請用此 Handle URI 來引用此文件:
http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/38869
完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 張喜寧 | |
dc.contributor.author | Yuan-Fu Wang | en |
dc.contributor.author | 王元甫 | zh_TW |
dc.date.accessioned | 2021-06-13T16:49:59Z | - |
dc.date.available | 2006-07-04 | |
dc.date.copyright | 2005-07-04 | |
dc.date.issued | 2005 | |
dc.date.submitted | 2005-06-23 | |
dc.identifier.citation | 參考文獻
王美琇. 1999. 蘭共生菌對數種蘭科植物生長與發育之影響與應用.台大園藝學研究所碩士論文. 立石生化科技研究部. 2000. 植物生長物質手冊.立石生化科技股份有限公司. 朱欽昌. 1987. 蘭科植物的內生菌根菌與蘭菌共生. 洋蘭月刊17.:59-62. 朱俊南. 2000. 蘭花菌根菌之分離與接種對文心蘭幼苗生長之影響. 國立屏東科技大學熱帶農業研究所碩士論文. 李嘉慧. 1990. 蝴蝶蘭型態解剖及光度、花芽發育對碳水化合物含量之影響. 國立台灣大學園藝研究所碩士論文. 李哖. 1990. 蘭之胚培養. 中國園藝. 36: 223-244. 李嘉慧、李哖. 1991. 台灣蝴蝶蘭根和葉的形態與解剖的特性. 中國園藝. 37: 237-248. 李華荣. 1999. 絲核菌的菌絲融合群及其遺傳多樣性研究的新進展. 菌物系統 18:100-109. 李國基. 2001a. 台灣金線連與蘭菌之鑑定及生產技術改進. 國立台灣大學園藝學研究所博士論文. 李明治. 2001b. 蘭菌(絲核菌)之生理、菌種生產及其對台灣金線蓮生長之影響。國立台灣大學園藝學研究所碩士論文 林菁敏. 1983. 溫度、無機養分與栽培介質對蝴蝶蘭生長與開花之影響. 國立台灣大學園藝研究所碩士論文. 林讚標. 1987. 台灣蘭科植物3. 南天書局. 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. 國立台灣大學園藝研究所碩士論文. 林育如. 2002. 蝴蝶蘭腋芽發育與開花調控關係之研究. 國立台灣大學園藝研究所博士論文. 周玲勤. 1997. 彩葉蘭的大量繁殖與蘭菌的應用. 國立台灣大學園藝學研究所碩士論文. 周玲勤、李自強、張喜寧. 1998. 一葉蘭、彩葉蘭及金線連對蘭菌的反應. 中國園 藝 44:555-556. 周玲勤、張喜寧. 1999a. 彩葉蘭之無菌播種與實生苗生長. 植物種苗1:57-67. 周玲勤、張喜寧. 1999b. 溫度與栽培介質對彩葉蘭生長之影響. 中國園藝45:11-18. 周玲勤、張喜寧. 2003. 彩葉蘭( Haemaria discolor )的繁殖與栽培管理. 科學農業51:24-26. 周玲勤. 2004. 台灣金線連、彩葉蘭和其F1雜交種之菌根生理與培育. 國立台灣 大學園藝學研究所博士論文. 莊錦華、李哖. 1985. 蘭苗共生下之生長生理. 中國園藝 31: 189-200. 莊畫婷. 2003. 利用RAPD與ISSR分子標誌技術鑑定台灣蝴蝶蘭及菲律賓原生蝴蝶蘭物種. 國立嘉義大學農學研究所碩士論文. 高景輝. 1998. 植物荷爾蒙生理. 華香園出版社.台灣. 台北 陳加忠. 2001. 蝴蝶蘭量產品質與大陸競爭. 談談蘭花. 網站資料. 陳加忠. 2004. 蝴蝶蘭栽培生理需求與溫室環控. 蘭花病蟲害防治及無病毒種苗 驗證制度講習會專刊. 黃德昌. 2004. 蘭花主要病害介紹及防治方法. 蘭花病蟲害防治及無病毒種苗驗 證制度講習會專刊. 張棋雯. 2001. 彩葉蘭與彩葉蘭道生種之大量繁殖與蘭菌之利用. 國立台灣大學園藝學研究所碩士論文. 張耀乾. 2004. 蝴蝶蘭的生長及開花生理. 蘭花病蟲害防治及無病毒種苗驗 證制度講習會專刊. 康繼文. 2004. 蘭菌與植物生長素對藥用石斛蘭生長發育之影響. 國立台灣大學園藝學研究所碩士論文. 曾千容. 2002. 石斛蘭蘭菌之分離、鑑定與培養及其對石斛蘭生長之影響. 國立台灣大學園藝學研究所碩士論文. 趙楊景、郭順星、高薇薇、杜淑燕. 1999. 三種內生真菌與大花蕙蘭共生對礦質營養吸收的影響. 園藝學報26(2):110-115. 廖敏卿. 1990. 蝴蝶蘭栽培. 皇甫彩藝印刷股份有限公司. 楊學琳. 1996. 溫度、光度與無機養分對姬蝴蝶蘭和朵麗蝶蘭生長與開花的影響. 國立台灣大學園藝研究所碩士論文. 蔡靜怡. 1997. 蘭菌及溫度對台灣金線連生長之影響. 國立台灣大學園藝學研究所碩士論文. 蔡麗君. 2003. 蘭菌與植物生長素對拖鞋蘭生長與發育之影響. 國立台灣大學園藝研究所碩士論文. 賴本智. 2001. 台灣蝴蝶蘭產業發展之利基與隱憂. 台灣大學園藝研究所九十學 年度上專題討論演講資料. 賴本智. 2004. 台灣蝴蝶蘭產銷分析. 蘭花病蟲害防治及無病毒種苗驗證制度講 習會專刊. 謝廷芳. 1998. 菌核類真菌之鑑定. 檢疫防疫植物病原真菌鑑定研討會專刊. P.239-251. 藍亦青. 2001.蘭菌對蝴蝶蘭與拖鞋蘭生長與發育之影響. 國立台灣大學園藝研究所碩士論文. Alexender, C., and G. Hadley. 1984. The effect of mycorrhizal infection of goodyera repens and its control by fungicide. New Phytol. 97:391-400. Arditti, J. 1967. Factors affecting the germination of orchid seeds. Bot. Rev. 33:1-97. Arditti, J. 1982. Orchid Biology. Review and perspective,II. Cornell Univ.Press. Arditti, J. 1992. Fundamentals of orchid biology. John Wiley and Sons, Inc. New York. Avadhani, P. N.,C. J. Goh, A. N. Rao, and J. Arditti. 1982. Carbon fixation in orchids. In: J. Arditti(ed.) Orchid Biology :Reviews and Perspective Ⅱ.Cornell Univ. Press, New York. Bernard, N. 1903. La germination des orchides. Compt. Rend. Acad. Sci. Paris. l37:483-485. Benzing, K.H.and D. W. Ott. 1981. Vegetative reduction in the epiphytic Bromeliaceae and Orchidaceae: Its origin and significance. Biotropica 13: 131-140. Beyrle, H., F. Penningsfeld and B. Hock. 1991. The role of nitrogen concentration in determining the outcome to the interaction between Dactylorhiza incarnate L. Soo and Rhizoctonia sp. New phytol. 117:665-672. Burgeff, H. 1932. Saprophytismus und Symbiose. Studien an Tropischen Orchideen. G. Fischer, Jena. Burgeff, H. 1959. Mycorrhiza of orchid. In:Withner,C.L.(eds.)The orchids-a scientific survey. The Ronald Press Co. New York. 361-395. Chang, D. C. and L. C. Chou. 2001. Seed germination of Haemaria discolor var. dawsoniana and the use of mycorrhizae. Symbiosis 30:29-40. 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. Plantrum 90:391-395. Chen, W. S. and H. W. Chang; W. H. Chen and Y. S. Lin. 1997. Gibberellic acid and cytokinin affect Phalaenopsis flower morphology at high temperature. HortScience 32(6):1069-1073. Chiang, S. H. T. and T. Chou. 1971. Histological studies on the roots of orchids from Taiwan. Taiwania 16:1-29. Chou, C. C., W. S. Chen, K. L. Huang, H. C. Yu, and L. J. Liao. 2000. Changes in cytokinin levels of Phalaenopsis leaves at high temperature. Plant Physiol. Biochem. 38(4):309-314. Cubeta, M. A., E. Echandi, and M. L. Gumpertz. 1991. Survival of binucleate Rhizoctonia species, biological control agents, in soil and plant debris under field conditions. Biological Control 1:218-226. Curtis, J. T. 1939. The relation of specificity of orchid mycorrhizal fungi to the problem of symbiosis. Amer. J. Bot. 26:372-399. Duan, J. X. and S. Yazawa. 1995. Floral induction and development in Phalaenopsis in vitro. Plant Cell, Tissue and Organ Culture. 43:71-74. Endo, M. and I. Ikusima. 1989. Diurnal rhythm and characteristic of photosynthesis and respiration in the leaf and root of a Phalaenopsis plant. Plant Cell Physiol. 30(1):43-47. Gallaud, I. 1905. Etudes sur les mycorrhizes endotrophes. Rev. Gen. Bot. 17:5-48.Keithly, J. H. and H. Yokoyama. 1990. Regulation of plant productivity I: Improved seedling vigor and floral performance of Phalaenopsis by2-(3,4-dichloropphenoxy)triethylamine[DCPTA]. Plant Growth Regulation 9:19-26. Gianfagna, T. J. 1995. Natural and synthetic growth regulators and their use in horticultural and agronomic crops. In: Plant Hormones: Physiology, Biochemistry and Molecular Biology, P. J. Davies, ed., Kluwer, Boston, pp. 751-773. Hadley, G. 1970. Non-specificity of symbiotic infection in orchid mycorrhiza. New Phytol. 69:1015-1023. Hadley, G. and B. Williamson. 1971. Analysis of the post-infection growth stimulus in orchid mycorrhiza. New Phytol. 70:445-455. Hadley, G. 1982. Orchid mycorrhiza in Arditti (eds.) Orchid biology : reviews and perspective. CorneIl University press, Ithaca. New York. 390pp. Hadley, G. and B. Williamson. 1972. Features of mycorrhizal infection in some Malayan orchids. New Phytol. 71:1111-1118. Hadley, J. L. and S. E. Smith. 1983. Mycorrhizal Symbiosis. Academic Press,London. Harley, J. L. 1972. The biology of mycorrhiza. 2nd ed. Leonard Hill, London. Harvais, G. and Hadley, G. 1967. The development of Orchis purpurelia in asymbiotic and inoculated cultures. New Phytol. 66:217-230. Hegarty, C. P. 1955. Observation on the germination of orchid seeds. Amer. Orchid Soc. Bull. 24:457-464. Hibino, K., N. Mizuno. and S. Kako. 1978. Studies on germination of Calanthe discolor. I. Effect of pretreatment on germination. Proc. Jap. Soc. Hort. Sci. Conf. p.356-357. Higuchi, H. and K. Sakai. 1978. Advancing flowering in Phalaenopsis by transferring the plants to a higher altitude during the summer. Res. Bull. Aichi-Ken Agric . Res. Cent B 10:40-45 Hijner, J. A. and J. Arditti. 1973. Orchid mycorrhiza: Vitamin production and requirement by the symbionts. Amer. J. Bot. 60:829-835. Kataoka, K., K.Sumitomo, T. Fudano, K. Kawase 2004. Changes in sugar content of Phalaenopsis leaves before floral transition. Sci. Hortic. 102(2004)121-132. Kundson, L. 1925. Physiological study of the symbiotic germination of orchid seeds. Bot.Gaz. 77:345-379. Lilja, A., A. M. Hietala, R. Karjalainen. 1996. Identification of a uninucleate Rhizoconia sp. By pathogenicity, hyphal anastomosis and RAPD analysis. Plant Pathol. 45:997-1006. Loewus, F. A. and P. P. N. Murthy. 2000. Myo-inositol metabolism in plants. Plant Sci. 150(1):1-19 Mc Williams E. L. 1970. Comparative rates of dark CO2 uptake and acidification in the Bromeliaceae, Orchidaceae, and Euphorbiaceae. Bot. Grz. 131(4):285-290. Metzger, J. D. 1995. Hormones and reproductive development. In: Plant Hormones: Physiology, Biochemistry and Molecular Biology, P. J. Davies, ed., Kluwer, Boston. Muir, H. 1987. Symbiotic micropropagation of orchid seed. Orchid Rew. 91:44-48. Mulay, B. N..and T. K. B. Panikkar. 1956. origin, development , and structure of velamen in the roots of some species of terrestrial orchids. Proc. Rajasthan Acad. Sci. 6: 31-48.( Cited from Avadhani et. al.,1982) Mulay, B. N., B. D. Deshpande, and H. P. Williams. 1958. Study of velamen in some epiphytic and terrestrial orchids. J. Indian Bot. Soc. 37: 123-127.( Cited from Avadhani et. al.,1982) Murashige, T. and F. Skoog. 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15:473-497. Ogoshi, A. 1987. Ecology and pathogenicity of anastomosis and intraspecific groups of Rhizoctonia solani Kuhn. Annu. Rev. Phytopathol. 25:125-143. Ogoshi, A. 1996. In:Rhizoctonia species: taxonomy, molecular biology, ecology, pathology and disease control. Kluwer academic publishers. P.1-5. Parmeter, J. R. Jr., and H. S. Whitney. 1970. Taxonomy and nomenclature of the imperfect state. P.7-19. in: J. R. Parmeter Jr., ed. Biology and Pathology of Rhizoctonia solani. University of California Press, Berkeley. Paul, E. A., and F. E. Clark. 1989. Mycorrhizal relationships. Soi. Microbio. Biochem. 198-221. Academic Press, Inc. Pridgeon, A. M. 1983. The velamen and exodermis of orchid root. In: J. Arditti(ed.) Orchid Biology :Reviews and Perspective Ⅳ. Cornell Univ. Press, New York. Pridgeon, A. M. 1986. Anatomical adaptations in orchidaceae. Lindleyana 1:90-101. Rasmussen, H., T.F. Andersen and B. Johansen. 1990. Temperature sensitivity of in vitro germination and seedling development of Dactylorhiza majalis (Orchidaceae) with and without a mycorrhizal fungus. Plant, Cell and Enviro. 13:171-177. Rasmussen, H. N. and D. F. Whigham. 1993. Seed ecology of dust seeds in situ : a, new study technique and its application in terrestrial orchids. Amer. J. Bot. 80: 1374-1378. Reissek, S. 1847. Endophyten der Pflanzenzelle. Naturw. Abh. (Ed. W. Haidinger) 1:31. Reinecke, T. and H. Kindl. 1994. Inducible enzymes of the 9,10-dihydro- phenanthrene pathway: sterile orchid plants responding to fungal infection. Mol. Plant-Microb. Interact. 7:449-454. Sakanishi, Y., H. Imanishi, G.. Ishida. 1980. Effect of temperature on growth and flowering of Phalaenopsis amabilis. Bull. Univ. Osaka Pref. Ser. B 32:1-9. Smith, S.E. 1966. Physiology and echology of orchid mycorrhizal fungi with reference to essdling nutrition. New Phytol. 45:488-499. Smith, S.E. 1967. Carbonhydrate translocation in orchid mycorrhizal. New Phytol. 66:371-378. Sneh, B., L. Burpee and A. Ogoshli. 1991. Identification of Rhizoctonia species. APS Press. St. Paul, Minnesota, USA. Stevenson, J. M., I. Y. Perera, I. Heilmann, S. Persson. and W. F. Boss. 2000. Inositol signaling and plant growth. Trends in plant science 5(6):252-258. Su, W. R. W. S. Chen, M. Koshioka, L. N. Mander, L. S. Hung., W. H. Chen, Y. M. Fu, K. L. Huang. 2001. Changes in gibberellin levels in the flowering shoot of Phalaenopsis hybrida under high temperature conditions when flower development is blocked. Plant Phisiol. Biochem. 39. 45-50. Taiz, L. and E. Zeiger. 1998. Plant Physiology. The Benjamin/Cummings Publishing Company, Inc. Tran Thann Van, M. 1974. Methods of acceleration of growth and flowering in a few species of orchids. Am. Orchid Soc. Bull. 43:699-707. Uetake, Y., K. Kobayashi, and A. Ogoshi. 1992. Ultrastructural changes during the symbiotic development of Spiranthes sinensis (Orchidaceae) protocorms associated with binucleate Rhizoctonia anastomosis.group C. Mycol. Res. 96: 199-209. Van Waes, J. M. and P. C. Debergh. 1986a. In vitro germination of some Wester European orchids physiol plant. 67:253-261. Vujanovic, V., M. ST-Armaud, D. Barabe, and G. Thibeault. 2000. Viability testing of orchid seed and the promotion of colouration and germination. Ann. Bot. 86:79-86. Wahrlich, W. 1886. Beiträg zur-kenntnis der Orchideen-wurzelpilze. Bot. Zeit. 44 : 480-487 , 498-506. Warcup, J. H. 1971. Specificity of mycorrhizal association in some Australian terrestrial orchid. New Phytol. 70:41-46. Warcup, J. H. 1973. Symbiotic germination of some Australian orchid terrestrial orchid. New Phytol. 72:387-392. Warcup, J. H. 1973. The mycorrhizal relationships of Australian orchid . New Phytol. 87:371-392. Wang, W. Y., W. S. Chen, W. H. Chen, L. S. Hung, and P. S. Chang. 2002. Influence of abscisic acid on flowering in Phalaenopsis hybrida. Plant Physiol. Biochem. 40 (2002)97-100. Wang, Y. T. 1995. Phalaenopsis orchid light requirement during the induction of spiking. HortScience. 30(1):59-61. Wang, Y. T. 1998. Deferring flowering of greenhouse-grown Phalaenopsis orchids by alternating dark and light. J. Amer. Soc. HortScience. 123(1):56-60. Wang, Y. T. 1998. Impact of Salinity and media on growth and flowering of a hybrid Phalaenopsis orchid. HortScience. 33(2):247-250. Wang, Y. T. and T. Y. Hsu. 1994. Flowering and growth of Phalaenopsis orchids following growth retardant application. HortScience. 29(4):285-288. Wang, Y. T. and L. L. Gregg. 1994. Medium and fertilizer affect the performance of Phalaenopsis orchids during two flowering cycles. HortScience. 29(4):269-271. Yoder, J. A., L. W. Zettler, and S. L. Stewart. 2000. Water requirements of terrestrial and epiphytic orchid seeds and seedling, and evidence for water uptake by means of mycotrophy. Plant Sci. 156(2):145-15 Zelmer, C. D. and R.S. Currah, 1997. Symbiotic germination of Spiranthes lacera (Orchidaceae) with a naturally occurring endophyte. Lindleyana 12: 142-148. Zettler, L.W. and C. J. Hofer. 1997. Sensitivity of Spiranthes odorata seed to light during in vitro symbiotic seed germination. Lindleyana 12:26-29. Zettler, L. W., and T. M. Mcinnis. 1999. Light enhancement of symbiotic seed germination and development of an endangered terrestrial orchid (Platanthera integrilabia). Plant Sci. 102:133-138. 王美琇. 1999. 蘭共生菌對數種蘭科植物生長與發育之影響與應用.台大園藝學研 究所碩士論文. 立石生化科技研究部. 2000. 植物生長物質手冊.立石生化科技股份有限公司. 朱欽昌. 1987. 蘭科植物的內生菌根菌與蘭菌共生. 洋蘭月刊17: 59-62. 朱俊南. 2000. 蘭花菌根菌之分離與接種對文心蘭幼苗生長之影響. 國立屏東科技大學熱帶農業研究所碩士論文. 李哖、李嘉慧. 1996. 蝴蝶蘭花芽誘引和花序發育時之碳水化合物變化. 中國園藝42(3):262-275. 李嘉慧. 1990. 蝴蝶蘭型態解剖及光度、花芽發育對碳水化合物含量之影響. 國立台灣大學園藝研究所碩士論文. 李嘉慧、李哖. 1991. 台灣蝴蝶蘭根和葉的型態與解剖的特性. 中國園藝. 37: 237-248. 李國基. 2001. 台灣金線連與蘭菌之鑑定及生產技術改進. 國立台灣大學園藝學研究所博士論文. 李明治. 2001. 蘭菌(絲核菌)之生理、菌種生產及其對台灣金線蓮生長之影響。國立台灣大學園藝學研究所碩士論文 林菁敏. 1983. 溫度、無機養分與栽培介質對蝴蝶蘭生長與開花之影響. 國立台灣大學園藝研究所碩士論文. 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. 