
dc.subject	發光二極體	zh_TW
dc.subject	異形葉性	zh_TW
dc.subject	離層酸	zh_TW
dc.subject	鱗片	zh_TW
dc.subject	Heterophylly	en
dc.subject	Light emitting diode (LED)	en
dc.subject	Scale-leaf	en
dc.subject	Scale	en
dc.subject	Abscisic acid	en
dc.title	異源四倍體LLAA“Gelria × Purple Sensation”百合組織培養再生及體外結球調控	zh_TW
dc.title	In vitro regeneration and bulbing of allotetraploid hybrid LLAA“Gelria × Purple Sensation”lily.	en
dc.type	Thesis
dc.date.schoolyear	100-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	黃鵬林(Pung Ling Huang),鍾仁彬(Jen Pin Chung)
dc.subject.keyword	發光二極體,異形葉性,離層酸,鱗片,鱗片葉,	zh_TW
dc.subject.keyword	Light emitting diode (LED),Heterophylly,Abscisic acid,Scale,Scale-leaf,	en
dc.relation.page	93
dc.rights.note	未授權
dc.date.accepted	2012-08-17
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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