請用此 Handle URI 來引用此文件:
http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/50140
完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 葉德銘(Der-Ming Yeh) | |
dc.contributor.author | Shih-Jhe Chen | en |
dc.contributor.author | 陳世哲 | zh_TW |
dc.date.accessioned | 2021-06-15T12:30:43Z | - |
dc.date.available | 2019-08-24 | |
dc.date.copyright | 2016-08-24 | |
dc.date.issued | 2016 | |
dc.date.submitted | 2016-08-04 | |
dc.identifier.citation | 王裕權、張元聰、陳燿煌、林棟樑. 2010a. 洋桔梗新品種臺南1號夏美桃之育成. 臺南區農業改良場研究彙報 55:24-29.
王裕權、張元聰、陳燿煌、林棟樑. 2010b. 洋桔梗新品種臺南2號夏西施之育成. 臺南區農業改良場研究彙報 55:30-35. 王裕權、張元聰、楊譪華. 2011. 耐熱洋桔梗之育成. 2011年花卉研究團隊成果發表會專刊. 行政院農業委員會農業試驗所p.117-126. 郭華仁. 2015. 種子學. 臺大出版中心. 郭華仁、朱鈞. 1981. 種子滲調法. 科學農業 29:381-383. 許鈺佩. 2004. 洋桔梗種子發芽特性之研究. 國立臺灣大學農藝學系碩士論文. 許謙信. 2005. 菊花之葉、莖、花間之供源積儲關係及其對切花葉片老化之影響. 臺中區農業改良場研究彙報 88:19-30. 陳錦木. 2013. 重瓣日日春之花芽形態、花形遺傳及育種. 國立臺灣大學園藝暨景觀學系博士論文. 陳榮坤. 1999. 種子批衣系統之設置與測試. 國立臺灣大學農藝學系碩士論文. 張元聰、王美琴、王裕權、楊譪華、王仕賢. 2015. 臺灣洋桔梗新品種選育 . 臺中區農業改良場特刊11-20. 張元聰、王裕權. 2013. 播種後低溫浸潤對洋桔梗品種苗期簇生化及開花之影響. 臺南區農業改良場研究彙報 62:30-40. 張元聰、王裕權、陳燿煌、林棟樑、王仕賢. 2010. 洋桔梗育種之回顧與展望. 台南區農業專訊 73:7-10. 黃玉梅. 2007. 種子披衣處理技術之應用與發展. 農政與農情181:99-103. 蔡宛育、陳彥樺、許謙信、易美秀、魏芳明. 2011. 提高洋桔梗生育及切花品質. 臺中區農業專訊 74:13-17. 蔡淑華. 1975. 植物組織切片技術綱要. 茂昌圖書有限公司. 簡嘉緯. 2010. 洋桔梗苗期溫度與藥劑處理對其簇生化形態之探討. 國立臺灣大學園藝學系碩士論文. 八代嘉昭. 1993. トルコギキョウをつくりこなす. 農文協. 東京. 大川清. 1993. 花專科* 育種と栽培. トルコギキョウ. 誠文堂新光社. 東京. 氏原暉男、俣野敏子、村田孝志. 1973. 栽培リンドウ(Gentiana)の受粉様式ならびに採種法に関する研究. 信州大学入学部紀要10:115-123. 間藤正美、佐藤孝夫、檜森靖則、柴田浩、淺利幸男. 2004. トルコギキョウ新品種「秋試交1号」「秋試交2号」育成にあたり解明した花色・花形の遺伝様式とF1の組合せ. 秋田県農業試験場研究報告 44:1-14. 間藤正美、山形敦子、佐藤孝夫. 2007. 八重咲きトルコギキョウを得る表現型の組み合わせ. 東北農業研究 60:167-168 渡辺英城. 2009. トルコギキョウの野生種の特性と新品種の育成. 大分県農林水産研究センター研究報告. 農業編 3:75-84. 渡辺功. 2006. トルコギキョウ覆輪花弁における着色割合の季節変動. 園芸学研究 5:409-413. 福田直子、宮坂昌実、斉藤涼子、朽津和幸、中山真義. 2005. トルコギキョウ白色系花弁の紫外光下における明暗像とフラボノイド含量との関係. 園芸学研究 4:147-151. 福田直子、羽田野昌二、秋元徹、大澤良. 2010. トルコギキョウ花弁における覆輪着色面積率の環境変異と選抜効果. 園芸学研究 9:255-261. 福田直子、中山真義. 2008. 温度条件がトルコギキョウ覆輪花弁の着色面積率に及ぼす影響. 園芸学研究 7:531-536. 福田直子、柴田道夫. 2009. 施肥量がトルコギキョウの覆輪着色面積率に及ぼす影響. 園芸学研究 8:187-192. 福田直子. 2011. トルコギキョウの基部着色型覆輪花色の温度反応と基部着色型覆輪に由来する純白品種の発見. 花き研報 11:1-8. 藤原博文、兒玉泰. 2008. トルコギキョウの野生種の特性と新品種の育成. 大分県農林水産研究センター研究報告. 農業編 2:65-84. Abdoli, M. 2014. Effect of seed priming on seed dormancy, vigor and seedling characteristics of fennel (Foeniculum vulgare L.). Acta Adv. Agr. Sci. 2:18-24. Almouslem, A.B. and R.A.E. Tilney-Basset. 1989. The inheritance of flower doubleness and nectary spur in Pelargonium ×hortorum Bailey. Euphytica 41:23-29. Aloui, H., M. Souguir, S. Latique, and C. Hannachi. 2014. Germination and growth in control and primed seeds of pepper as affected by salt stress. Cercetari Agron. Moldova 47:83-89. Anderson, N.O., P.D. Ascher, R.E. Widmer, and J.J. Luby. 1990. Rapid generation cycling of chrysanthemum using laboratory seed development and embryo rescue techniques. J. Amer. Soc. Hort. Sci. 115:329-336. Asen, S., R.J. Griesbach, K.H. Norrist, and B.A. Leonhardt. 1986. Flavonoids from Eustoma grandiflorum flower petals. Phytochemistry 25:2509-2513. Bailly, C., H. El-Maarouf-Bouteau, and F. Corbineau. 2008. From intracellular signaling networks to cell death: the dual role of reactive oxygen species in seed physiology. Comptes Rendus Biol. 331: 806-814. Bardin, S.D., H.C. Huang, and J.R. Moyer. 2004. Control of Pythium damping-off of sugar beet by seed treatment with crop straw powders and a biocontrol agent. Biol. Control. 29: 453-460. Bayat, H., H. Neamati, A. Bagheri, A. Tehranifar, and M. Saie. 2012. Estimation of heterosis and combining ability in petunia (Petunia hybrida Hort.). Notulae. Sci. Biol. 4:151-157. Beckers, G.J.M. and U. Conrath. 2007. Priming for stress resistance: From the lab to the field. Curr. Opin. Plant Biol. 10:425-431. Bhargava, B., Y.C. Gupta, S.R. Dhiman, and P. Sharma. 2015. Effect of seed priming on germination, growth and flowering of snapdragon (Antirrhinum majus L.). Natl. Acad. Sci. Lett. 38:81-85. Brockwell, J. 1962. Studies on seed pelleting as an aid to legume seed inoculation. Austral. J. Agr. Res. 4:638-649. Bruce, T.J.A., M.C. Matthes, J.A. Napier, and J.A. Pickett. 2007. Stressful “memories” of plants: Evidence and possible mechanisms. Plant Sci. 173:603-608. Bruggink, T.G. 2004. Flower seed priming, pregermination, pelleting and coating, p.249-263. In: M.B. McDonald and F.Y. Kwong (eds.). Flower seeds: Biology and technology. CAB Intl., USA. Bruggink, G.T., J.J.J. Ooms, and P. van der Toorn. 