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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 高文媛 | |
dc.contributor.author | Meng-Ying Tsai | en |
dc.contributor.author | 蔡孟穎 | zh_TW |
dc.date.accessioned | 2021-06-13T00:26:44Z | - |
dc.date.available | 2007-07-30 | |
dc.date.copyright | 2007-07-30 | |
dc.date.issued | 2007 | |
dc.date.submitted | 2007-07-25 | |
dc.identifier.citation | 蔡淑華。1975。植物組織切片技術綱要,初版,茂昌圖書有限公司,30-46。
胡適宜。1990。被子植物胚胎學,初版,曉園出版有限公司。 郭耀綸。1995。六種固有景觀樹種苗木之耐陰性研究。技術學刊 10: 103-109。 張碧員、張蕙芬。1997。台灣野花三百六十五天,春夏篇,初版,大樹出版社,75-76。 劉和義、楊遠波、呂勝由、施炳鄰。2000。台灣維管束簡誌,第三卷,107。 林彥宏。2001。溫度對菊花花粉活性及授粉之影響,台灣大學園藝學研究所碩士論文。 張永仁。2002。野花圖鑑,初版,遠流出版公司,299。 黃東瑩。2003。紫花酢漿草鱗莖萌芽與生育之探討,台灣大學農藝學研究所碩士論文。 中央氣象局。1993-2005。中華民國氣候資料年報,第一部份,地面資料。中央氣象局,台北。 Aleric, K. M. and L. K. Kirkman. 2005. Growth and photosynthetic responses of the federally endangered shrub, Lindera melissifolia (Lauraceae), to varied light environments. American Journal of Botany 92: 682-689. Barker, H. G. 1965. Characteristics and modes of origin weeds. In: H. G. Barker, and G. L. Stebbins(eds.), The Genetics of Colonizing Species. Academic Press, New York. pp.147-172. Björkman, O. 1981. Responses to different quantum flux densities. In: O. L. Lange, P. S. Nobel, C. B. Osmond, and H. Ziegler(eds.), Encyclopedia of Physiological Plant Ecology. Springer Verlag, New York, USA. pp.57-107. Boardman, N. K. 1977. Comparative photosynthesis of sun and shade plants. Annual Review of Plant Physiology 28: 355-377. Castro, S., J. Loureiro, C. Santos, M. Ater, G. Ayensa, and L. Navarro. 2007. Distribution of flower morphs, ploidy level and sexual reproduction of the invasive weed Oxalis pes-caprae in the western area of the mediterranean region. Annals of Botany 99: 507-517. Chabot, B. F. and D. J. Hicks. 1982. The ecology of leaf life span. Annual Review of Ecology and Systematics 13: 229-258. Dafni, A. 1992. Pollination Ecology: A Practical Approach. Oxford University Press, Oxford. Darwin, C. 1865. On the sexual relations of the three forms of Lythrum salicaria. Biological Journal of the Linnean Society 8: 169-196. Darwin, C. 1877. The different forms of flowers on plants of the same species. Jhon Murray, London: p.352. Demmig-Adams, B., and O. Björkman. 1987. Comparison of the effect of excessive light on chlorophyll flurescence(77K) and photon yield of O2 evolution in leaves of higher plants. Planta 171: 171-184. Denton, M. F. 1973. A Monograph of Oxalis, Section Ionoxalis(Oxalidaceae) in North America. Publication of Michigan state university museum, Biological series 4, pp. 455-615. Dijkstra, P. 1989 Cause and effect differences in specific leaf area. In: H. Lambers, M. L. Cambridge, H. Conings and T. L. Pons(eds.), Causes and Consequences of Variations in Growth Rate and Productivity of Higher Plants. Academic Publishing, The Hague, pp. 125-140. Givnish, T. J. 1988. Adaptation to sun and shade: a whole-plant perspective. Australian Journal of Plant Physiology 15: 63-92. Guth, C. J., and S. G. Weller. 1986. Pollination, fertilization and ovule abortion in Oxalis magnifica. American Journal of Botany 73: 246-253. Heslop-Harrison, J., and Y. Heslop-Harrison. 1970. Evaluation of pollen viability by enzymatically induced fluorescence; intracellular hydrolysis of fluorescein diacetate. Stain Technology 45: 115-120. Hiroyuki, S., I. Yshio, and K. Shoichi. 1995. Reproductive biology of Oxalis corniculata (Oxalidaceae): style length polymorphisms and breeding systems of Japanese populations. Plant Species Biology 10: 85-93. Huang, T.-C., and T.-S. Liu. 1998. Oxlidaceae. In: T.-C. Huang et al.(eds.), Flora of Taiwan, vol. 3, 2nd ed. Editiorial Committee of the Flora of Taiwan, Department of Botany, Nation Taiwan University, Taiper, Taiwan. pp.397-402. Ito, N. 1978. Male sterility caused by cooling treatment at the young microspore stage in rice plants. Japanese Journal of Crop Science 47: 318-323. Kitajima, K. 1994. Relative importance of photosynthetic traits and allocation patterns as correlates of seedling shade tolerance of 13 tropical trees. Oecologia 98: 419-428. