Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/89202
標題: 疏花序與花序型態對'糯米糍'(73-S-20)荔枝花性、結實及果實品質之影響
Effects of Inflorescence Thinning and Types of Reproductive Shoots on Flower Sex Ratio,FruitSetand Fruit Quality of 'No Mai Taz' (73-S-20)Litchi(Litchi chinensis Sonn.)
作者: Yi-Han Wang
王藝翰
關鍵字: 荔枝;疏花序;帶葉花序;光合作用;花性;著果;litchi;inflorescences thinning;leafy inflorescences;photosythesis;flower sex;fruit set
引用: 王平、鄭偉、陳偉. 2010. 荔枝花性別分化過程的螢光顯微觀察. 熱帶作物學報. 31(5): 740-744. 朱堉君. 2008. '糯米糍'(73-S-20)荔枝之種子發育與環刻促進著果. 國立台灣大學園藝學研究所碩士論文. 台北. 台灣農業統計年報. 2012. 行政院農委會. 肖華山、呂柳新. 2002. 荔枝花芽與花性別分化研究進展. 福建農林大學學報. 31(3): 334-338. 李雪如. 2007. 玉荷包荔枝疏花對著果及果實品質之影響. 台灣園藝. 53(4):518-519(摘要)。 林宗賢、沈素美、顏昌瑞、林添成、張哲瑋. 1991. 果實、葉片、光照與修剪對荔枝開花的影響. p.127-136. 刊於: 林信山、張林仁主編. 園藝作物產期調節研討會專集II。台中區農業改良場. 台中. 林曉東、吳定堯、葉欽海、王衛華. 1998. 花序修剪對妃子笑荔枝花質量和座果的影響. 華南農業大學學報. 19(3): 124-125. 周碧燕、陳厚彬、向熾華、劉偉強、李寧、胡志群、黃旭明、張思. 2010. '三月紅'荔枝不同溫度處理的成花效應. 園藝學報. 37(7): 1041-1046. 施伯明. 2000. 荔枝胚囊之發育及溫度對胚囊發育之影響. 國立台灣大學園藝學研究所碩士論文. 台北. 施伯明、陳右人. 2006. 荔枝胚囊發育觀察. 台灣園藝. 46: 359-368。 袁榮才、黃輝白. 1993. 從調節源-庫關係看環剝對荔枝幼樹根梢生長與座果的調控.果樹科學. 10(4):195-198。 馮蔚、張蕾、李松剛、陳業淵、羅石榮. 2010. 3個荔枝品種胚胎發育過程的比較. 熱帶作物學報. 31(5):736-739. 張振宙、陳吉雄. 1979. 剪除糯米糍荔枝冬季嫩梢對產生花序之效果. 台灣園藝. 25: 207-210. 張哲瑋. 1999. 荔枝開花之調控. 國立台灣大學園藝學研究所博士論文. 台北. 張哲瑋、趙政男、陳右人、鄭正勇. 1997. 溫度及乾旱對荔枝開花的影響. 台灣園藝. 43: 322-329。 張哲嘉. 2001. 糯米糍荔枝栽培問題與對策. 農業世界. 218: 83-90. 張哲嘉. 2004. '玉荷包'與'糯米糍'(73-S-20) 荔枝結實之研究. 國立台灣大學園藝學研究所博士論文. 台北. 張哲嘉、林宗賢. 2003. 疏花序對玉荷包荔枝花性、著果與果實品質之影響. 中華農學會報. 4(5): 418-428. 張哲嘉. 2009. 改善'糯米糍'(73-S-20)荔枝生產之生理基礎與研究進展. p.43-60. 刊於: 顏昌瑞、柯立祥主編。海峽兩岸荔枝學術研討會專刊. 國立屏東科技大學. 屏東. 鄧永興. 1988. 玉荷包荔枝穩定生產方法之探討. 國立台灣大學園藝學研究所碩士論文. 台北. 薛文鄹. 1989. 荔枝生理之基本研究. 國立台灣大學園藝學研究所碩士論文. 台北. 顏昌瑞. 1995. 荔枝. 刊於: 台灣農家要覽. p.33-42. 豐年出版社. 台北. 顏昌瑞、廖玉琬、田永柔. 1984. 台灣荔枝品種及其改良. 中國園藝. 30: 210-222. 陳溪潭. 1994. 荔枝之梢生長與花穗形成之探討. 台南區農業改良場研究彙報. 31: 23~34. 陳盟松、林宗賢、楊雯如. 2013. 不同時期除葉對檬果花序形成之影響. 台中區農業改良場研究彙報. 120:41-51. 陳厚彬、周碧燕、劉宗莉、黃輝白. 2009. 荔枝成花誘導與分化對溫度的要求. 海峽兩岸荔枝學術研討會專刊. 國立屏東科技大學農園生產學系編印. p.61-69. 黃弼臣. 1966. 荔枝樹新稍枝生長及其與抽穗之關係. 台灣園藝 12: 8-14. 黃弼臣、翁慎微. 1978. 荔枝樹晚發新梢處理對增進結果之效果(第一報). 台灣園藝. 24: 121-126。 黃志樑. 2003. 玉荷包荔枝花性及結實之研究. 國立中興大學園藝研究所碩士論文.