1999. Introduction of longevity in primed seeds. Seed Sci. Res. 9:49-51. Clarke, B. 1985. Cleaning seeds by fluidization. J. Agr. Eng. Res. 31:231-242. Carpenter, W.J. 1989. Salvia splendens seed pregermination and priming for rapid and uniform plant emergence. J. Amer. Soc. Hort. Sci. 114:247-250. Carpenter, W.J. 1990a. Light and temperature govern germination and storage of caladium seed. HortScience 25:71-74. Carpenter, W.J. 1990b. Priming dusty miller seeds: Role of aeration, temperature, and relative humidity. HortScience 25:299-302. Carpenter, W.J. and J.F. Boucher. 1991. Priming improves high-temperature germination of pansy seed. HortScience 26:541-544. Carpenter, W.J. and J.F. Boucher. 1992. Germination and storage of vinca seed is influenced by light, temperature, and relative humidity. HortScience 27:993-996. Carpenter, W.J., E.R. Ostmark, and J.A. Cornell. 1995. Temperature and seed moisture govern germination and storage of gerbera seed. HortScience 30:98-101. Clerkx, E.J., M.E. El-Lithy, E. Vierling, G.J. Ruys, H. Blankestijn-De Vries, S.P.C. Groot, D. Vreugdenhil, and M. Koorneef. 2004. Analysis of natural allelic variation of Arabidopsis seed germination and seed longevity traits between the accessions Landsberg erecta and Shakdara, using a new recombinant inbred line population. Plant Physiol. 135:432-443. Chen, K. and R. Arora. 2011. Dynamics of the antioxidant system during seed osmopriming, post-priming germination, and seedling establishment in spinach (Spinacia oleracea). Plant Sci. 180:212-220. Chen, K. and R. Arora. 2013. Priming memory invokes seed stress-tolerance. Environ. Expt. Bot. 94:33-45. Chen, K., R. Arora, and U. Arora. 2010. Osmopriming of spinach (Spinacia oleracea L. cv. Bloomsdale) seeds and germination performance under temperature and water stress. Seed Sci. Technol. 38:36-48. Chiu, K.Y., S.J. Chuang, and J.M. Sung. 2006. Both anti-oxidation and lipid-carbohydrate conversion enhancements are involved in priming-improves emergence of Echinacea purpurea seeds that differ in size. Scientia Hort. 108:220-226. Copeland, L.O. and M.B. McDonald. 2001. Principles of seed science and technology, 4th Edition. Kluwer Academic Publishers. Norwell, Massachusetts USA. Dafni, A. and D. Firmage. 2000. Pollen viability and longevity: pratical, ecological and evolutionary implications. Plant Syst. Evol. 222:113-132. Davies K.M., J.M. Bradley, K.E Schwinn., K.R. Markham and E. Podivinsky. 1993. Flavonoid biosynthesis in flower petals of five lines of lisianthus (Eustoma grandiflorum Grise.). Plant Sci. 95: 67-77. Das, P., K.K. Nutan, S.L. Singla-Pareek, and A. Pareek. 2015. Oxidative environment and redox homeostasis in plants: Dissecting out significant contribution of major cellular organelles. Front. Environ. Sci. 2:70. Dejong, J. and D.L. Drennan. 1984. Genetic analysis in Chrysanthemum morifolium. II. Flower doubleness and ray floret corolla splitting. Euphytica 33:465-470. Demir, A.O., A.T. Goksoy, H. Buyukcangaz, Z.M. Turan, and E.S. Koksal. 2006. Deficit irrigation of sunflower (Helianthus annuus L.) in a sub-humid climate. Irrig. Sci. 24:279-289. Derkx, M.P.M. and C.M. Karssen. 1993. Effects of light and temperature on seed dormancy and gibberellin-stimulated germination in Arabidopsis thaliana: studies with gibberellin- deficient and insensitive mutants. Physiol. Plant. 89:360-268. Derkx, M.P.M., E. Vermeer, and C.M. Karssen. 1994. Gibberellins in seeds of Arabidopsis thaliana: Biological activities, identification and effects of light and chilling on endogenous levels. Plant Growth Regulat. 15:223-234. Dickie, J.B., R.H. Ellis, H.L. Ryders, and P.B. Tompsett. 1990.Temperature and seed longevity. Ann. Bot. 65:197-204. Dole, J.M. and H.F. Wilkins. 1999. Floriculture: Principles and species. 2nd ed. Prentice Hall, Upper Saddle River, U.S. Ecker, R., A. Barzilay, and E. Osherenko. 1994a. Inheritance of seed dormancy in lisianthus (Eustoma grandiflorum). Plant Breeding 113:335-338. Ecker, R., A. Barzilay, and E. Osherenko.1994b. The genetic relations between length of time to germination and seed dormancy in lisianthus (Eustoma grandiflorum). Euphytica 80:125-128. Ellis, R.H., T.D. Hong, and E.H. Roberts. 1990. An intermediate category of seed storage behavior? I. Coffee. J. Expt. Bot. 41:1167-1174. Endo, T. 1962. Inheritance of anthocyanin concentration in flowers of Torenia fournieri. Jpn. J. Genet. 37:284-290. Esizad, S.G., B. Kaviani, A. Tarang, and S.B. Zanjani. 2012. Micropropagation of lisianthus (Eustoma grandiflorum), an ornamental plant. Plant Omics J. 5:314-319. Farooq, M., S.M.A. Basra, and K. Hafeez. 2005. Seed invigoration by osmohardening in Indica and Japonica rice. Seed Sci. Technol. 34:181-187. Farooq, M., S.M.A Basra,, H. Rehman, N. Ahmad, and B.A. Saleem. 2007. Osmopriming improves the germination and early seedling growth of melons (Cucumis melo L.) Pak. J. Agr. Sci. 44:529-536. Farooq, M., A. Wahid, and D.J. Lee. 2010. Role of seed priming in improving wheat performance in a changing climate. Food Security Sustainable Agr. 15:15-18. García-Martinez, J.L. and J. Gil. 2002. Light regulation of gibberellin biosynthesis and mode of action. J. Plant Growth Regulat. 20:354-368. Gawronska, H., Y.Y. Yang, K. Furakawa, R.E. Kendrick, N. Takahashi, and Y. Kamiya. 1995. Effect of low irradiance stress on gibberellin levels in pea seedling. Plant Cell Physiol. 36:1361-1367. Glen, K. 1991. Seed coating: A tool for stand establishment, a stimulus to seed quality. HortTechnology 1: 98-102. Grellier, P., L. M. Riviere, and P. Renault. 1999. Transfer and water-retention properties of seed-pelleting materials. Euro. J. Agron. 10: 57-65. Govinden-Soulange, J. and M. Levantard. 2008. Comparative studies of seed priming and pelleting onpercentage and mean time to germination of seeds of tomato (Lycopersicon esculentum Mill.). Afr. J. Agr. Res. 3:725-731 Guan, Y.J., J. Hu, X.J. Wang, and C.X. Shao. 2009. Seed priming with chitosan improves maize germination and seedling growth in relation to physiological changes under low temperature stress. J. Zhejiang Univ. Sci. 10:427-433. Hagiwara, M. and M. Imura. 1991. Promotion of seedling emergence of paddy rice from flooded soil by coating seed with potassium nitrate. Jpn. J. Crop. Sci. 60:441-446. Halmer, H. 1987. Technical and commercial aspects of seed pelleting and film-coating. Brit. Crop Prod. Council Monogr. 39:191-204. Harbaugh, B.K. 1995. Flowering of Eustoma grandiflorum (Raf.) Shinn. cultivars influenced by photoperiod and temperature. HortScience 30:1375-1377. Harbaugh, B.K. 2007. Lisianthus Eustoma grandiflorum, p.645-663. In: N.O. Anderson (ed.). Flower breeding and genetics. Springer, The Netherland. Harbaugh, B.K. and Z. Deng. 2006. UF savanna cultivar group- Eight colors of heat-tolerant lisianthus for potted plants. HortScience 41:850-854. Harbaugh, B.K. and J.W. Scott. 1996. ‘Maurine Blue’ lisianthus [Eustoma grandiflorum (Raf.) Shinn.]. HortScience 31:1055-1056. Harbaugh, B.K. and J.W. Scott. 1998. Six heat-tolerant cultivars of lisianthus. HortScience 33:164-165. Harbaugh, B.K. and J.W. Scott. 2001. ‘Florida Silver’ - A semi-dwarf heat-tolerant lisianthus. HortScience 36:988-989. Harbaugh, B.K. and J.W. Scott. 2003. ‘Maurine Twilight’ and ‘Maurine Daylight’-Heat-tolerant lisianthus with bi-colored flowers. HortScience 38:131-132. Harbaugh, B.K. and J.W. Scott. 2005a. ‘Florida Blue Frill’ and ‘Florida Pink Frill’ –Semi-dwarf heat-tolerant lisianthus with bicolored flowers. HortScience 40:858-860. Harbaugh, B.K. and J.W. Scott. 2005b. ‘Maurine Dawn’ –A heat-tolerant lisianthus with pink/white bicolored flowers. HortScience 40:861-863. Harbaugh, B.K., M.S. Roh, R.H. Lawson, and B. Pemberton. 1992. Rosetting of lisianthus cultivars exposed to high temperatures. HortScience 27:885-887. Harbaugh, B.K., J.W. Scott, and D.B. Rubino. 1996. ‘Florida Blue’ Semi-dwarf lisianthus [Eustoma grandiflorum (Raf.) Shinn.]. HortScience 31:1057-1058. Harrington, J.F. 1972. Seed storage and longevity, p. 145-240. In: T.T. Kozlowski (ed.). Seed Biology. Acad. Press, NY. Hashimoto, F., A.F.M.J. Uddin, K. Shimizu, and Y. Sakata. 2004. Multiple allelism in flavonoid hydralation in Eustoma grandiflorum (Raf.) Shinn. flowers. J. Jpn. Soc. Hort. Sci. 73:235-240. Hathcock, A.L. and P.H. Dernoeden. 1984. Seed germination of tall fescue and Kentucky bluegrass as affected by adhesives. HortScience 19:442-443. Hill, H.J., J.D. Cunningham, K.J., Bradford, and A.G. Taylor. 2007. Primed lettuce seeds exhibit increased sensitivity to moisture content during controlled deterioration. HortScience 42:1436-1439. Hisamatsu, T., M. Koshioka, N. Oyama, and L.N. Mander. 1998. Identification of endogenous gibberellins and their role in rosette seedling of Eustoma grandiflorum. J. Jpn. Soc. Hort. Sci. 67:866-871. Hisamatsu, T., M. Koshioka, N. Oyama, and L.N. Mander. 1999. The relationship between endogenous gibberellins and rosetting in Eustoma grandiflorum. J. Jpn. Soc. Hort. Sci. 68:527-533. Hussian, I., R. Ahmad, M. Farooq, A. Rehman, and M. Amin. 2014. Seed priming improves the performance of poor quality wheat seed under drought stress. Appl. Sci. Rpt. 7:12-18. Horn, W. 1994. Interspecific crossability and inheritance in Pelargonium. Plant Breeding 113:3-17. Horn, W. 2002. Breeding methods and breeding research. p. 47-83. In: A. Vainstein (ed.). Breeding for ornamentals: Classical and molecular approaches. Kluwer Acad. Publ., The Netherlands. Ibrahim, E.I. 2016. Seed priming to alleviate salinity stress in germinating seeds. J. Plant Physiol. 192:38-46. Imamura, H., K. Suto., and H. Ikeda. 2009. Bolting responses of Eustoma grandiflorum (Raf.) Shinn. to chilling during seed ripening. J. Jpn. Soc. Hort. Sci. 8:41-46. Ishimori, M. and S. Kawabata. 2014. Conservation and diversification of floral homeotic MADS-box genes in Eustoma grandiflorum. J. Jpn. Soc. Hort. Sci. 83:172-180. Islam, N., G.G. Patil, and H.R. Gislerød. 2005. Effect of photoperiod and light integral on flowering and growth of Eustoma grandiflorum (Raf.) Shinn. Scientia Hort. 103:441-451. Jackson, D., K. Roberts, and C. Matin 1992. Temporal and spatial control of expression of anthocyanin biosynthetic genes in developing flowers of Antirrhinum majus. Plant J. 2:425-434. Jisha, K.C., K. Vijayakumari, and J.T. Puthur. 2013. Seed priming for abiotic stress tolerance: An overview. Acta Physiol. Plant. 35:1381-1396. Job, D., I. Capron, C. Job, F. Dacher, F. Corbineau, and D. Come. 2000. Identification of germination specific protein markers and theiruse in seed priming technology. p. 449-459. In: Black, Bradford, and Vazguez-Ramos (eds.). Seed biology: Advances and applications. CAB International, Wallingford. Justice, O.L. and L.N. Bass. 1978. Principles and practices of seed storage. USDA Agricultural Handbook No. 506. Washington, D.C. Kage, H., T. Takahashi, T. Yoshida, H. Ogura, and Y. Matsuno. 1996. Coating efficiency of seed particles in a fluidized bed by atomization of a powder suspension. Powder Technol. 86:243-250. Kaltenbach, M., G. Schröder, E. Schmelzer, V. Lutz, and J. Schröder. 1999. Flavonoid hydroxylase from Catharanthus roseus: cDNA, heterologous expression, enzyme properties and cell-type specific expression in plants. Plant J. 19:183-193. Khan, H.A., C.M Ayub, M.A. Pervez, R.M. Bilal, M.A. Shahid, and K. Ziaf. 2009. Effect of seed priming with NaCl on salinity tolerance of hot pepper (Capsicum annuum L.) at seedling stage. Soil Environ. 28:81-87. Kishan, B.M. and N. Epstein. 1974. Developments in spouted bed technology. Can. J. Chem. Eng. 52:129-144. Kubala, S., M. Garnczarska, L. Wojtyla, A. Clippe, A. Kosmala, A. Żmieńko, S. Lutts, and M. Quinet. 2015. Deciphering priming-induced improvement of rapeseed (Brassica napus L.) germination through an integrated transcriptomic and proteomic approach. Plant Sci. 231:94-113. Liu, L.X. and J.D. Lister. 1993. Coating mass distribution from a sprout bed seed coater: experimental and modeling studies. Powder Technol. 74:259-270. Loggini B, E. Scacartzza, F. Brugnoli, and F. Navari-Izzo. 1999. Antioxidative defense system, pigment composition, and photosynthetic efficiency in two wheat cultivars subject to drought. Plant Physiol. 119:1091-1100. Longden, P. 1975. Sugar-beet seed pelleting. A.D.A.S. Qrtly. Rev. 18:73-80. Markham, K.R., K.S. Gould, C.S.Winefield, K.A. Mitchell, S.J. Bloor, and R.B.Murrar. 2000. Anthocyanic vacuolar inclusions - Their nature and significance in flower colouration. Phytochemistry 55:327–326. Markham, K.R., K.G. Ryan, K.S. Gould, and G.K. Rickards. 2000. Cell wall sited flavonoids in lisianthus flower petals. Phytochemistry 54:681-687. Markham, K.R. and D.J. Ofman. 1993. Lisianthus flavonoid pigments and factors influencing their expression in flower colour. Phytochemistry 34:679-685. McDonald, M.B. 2004. Flower seed priming, pregermination, pelleting and coating, p.249-263. In: M.B. McDonald and F.Y. Kwong (eds.). Flower seeds: Biology and technology. CAB Intl., USA. McDonald, M.B and L. Copeland. 1997. Seed production principle and practices. The Springer, N.Y. McDonald, M.B. and F.Y. Kwong 2004. Flower seeds: Biology and technology. CAB Intl, USA. Mulcahy, J.K. and D.L. Mulcahy. 1988. The effect of supplemented media on growth in vitro of bi- and trinucleate pollen. Plant Sci. 55:213-216. Moghanibashi, M., H. Karimmojeni, and P. Nikneshan. 2013. Seed treatment to overcome drought and salt stress during germination of sunflwer (Helianthus annuus L.). J. Agrobiol. 30:89-96. Naonobu, N., K.Yoshiaki, K. Naoki, K. Kohei, and S. Masahiko. 2004. Regulation of gene expression involved in flavonol and anthocyanin biosynthesis during petal development in lisianthus (Eustoma grandiflorum). Physiol. Plant. 122:305-313. Nawaz, J., M. Hussain, A. Jabbar, G.A. Nadeem, M. Sajid, M. Subtain, and I. Shabbir. 2013. Seed priming a technique. Intl. J. Agr. Crop Sci. 6:1373-1381. Nielsen, k.,S. C. Deroles, K. R. Markham, M. J. Bradley, E. Podivinsky, and D. Manson. 2002. Antisense flavonol synthase alters copigmentation and flower color in lisianthus. Mol. Breeding 9: 217–229. Ohmiya, A., M. Hirashima, M. Yagi, K. Tanase, and C. Yamamizo. 2014. Identification of genes associated with chlorophyll accumulation in flower petals. PLoS One 9:1-16. Oliveira, A.B.d., E. Gomes-Filho, J. Enéas-Filho, J. Tarquinio Prisco, and N.L.M. Alencar. 2012. Seed priming effects on growth, lipid peroxidation, and activity of ROS scavenging enzymes in NaCl-stressed sorghum seedlings from aged seeds. J. Plant Interations 2:151-159. Ohkawa, M., A. Hanada, Y. Tamauchi, A. Kuwahara, Y. Kamiya, and S. Yamaguchi. 2003. Gibberellin biosynthesis and response during Arabidopsis seed germination. Plant Cell 15:1591-1604. Ohkawa, K., A. Kano, K. Kanematsu, and M. Korenaga. 1991. Effects of air temperature and time on rosette formation in seedlings of Eustoma grandiflorum (Raf.) Shinn. Scientia Hort. 48:171-176. Ohkawa, K., M. Korenaga, and T. Yoshizumi. 1993. Influence of temperature prior to seed ripening and at germination on rosette formation and bolting of Eustoma grandiflorum. Scientia Hort. 53:225-230. Oka, M., Y. Tasaka, M. Iwabuchi, and M. Mino. 2001. Elevated sensitivity to gibberellin by vernalization in the vegetative rosette plants of Eustoma grandiflorum and Arabidopsis thaliana. Plant Sci. 160:1237-1245. Opara, L.U. 2000. Fruit growth measurement and analysis, p.373-431. In: J. Janick (ed.). Horticultural Reviews. Vol. 24. Wiley, Oxford, U.K. Oren-Shamir, M., L. Shaked-Sachray, A. Nissim-Levi, and R. Ecker. 1999. Anthocyanin pigmentation of lisianthus flower petals. Plant Sci. 140:81-86. Palmer, M., J. Travis, and J. Antonovics. 1989. Temporal mechanisms influencing gender expression and pollen flow within a self-incompatible perennial, Amianthium muscaetoxicum (Liliaceae). Oecologia 78:231-236. Parera, C.A., and D.J. Cantliffe. 1991. Improved germination and modified imbibitions of shrunken-2 sweet corn by seed disinfection and solid matrix priming. J. Amer. Soc. Hort. Sci. 116:942-945. Pastor, V., E. Luna, B. Mauch-Mani, J. Ton, and V. Flors. 2013. Primed plants do not forget. Environ. Expt. Bot. 94:46-56. Pergola, G., N. Oggiano, and P. Curir. 1992. Effects of seed and seedling temperature conditioning on planting, bolting and floweing in Eustoma russellianum. Acta Hort. 314:173-177. Petch, G.M., R.B. Maude, and J.G. White. 1991. Effect of film-coat layering of metalaxyl on the germination of carrot seeds, their emergence and the control of cavity spot. Crop Protection 10:117-120. Podlaski, S., Z. Chrobak, and Z. Wyszkowska. 2003. The effect of parsley seed hydration treatment and pelleting on seed vigour. Plant Soil Environ. 43:114-118. Pourcel, L., J.M. Routaboul, V. Cheynier, L. Lepiniec, and I. Debeaujon. 2007. Flavonoid oxidation in plants: from biochemical properties to physiological functions. Trends Plant Sci. 12:29-36. Pourcel, L., J.M. Routaboul, L. Kerhoas, M. Caboche, L. Lepiniec, and I. Debeaujon. 