國立台灣大學園藝研究所碩士論文. 林育如. 2002. 蝴蝶蘭腋芽發育與開花調控關係之研究. 國立台灣大學園藝研究所博士論文. 高景輝. 1998. 植物荷爾蒙生理. 華香園出版社.台灣. 台北. 周玲勤. 1997. 彩葉蘭的大量繁殖與蘭菌的應用. 國立台灣大學園藝學研究所碩士論文. 周玲勤、李自強、張喜寧. 1998. 一葉蘭、彩葉蘭及金線連對蘭菌的反應. 中國園 藝 44:555-556. 周玲勤、張喜寧. 1999a. 彩葉蘭之無菌播種與實生苗生長. 植物種苗1:57-67. 周玲勤、張喜寧. 1999b. 溫度與栽培介質對彩葉蘭生長之影響. 中國園藝45:11-18. 周玲勤、張喜寧. 2003. 彩葉蘭( Haemaria discolor )的繁殖與栽培管理. 科學農業51:24-26. 周玲勤. 2004. 台灣金線連、彩葉蘭和其F1雜交種之菌根生理與培育. 國立台灣 大學園藝學研究所博士論文. 莊錦華、李哖. 1985. 蘭苗共生下之生長生理. 中國園藝 31: 189-200. 張棋雯. 2001. 彩葉蘭與彩葉蘭道生種之大量繁殖與蘭菌之利用. 國立台灣大學園藝學研究所碩士論文. 康繼文. 2004. 蘭菌與植物生長素對藥用石斛蘭生長發育之影響. 國立台灣大學園藝學研究所碩士論文. 曾千容. 2002. 石斛蘭蘭菌之分離、鑑定與培養及其對石斛蘭生長之影響. 國立台灣大學園藝學研究所碩士論文. 楊學琳. 1996. 溫度、光度與無機養分對姬蝴蝶蘭和朵麗蝶蘭生長與開花的影響. 國立台灣大學園藝研究所碩士論文. 蔡靜怡. 1997. 蘭菌及溫度對台灣金線連生長之影響. 國立台灣大學園藝學研究所碩士論文. 蔡麗君. 2003. 蘭菌與植物生長素對拖鞋蘭生長與發育之影響. 國立台灣大學園藝研究所碩士論文. 藍亦青. 2001.蘭菌對蝴蝶蘭與拖鞋蘭生長與發育之影響. 國立台灣大學園藝研究所碩士論文. Alexender, C., and G. Hadley. 1984. The effect of mycorrhizal infection of goodyera repens and its control by fungicide. New Phytol. 97:391-400. Arditti, J. 1967. Factors affecting the germination of orchid seeds. Bot. Rev. 33:1-97. Arditti, J. 1982. Orchid Biology. Review and perspective,II. Cornell Univ.Press. Arditti, J. 1992. Fundamentals of orchid biology. John Wiley and Sons, Inc. New York. Bernard, N. 1903. La germination des orchides. Compt. Rend. Acad. Sci. Paris. l37:483-485. Beyrle, H., F. Penningsfeld and B. Hock. 1991. The role of nitrogen concentration in determining the outcome to the interaction between Dactylorhiza incarnate L. Soo and Rhizoctonia sp. New phytol. 117:665-672. Chang, D. C. and L. C. Chou. 2001. Seed germination of Haemaria discolor var. dawsoniana and the use of mycorrhizae. Symbiosis 30:29-40. Chen, W. S., H. Y. Liu, Z. Y. Liu, L. Yang, W. H. Chen. 1994. Gibberellin and temperature influence carbohydrate content and flowering in Phalaenopsis. Physio. Plantrum 90:391-395. Chen, W and H. W. Chang. 1997 Gibberellic acid and cytokinin affect Phalaenopsis flower morphology at high temperature. Hort. Science 32(6):1069-1073. Chou, C. C., W. S. Chen, K. L. Huang, H. C. Yu, and L. J. Liao. 2000. Changes in cytokinin levels of Phalaenopsis leaves at high temperature. Plant Physiol. Biochem. 38(4):309-314. Duan, J. X. and S. Yazawa. 1995. Floral induction and development in Phalaenopsis in vitro. Plant Cell, Tissue and Organ Cult. 43:71-74. 751-773. Hadley, G. 1970. Non-specificity of symbiotic infection in orchid mycorrhiza. New Phytol. 69:1015-1023. Hadley, G. and B. Williamson. 1971. Analysis of the post-infection growth stimulus in orchid mycorrhiza. New Phytol. 70:445-455. Hadley, G. 1982. Orehid mycorrhiza in Arditti (eds.) Orchid biology : reviews and perspective CorneIl University press, Ithaca. New York. 390pp. Hadley, G. and B. Williamson. 1972. Features of mycorrhizal infection in some Malayan orchids. New Phytol. 