台中. Chen, B.A., S.F. Roan, C.L. Lee, and I.Z. Chen. 2013. The effect of temperature during inflorescence development to flowering and inflorescence length on yield of 'Yu Her Pau'litchi. Sci. Hort. 159: 186-189. Chang, J.C., and T.S. Lin. 2007. Gas exchange in litchi under controlled and field conditions.Scientia Hort. 114: 268-274. Chang, J.C., and T.S. Lin. 2008. Fruit yield and quality as related to flushes of bearing shoots in litchi. J. Amer. Soc. Hort. Sci. 133(2): 284-289. Hieke, S., C.M. Menzel, and P. Ludders. 2002. Effect of leaf, shoot and fruit development on photosynthesis of lychee tree (Litchi chinensisSonn.). Tree Physiol. 22:955-961. Hieke, S., C.M. Menzel, V.J. Doogan, and P. Ludders. 2002. The relationship between yield and assimilate supply in litchi (Litchi chinensis Sonn.). J. Hort. Sci.Biotechnol. 77:326–332. Huang, H. M., S. Subhadrabandhu, S.K. Mitra, R.B. Arie and R.A. stern. 2005. Origin, history, production and processing. p.115-137. In:Menzel, C. M., and Waite, G. K. (eds). Litchi and Longan: Botany, Production and Uses. CABI Publishing. Jiang, S.Y., H.Y. Xu., H.C. Wang, G.B. Hu, J.G. Li, and H.B. Chen, X.H. Huang. 2012. A comparison of the costs of flowering in 'Feizixiao'and 'Baitangying'litchi. Sci. Hort. 148:118-125. Kulkarni, V.J. 1988. Further studies on graft-induced off-senson flowering and fruiting in mango (Mangifera indica L.). J. Hort. Sci. 63:361-367. Mustard, M.J. 1960.Megametophytes of litchi (Litchi chinensis Sonn). J. Amer. Soc. Hort. Sci. 75: 292-304. Menzel, C.M. and D.R. Simpson. 1988. Effect of temperature on growth and flowering of litchi cultivars. J. Hort. Sci. 63: 349-360. Menzel, C.M., T.S. Rasmussen and D.R. Simpson. 1989. Effects of temperature and leaf water stress on growth and flowering of litchi. J. Hort. Sci. 64: 739-752. Menzel, C.M. and D.R. Simpson. 1991. Effect of temperature and leaf water stress on panicle and flower development of litchi (litchi chinensis Sonn.). J. Hort. Sci. 66(3):335-344. Menzel, C.M. and D.R. Simpson. 1992. Flowering and fruit set in lychee (litchi chinensis Sonn.) in subtropical Queensland. Aust. J. Exp. Agr. 32:105-111. Menzel, C.M. and D.R. Simpson. 1995. Temperature above 20℃ reduce flowering in lychee (litchi chinensis Sonn.). J. Hort. Sci. 70(6):981-987. Nakata, S. and R. Suehisa. 