2005. TRANSPARENT TESTA10 encodes a laccase-like enzyme involved in oxidative polymerization of flavonoids in Arabidopsis seed coat. Plant Cell 17:2966-2980. Probert, R.J. 2000. The role of temperature in the regulation of seed dormancy and germination, p.261-292. In: M. Fenner (ed.) Seeds: The ecology of regeneration in plant communities. CAB International, Wallingford, Oxon, UK. Rajjou, L. and I. Debeaujon. 2008. Seed longevity: Survival and maintenance of high germination ability of dry seeds. Comptes Rendus Biol. 331:796-805. Reynolds, A.M. and J. Tampion. 1983. Double flowers: A scientific study. Scientific and Academic Editions, New York. Rezaee, F., F. Ghanati, and L.Y. Boroujeni. 2012. Micropropagation of lisianthus (Eustoma grandiflorum L.) from different explants to flowering onset. Iran. J. Plant Physiol. 3:583-587. Rhodes, E. R. and D. Nangju. 1979. Effects of pelleting cowpea and soybean seed with fertilizer dusts. Expt. Agr. 15: 27-32. Roberts, E.H. 1972. Viability of seeds. Champ and Hall. London. Roberts, E.H. 1973. Predicting the storage life of seeds. Seed Sci. Technol. 1:299-514. Roberts, E. H. and P. M. Feast. 1973. Changes in numbers of viable weed seeds in soil under different regimes. Weed Res. 13:298-303. Robinson, T. and B. Waldie. 1979. Particle cycle times in a spouted bed of polydisperse particles. Can. J. Chem. Eng. 57:121-127 Rowse, H.R. 1996. Drum priming: A non-osmotic method of priming seeds. Seed Sci. Technol. 24:281-294. Sachs, M., D.J. Cantliffe, and T.A. Nell. 1981. Germination studies of clay-coated sweet pepper seeds. J. Amer. Soc. Hort. Sci. 106:385-389. Samata, Y. 1958. Genetic studies on Cosmos bipinnatus II. Jpn. J. Breeding 8:261-268. Shimizu, K., N. Ohnishi, N. Morikawa, A. Ishigami, S. Otake, and I.O. Rabah. 2011. A 94-bp deletion of anthocyanidin synthase gene in acyanic flower lines of lisianthus [Eustoma grandiflorum (Raf.) Shinn.]. J. Jpn. Soc. Hort. Sci. 80:434-442. Shinners, L.H. 1957. Synopsis of the genus Eustoma (Gentianaceae). Southwestern Naturalist. 2:38-43. Silcock, R.G. and F.T. Smith. 1982. Seed coating and localize application of phosphate for improving seedling growth of grasses on acid, sandy red earths. Austral. J. Agr. Res. 33:785-802. Simmonds, N.W. 1960. Flower colour in Lochnera rosea. Heredity 14: 253-261. Singh, S.P. and L.G. Paleg. 1984. Low temperature-induced GA3 sensitivity of wheat. Plant Physiol. 76:139-142. Steponkus, P.L. and F. Lanphear. 1967. Refinement of the triphenyl tetrazolium chloride method of determining cold injury. Plant Physiol. 42:1423-1426. Stevenson, D.E. and R.D. Hurst. 2007. Polyphenolic phytochemicals – just antioxidants or much more?. Cell Mol. Life Sci. 64: 2900-2916. Sun, W.Q., D.C.Y. Koh, and C.M. Ong. 1997. Correlation of modified water sorption properties with the decline of storage stability of osmotically-primed seeds of Vigna radiata (L.) Wilczek. Seed Sci. Res. 7:391-397. Sun, W.Q., Y. Liang, S. Huang, and J. Fu. 2003. Biopolymer volume change and water clustering function of primed Vigna radiata seeds. Seed Sci. Res. 13:287-302. Takamura, T. 2007. Cyclamen, Cyclamen persicum, p.459-478. In: N.O. Anderson (ed.). Flower breeding and genetics. Springer, The Netherland. Takamura, K. and M. Aizawa. 2007. Inheritance of anthocyanins in petals in crosses between Cyclamen cultivars and Cyclamen hederifolium Aiton. Tech. Bull. Fac. Agr. Kagawa Univ. 59:45-48. Tanigawa, T., N. Kuroyanagi, and T. Kunitake. 2002. Effects of low temperature treatment of imbibed seeds of Eustoma grandiflorum (Raf.) Shinn.on their germination and subsequent bolting. J. Jpn. Soc. Hort. Sci. 71:697-701. Taylor, A.G., D.E. Klien, and T.H. Whitlow. 1988. SMP: Solid matrix priming of seeds. Scientia Hort. 37:1-11. Thomas, U.C., K. Varughese, A. Thomas, and S. Sadanandan. 2000. Seed priming- for increased vigour, viability and productivity of upland rice. Leisa India 4:14. Treutter, D. 2006. Significance of flavonoids in plant resistance: a review. Environ. Chem. Lett. 4:147-157. Tyron, T. 1959. Why coat seed? Seed world 10:42-44. Vainstein, A. 2002. Breeding for ornamentals: Classical and molecular approaches. Kluwer Acad. Publ. The Netherlands. Wahid, A., M. Perveen, S. Gelani, M.A. Shahzad, and S.M.A. Basra. 2007. Pretreatment of seed with H2O2 improves salt tolerance of wheat seedlings by alleviation of oxidative damage and expression of stress proteins. J. Plant Physiol. 164:283-294. Walters, C. 1998. Understanding the mechanisms and kinetics of seed aging. Seed Sci. Res. 8: 223-244. Walters, C., L.M. Wheeler, and J.M. Grotenhuis. 2005. Longevity of seeds stored in a genebank: species characteristics. Seed Sci. Res. 15: 1-20. Wang, Q., Y. Zhang, S. Kawabata, and Y. Li. 2011. Double fertilization and embryogenesis of Eustoma grandiflorum. J. Jpn. Soc. Hort. Sci. 80:351-357. Watkins, R.W., H.J. Mosson., J.E. Gurney., D.P. Cowan, and J.P. Edwards. 1996. Cinnamic acid derivatives: novel repellent seed dressing for the protection of wheat seed against damage by the field slug, Deroceras reticulatum. Crop Protection. 15: 77-83. Wurster, D.E. 1959. Air-suspension technique of coating drug particles. J. Amer. Pharmaceutical Assn. 8:451-454. Yada, S. and M. Imoto. 1983. Effects of mixing fungicides in the coating layer of the coated seeds on the control of seedling damping-off (Rhizoctonia solani Kuhn) in chinese cabbage. J. Jpn. Soc. Hort. Sci. 52:27-34. Yamashita, M., and H. Imamura. 2007. Shoot and root growth and lysigenous aerenchyma formation in rosetted and stem-extensional plants of Eustoma grandiflorum (Raf.) Shinn. J. Jpn. Soc. Hort. Sci. 76: 54-59. Yamauchi, Y., M. Ogawa, A. Kuwahara, A. Hanada, Y. Kamiya, and S. Yamaguchi. 2004. Activation of gibberellin biosynthesis and response pathways by low temperature during imbibtion of Arabidopsis thaliana seeds. Plant Cell. 16:367-378. Yanagida, M., M. Mino, M. Iwabuchi, and K. Ogawa. 2004. Reduced glutathione is a novel regulator of vernalization-induced bolting in the rosette plant Eustoma grandiflorum. Plant Cell Physiol. 45:129-137 . Yang, X., Q. Wang, and Y. Li. 2007. Microsporogenesis, megasporogenesis, and the development of male and female gametophytes in Eustoma grandiflorum. J. Jpn. Soc. Hort. 76:244-249. Yoon, B.H., H.J. Lang, and B.G. Cobb. 1997. Priming with salt solutions improves germination of pansy seed at high temperatures. HortScience 32:248-250. Zaccai, M. and N. Edri. 2002. Floral transition in lisianthus (Eustoma grandiflorum). Scientia Hort. 95:333-340. Zhao, D. and J. Tao. 2015. Recent advances on the development and regulation of flower color in ornamental plants. Frontiers Plant Sci. 6:1-13. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/50140 | - |
dc.description.abstract | 瞭解洋桔梗[Eustoma grandiflorum (Raf.) Shinn.]花型花色之遺傳模式,有助於未來選定適當的育種親本以提高育種效率。本研究旨在探討洋桔梗授粉時期及瞭解果實離體瓶插採種方式,期能避免夏季高溫採種,減少日後植株簇生化,並以適當的低溫浸潤、滲調、批衣及貯藏處理有助於本地品種商業化。
本研究調查臺南區農業改良場純化5-6世代洋桔梗自交系之雜交後代花朵性狀,共41個組合。結果顯示子代花徑皆為中輪(5.1-5.9 cm)或大輪花(≧6.0 cm)。花型瓣性為重瓣相對於單瓣為顯性。具花青素之花色相對於不具花青素之花色為顯性;覆輪色相對於單色為顯性;黃綠色相對於白色為顯性;粉色相對於白色為顯性;紫色相對於粉紅色為顯性。 取不同開花後天數之洋桔梗 ‘Doris Pink Flash’花粉授於開花後5天之柱頭及取開花後3天之花粉授於不同開花後天數之柱頭,結果顯示結實率可達90%以上。將洋桔梗#103-1自交授粉後(days after pollination, DAP)觀察果實及種子發育,結果顯示在15 DAP期間內為果實長、寬快速增加。果實鮮重於10-30 DAP期間顯著增加,種子含水量約為15%。而40 DAP後果實鮮重不再顯著變化,種子含水量顯著減少至約為5%。解剖顯微鏡觀察種皮顏色於50 DAP呈金黃色,60 DAP呈黑褐色。 取不同授粉週數之洋桔梗#103-1,採種方式分為果實帶莖葉與僅留果實及果梗瓶插於25oC及10oC生長箱,授粉週數與瓶插週數共計10週後,移至25oC、光度為43.03 µmol•m-2•s-1之環境乾燥後,種子播於25oC,光度165 µmol•m-2•s-1進行發芽試驗,結果顯示於25oC瓶插處理所獲得之種子發芽率均可達約90%以上,僅授粉2週且不帶莖葉之果實內之種子發芽率顯著較低,而於10oC瓶插者種子發芽率均較於25oC瓶插者低,僅以授粉6週之種子發芽率顯著高於其他處理。將於授粉4、6及8週且於25oC瓶插之種子與授粉6週且於10oC瓶插之種子,置於30/25oC及25/20oC栽培,結果顯示無論授粉週數及採種方式皆以栽培於25/20oC之抽苔率顯著高於栽培於30/25oC之抽苔率。於瓶插25oC所獲得之洋桔梗#103-1種子栽培於30/25oC,以授粉4週且帶莖葉處理之實生苗抽苔率最高。另外,授粉6週且瓶插於10oC之種子栽培於30/25oC則以僅留果梗處理之抽苔率顯著高於帶莖葉處理。 將洋桔梗‘Umihonoka’種子浸潤期間置於25/20oC黑暗或5oC搭配0、195及395 µmol•m-2•s-1 之光照環境4週後,移至30/25 oC及 25/20 oC之自然光照栽培,結果顯示以5oC浸潤後栽培於30/25oC之抽苔率顯著高於25/20oC浸潤者,並以5oC浸潤搭配光強度365 µmol.m-2.s-1獲最大抽苔率。 洋桔梗#103-1種子以PEG-8000及CaCl2 水勢各為-1.0及-1.5 MPa進行滲調處理3週後,於25oC、光強度165 µmol.m-2.s-1環境行發芽測試,結果顯示各滲調處理發芽率均可達90%以上,且較未滲調處理者提前2天發芽。將滲調種子栽培於30/25oC及25/20 oC,結果顯示滲調後植株抽苔率均以栽培於25/20 oC高於30/25oC,且皆以經滲調者之抽苔率顯著高於未滲調者。將滲調種子置於5 oC貯藏,結果顯示以-1.5 MPa 之PEG-8000滲調種子貯藏6個月後顯著降低種子發芽率。 另以臺灣種苗改良繁殖場研發之配方(TSSB4-1+TSSB1-1)進行披衣處理,本研究可成功將洋桔梗#341種子披衣成不同粒徑大小(0.5-2.1 mm),經發芽測試結果顯示隨粒徑增加,最終發芽率及發芽係數會降低,初始發芽時間、發芽所需時間、T10、T50及千粒重則增加,其中粒徑>1.7 mm之發芽率顯著低於對照組。將洋桔梗#103-1裸種子置於5-30oC貯藏庫中黑暗貯藏,結果顯示經12個月貯藏,洋桔梗#103-1種子發芽率仍可達90%以上,但種子發芽率隨貯藏時間增加而逐漸減少。 | zh_TW |
dc.description.abstract | A better understanding of inheritance of flower form and color in lisianthus [Eustoma grandiflorum (Raf.) Shinn.] would facilitate breeding efficiency. This study aimed to test pollination timing and the technique of seed production by cut immature capsule was examined in Eustoma. Further, seed treatments would advance the industry.
The flower traits of progenies in 41 crosses were measured among inbred Eustoma, which were selfed 5-6 generations in Tainan District Agricultural Research and Extension Station. Results showed that flower diameter of the progenies ranged from medium (5.1-5.9 cm) to large (≧6.0 cm) sizes. Double flower is dominant to single flower. Cyanic color is dominant to acyanic color, picotee color is dominant to single color, green color is dominant to white color, pink color is dominant to white color, and purple color is dominant to pink color. Results showed the fruit set percentage was higher than 90% after pollination with various flower age. Length and width of fruit in Eustoma #103-1 increased rapidly between 15 days after pollination (DAP), fruit fresh weight (FFW) significantly increased between 10 and 30 DAP, when seed water content was about 15%. FFW did not increase while seed water content reduced to 5% after 40 DAP. Seed coat appeared golden at 50 DAP and became dark brown at 60 DAP. Effects of thermal conditions during vase, weeks after pollination, and harvested seeds from fruit with 30 cm or fruit only on subsequent bolting and growth were also studied. Results showed that seed harvested from fruit with 30 cm or fruit only at 4-8 weeks after pollination (WAP) at vase during 25oC could reach more than 90% germination. And significant lower germination was observed for seeds harvested from fruit only at 2 WAP. Seed germination percentages were significantly lower when harvested fruit with 30 cm or fruit only at vase during 10oC, while only those at 6 WAP had higher germination percentage than other maturity. Seeds from 4, 6, and 8 WAP at vase during 25oC, and from 6 WAP at vase during 10oC were sown and grown at 30/25oC or 25/20oC. Results showed that bolting percentage was higher, regardless of weeks after pollination, harvested from fruit with 30 cm or fruit only, and temperatures during vase, at 25/20oC than at 30/25oC. Eustoma #103-1 seeds harvested from fruit with 30 cm shoot at 4 WAP and vase temperature during 25oC had higher bolting percentage under 30/25oC than other treatments. Harvested from fruit only at 6 WAP and vase temperature during 10oC had higher bolting percentage under 30/25oC than fruit with 30 cm shoot. Effect of temperature (5 oC and 25/20 oC) and light intensity (0, 195, and 365 µmol.m-2.s-1) during seed imbibition was studied on bolting percentage in lisianthus seedlings grown at 25/20 oC or 30/25 oC. Results showed lisianthus ‘Umihonoka’ grown under 30/25 oC had higher bolting percentage after the seeds were imbibied at 5 oC than 25/20oC. The highest bolting percentage was recorded in those under 365 µmol.m-2.s-1 during imbibition at 5 oC. Osmopriming with polyethylene glycol (PEG) and calcium chloride (CaCl2), at -1.5 MPa and -1.0 MPa for three weeks resulted in germination percentage of 90%, and primed seeds emerged significantly earlier than nonprimed seeds. Bolting percentage was significantly higher in those after primed for three weeks than nonprimed plants under 30/25 oC. Seed longevity of primed Eustoma #103-1 seed was also measured. Results indicated primed seed germination with -1.5 MPa of PEG-8000 decreased after 6 months storage. Moreover, lisianthus seeds were drum coated into pellets with various sizes (0.5-2.1 mm) and film coating by using formula (TSSB4-1+TSSB1-1) developed by Taiwan Seed Improvement and Propagation Station. Results indicated the larger pelleted size (>1.7 mm) significantly reduced the germination and germination coefficient but significantly increased germination timing. Effects of storage temperature (5-30oC) and duration (0, 6, 12 months) on germination and time to maximum germination of Eustoma #103-1 were studied. Results showed that seed germination rate was higher than 90% after storage for 12 months. Seed germination decreased with prolonged storage duration. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T12:30:43Z (GMT). No. of bitstreams: 1 ntu-105-R03628110-1.pdf: 2829231 bytes, checksum: 894daeb9f4f170ac80bba46167cd22b8 (MD5) Previous issue date: 2016 | en |
dc.description.tableofcontents | 摘要………………………………………………………………………i
Abstract………………………………………………………………iii 內容目次………………………………………………………………vi 表目次…………………………………………………………………vii 圖目次…………………………………………………………………ix 第一章 前言………………………………………………………………1 第二章 前人研究…………………………………………………………3 第三章 自交系洋桔梗之花型與花色遺傳……………………………17 第四章 洋桔梗授粉時期及果實離體瓶插採種之研究………………32 第五章 浸潤時期之溫度與光度及種子處理對洋桔梗種子發芽及抽苔之影.……………………………………………………………………59 第六章 綜合討論與結論………………………………………………85 參考文獻 (Referenses)………………………………………………89 附錄 (Appendix)………………………………………………………107 | |
dc.language.iso | zh-TW | |
dc.title | 洋桔梗之花型花色遺傳、離體採種與種子處理 | zh_TW |
dc.title | Inheritance of Flower Form and Color, Seed Production ex vivo and Seed Treatments of Lisianthus | en |
dc.type | Thesis | |
dc.date.schoolyear | 104-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 黃光亮(Kuang-Liang Huang),沈榮壽(Rong-Show Shen),張正(Chen Chang) | |
dc.subject.keyword | 育種,採種,種子滲調,種子披衣, | zh_TW |
dc.subject.keyword | breeding,seed production,seed priming,seed pelleting, | en |
dc.relation.page | 111 | |
dc.identifier.doi | 10.6342/NTU201601839 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2016-08-05 | |
dc.contributor.author-college | 生物資源暨農學院 | zh_TW |
dc.contributor.author-dept | 園藝暨景觀學系 | zh_TW |
顯示於系所單位: | 園藝暨景觀學系 |
文件中的檔案:
檔案 | 大小 | 格式 | |
---|---|---|---|
ntu-105-1.pdf 目前未授權公開取用 | 2.76 MB | Adobe PDF |
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。