71:1111-1118. Hadley, J. L. and S. E. Smith. 1983. Mycorrhizal Symbiosis. Academic Press,London. Harley, J. L. 1972. The biology of mycorrhiza. 2nd ed. Leonard Hill, London. Kataoka, K., K.Sumitomo, T. Fudano, K. Kawase 2004. Changes in sugar content of Phalaenopsis leaves before floral transition. Sci. Hortic. 102(2004)121-132. Keithly, J. H. and H. Yokoyama. 1990. Regulation of plant productivity I: Improved seedling vigor and floral performance of Phalaenopsis by 2-(3,4-dichloropphenoxy)triethylamine[DCPTA]. Plant Growth Regul. 9:19-26. Su, W. H., W. H. Chen, M. Koshioka, L. N. Mander, L. S. Hung, W. H. Chen, Y. M. Fu, K. L. Huang. 2001. Changes in gibberellin levels in the flowering shoot of Phalaenopsis hybrida under high temperature conditions when flower development is blocked. Plant Physiol. Biochem. 39:45-50. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/38869 | - |
dc.description.abstract | 本文內容包括:一、菌種分離純化與致病性分析;二、接種蘭菌對蝴蝶蘭開花之影響;三、接種蘭菌及施用激勃素對蝴蝶蘭開花之影響;四、不同蘭菌及激勃素對蝴蝶蘭開花之影響;五、不同植物生長素對蝴蝶蘭生長發育之影響。菌種分離純化與致病性分析中,分離出FP01、GP01、GP02、GP03等菌種,經泥碳土致病性分析,上述菌種均無致病性。接種蘭菌對蝴蝶蘭開花之影響中,接種蘭菌GP01(Fusarium sp.)及R02皆能提高蝴蝶蘭台灣阿嬤(Phalaenopsis amabilis var. formosana)的抽梗率,但在大白花(Dtps. Casablanca Joy × Phal. Taida Pinlong)則無顯著效果。接種蘭菌及施用激勃素對蝴蝶蘭開花之影響中,不同濃度的GAs+R02處理,皆有效提高台灣阿嬤及大白花抽梗率,推測適當蘭菌之存在,可促進GAs的有效性,僅用GAs處理則抑制台灣阿嬤及大白花之抽梗,凡只有接種R02的台灣阿嬤或大白花的各項處理,葉片數較高或落葉數較少,推測可能與促進蝴蝶蘭營養生長或Cytokinin有關。不同蘭菌及激勃素對此二種蝴蝶蘭開花之影響中,R02+GAs或R01+GAs處理效果優於R04+GAs處理,R02對蝴蝶蘭開花上的應用可能高於R01及R04。依據試驗結果,台灣阿嬤蝴蝶蘭品種,推薦可用R02+GA3 150ppm或100ppm處理,可促進其開花;大白花則以R02+GA3處理之表現較為穩定,推薦使用R02+GA3 150ppm、100ppm或GA4+7 150ppm處理,可促進其開花。不同植物生長素對蝴蝶蘭生長發育之影響中,使用Lysine#3(1000ppm)、Aminosong(1000ppm)、Cholrine Chloride(300ppm)、Inositol(50ppm)等植物生長素或新種肥料,觀察到上述處理對蝴蝶蘭營養生長上有幫助,但對開花並無顯著效果。 | zh_TW |
dc.description.abstract | There were two geneus fungi , including Fusarium and Rhizoctonia had been isolated from roots of Phalaenopsis spp. Two species of Phalaenopsis spp., Phalaenopsis amabilis var. formosana and Dtps. Casablanca Joy × Phal. Taida Pinlong, were inoculated with the isolated fungi GP01 (Fusarium sp.)and R02 (Rhizoctonia sp.). Phal. amabilis var. formosana. showed the high bolting rate by inoculating GP01 and R02 respectively, or Dtps. Casablanca Joy × Phal. Taida Pinlong doesn’t. The treatments of R02+GAs increased the bolting rate of two species of Phalaenopsis spp., suggesting that the orchid mycorrhizal fungi may promote effect of gibberellins positively. Treating gibberellins alone may inhibit bolting of Phalaeonpsis spp. Inoculating R02 also decreased leaf dropping of Phalaenopsis spp., suggesting inoculate orchid mycorrhizal fungi may promote vegetative growth of Phalaenopsis spp. or produce cytokinins. According the result, we suggest that the treatments of R02+GA3 150ppm, 100ppm or R02+GA4+7 150ppm could induce inflorescence of Phalaenopsis spp. effectively.