1969. Growth and development of litchi chinensis as affected by soil- moisture stress. Amer. J. Bot. 56: 1121-1126. Nakata, S. and Y. Watanabe. 1966. Effect of photoperiod and night temperature on the flowering of litchi chinensis. Bot. Gaz. 127: 146-152. Nunez-elisea, R., T.L. Davenport, and M.L. Caldeira. 1996. Control of bud morphogenesis in mango (Mangifera indica L.) by girdling, defoliation and temperature modiffcation. J. Hort. Sci. 71(1):25-39. O'Hare, T.J. 2002. Interaction of temperature and vegetative flush maturity influences shoot structure and development of lychee (litchi chinensis Sonn.). Scientia Horticulturae 95:203-211. Olesen, T., C.M. Menzel, N. Wiltshire, and C.A. McConchie. 2002. Flowering and shoot elongation of lychee in eastern Australia. Aust. J. Agric. Res. 53:977-983. Roe, D.J., C.M. Menzel, J.H. Oosthuizen and V.J. Doogan. 1997. Effect of current CO2 assimilation and stored reserves on lychee fruit growth. J. Hort. Sci. 72(3): 397-405. Robbertse, H., J. Fivaz, and C.M. Menzel. 1995. A reevaluation of tree model, inflorescence morphology, and sex ratio in lychee. J. Amer. Soc. Hort. Sci. 120(6): 914-920. Stern, R.A. and S. Gazit. 2003. The reproductive biology of lychee. Hort. Rev.28:393-453. Stern, R.A., D., Eisenstein, H. Voet, and S. Gazit. 1996. Anatomical structure of two day old litcui ovules in relation to fruit set and yield. J. Hort. Sci. 71:661-671. Wang, B. and Y. Qiu. 1997. Growth and fruiting. In: Zhang, Z.W., P.Y. Yuan, B.Q. Wang and Y.P. Qui (eds) Litchi pictorial narration of cultivation. Pomology research institute Guangdong academy of agricultural sciences, Guangzhou. Wu, D., X. Lin, Q. Ye and W. Wang. 2001. Improvement of fruit set insecondary panicle of 'Feizixiao' litchi by removal of the primary panicles. 1stIntl. Symp. Lichi, and Lomgan. Guangzho, China, p. 42 (Abstr. C-11). Yuan, R.C. and H. B. Huang. 1988. Lithci fruit abscission: its patterns, effectof shading and relation to endogenous abscisic acid. Sci. Hort. 36: 281-292. Zhou, B., H. Chen, X. Huang, N. Li, Z. Hu, Z. Gao, and Y. Lu. 2008. Rudimentary leaf abortion with the development of panicle in litchi: Changes in ultrastructure, antioxidant enzymes and phytohormones. Sci. Hort. 117: 288–296.