Lysine#3(1000ppm), Aminosong(1000ppm), Cholrine Chloride(300ppm) and Inositol(50ppm) could increase vegetative growth but non-effect on reproduction growth of Phalaenopsis spp. | en |
dc.description.provenance | Made available in DSpace on 2021-06-13T16:49:59Z (GMT). No. of bitstreams: 1 ntu-94-R90628125-1.pdf: 1069164 bytes, checksum: df45ebcaab2dcc3db33417a68e4b045e (MD5) Previous issue date: 2005 | en |
dc.description.tableofcontents | 目錄
中文摘要…………………………………………………………………………….I 英文摘要……………………………………………………………………………II 第一章 前人研究 壹 蝴蝶蘭之簡介 分類與分布……………………………………………………………………1 生長習性與繁殖方式…………………………………………………………1 栽培與管理……………………………………………………………………2 蝴蝶蘭產業概況………………………………………………………………10 蝴蝶蘭之開花生理……………………………………………………………11 論文參試品種介紹……………………………………………………………15 貳 蘭菌與蘭科植物之關係 蘭菌之定義、菌根之簡介及分類……………………………………………16 蘭共生菌感染模式與對蘭科植物生長之影響………………………………17 參 植物生長素介紹 定義與分類……………………………………………………………………21 論文使用植物生長素種類介紹………………………………………………22 參考文獻……………………………………………………………………………26 第二章 接種蘭菌與不同植物生長素對蝴蝶蘭生長與開花之影響 摘要…………………………………………………………………………………35 前言…………………………………………………………………………………36 材料與方法 一、菌種分離純化與致病性分析……………………………………………37 二、接種蘭菌對蝴蝶蘭開花之影響…………………………………………38 三、接種蘭菌及施用激勃素對蝴蝶蘭開花之影響I…………….………….39 四、接種蘭菌及施用激勃素對蝴蝶蘭開花之影響II …………………........40 五、不同蘭菌及激勃素對蝴蝶蘭開花之影響………………………………40 六、不同植物生長素對蝴蝶蘭生長發育之影響…………………………....41 結果與討論…………………………………………………………………………41 結論…………………………………………………………………………………51 參考文獻……………………………………………………………………………53 | |
dc.language.iso | zh-TW | |
dc.title | 蘭菌與植物生長素對蝴蝶蘭生長與開花之影響 | zh_TW |
dc.title | Effects of Orchid Mycorrhizal Fungi and Plant Growth Substances on the Growth and Flowering of Phalaenopsis spp. | en |
dc.type | Thesis | |
dc.date.schoolyear | 93-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 曾顯雄,高燕玉 | |
dc.subject.keyword | 蝴蝶蘭,蘭菌,植物生長素, | zh_TW |
dc.subject.keyword | Phalaenopsis spp.,Orchid mycorrhizal fungi,Plant growth substances, | en |
dc.relation.page | 80 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2005-06-24 | |
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 |
文件中的檔案:
檔案 | 大小 | 格式 | |
---|---|---|---|
ntu-94-1.pdf 目前未授權公開取用 | 1.04 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。