摘要: 
Poor yield and unstable of flowering have been reported as the major production problems of'No Mai Tsz'(73-S-20)litchi in Taiwan. The objective of this study was to document the effect of inflorescences thinning and types of reproductive shoots on the flower sex ratio, fruiting and fruit quality. 1/2 to 2/3 flowers per inflorescences were removed by hand right before 1 and 3 weeks of anthesis (female flower is full blooming). That inflorescence thinning before 3 weeks of full anthesis could affect flower sex ratio, but could not promote fruit set and fruit quality in 'No Mai Tsz' (73-S-20) lithci. We investigate the axis length of inflorescences, leaf length, chlorophyll readings and gas exchange rate at 1 week after leaflet unfolding of mixed shoot. In second experiment we investigate the generative shoots, mixed shoots and transition shoots on field growth tree. The gas exchange rate were determined at over fruit growing period. That concluded that photosynthetic capacity comapred within leaflet of leafy inflorescences and generative shoot are no difference, but leaflet of mixed has a samller size than leaflet of generative shoot. Generative shoots had highest flower numbers (588), while mixed shoots (459) and transition shoots (221) followed respectively, suggesting that it had a gradual reduction of flower numbers associated with the attribute of leafy reproductive shoots. No difference was recorded in sex ratio of M1, F and M2 flowers among all types of shoots. The major wave of fruit drop, more than 80%, occurred within 5 weeks after full bloom, regardless of the types of shoots. The number and proportion of fruit retained at harvest in generative, mixed and transition shoots were 1.4、0.7%, 2.3、1.5% and 2.1、2.4%, respectively. There was no difference in fruiting and yield performance among all types of shoots. Most characteristics of matured fruit, including weight of fruit, aril and seed as well as aril sweetness, did not vary with types of shoots, besides the pericarp weight of transition shoots was inferior to that of other two types of shoots. defoliate of mixed shoot on difference inflorescences growth stage, undefoliate on mixed shoot and generative shoot are control. Our results indicated that inflorescences leaf of mixed shoot inhibit inflorescences development, resulting in Total flower number of mixed shoot were much less than that of generative shoot. Whihe inflorescences leaf of mixed shoot have potential of stabilizing fruit set and does not affect fruit quality.

結實不良與開花不穩為'糯米糍'(73-S-20)荔枝生產之重要問題,為瞭解疏花序、花序型態及混合花序除葉是否影響花性、著果及果實品質。分別於盛花前1週及三週進行疏花序,結果顯示盛花前3週疏花序可能改變荔枝花性,但不論盛花前1週或3週疏花序著果數為1.7顆,著果率2.4-2.9%及果實品質均與對照組無差異。於混合型花序(mixed shoot)小葉展開後一週進行花序主軸長度、小葉長、葉綠素讀值及光合作用氣體交換速率之調查,另調查三種花序型態小葉及結果枝葉片之光合作用能力,結果顯示三種花序型態小葉與結果枝葉片能力無異,混合花序小葉於盛花時自身呼吸損耗與碳同化能力達到平衡,雖然光合作用能力與營養梢葉片無異,但其葉片大小僅有營養梢葉片之50%。比較純花序(generative shoots)、混合型花序(mixed shoots)及過渡型花序(transition shoots)等三者單一花軸(panicle)之花性、著果數、著果率及果實品質。結果顯示,總花數以純花序之588最多,混合型花序459次之,過渡型花序221最少,但各型態花序之花性比例並無差異。不論何種花序型態均於盛花後五週內有一明顯之落果高峰(80%以上小花掉落),純花序最終著果數為1.4,著果率為0.7%,混合花序為 2.3、1.5%,過渡型花序為2.1、2.4%,但三者並無顯著差異,果實性狀除過渡型花序之果皮重低於其它兩者,單果重、果肉重、種子重及糖度亦均無差異,試驗結果顯示,花序型態影響'糯米糍'(73-S-20)荔枝總花數但不影響花性比例、最終著果數與果實性狀。於混合花序不同生長階段進行除葉,並以未除葉之混合花序及純花序為對照,結果顯示混合花序較早除葉具有較多的小花數,至盛花時方除葉則已無法改變,而不管除葉時期早晚均不影響花性比例。與混合花序相較,純花序具有較高之著果數及著果率,但保留混合花序葉片具有穩定著果之潛力,但仍需進一步確認。而通霄試區因盛花期適逢梅雨,因此處理效益並不顯著,而混合花序葉片並未影響73-S-20之果實品質。
URI: http://hdl.handle.net/11455/89202
其他識別: U0005-1311201411533200
Rights: 不同意授權瀏覽/列印電子全文服務
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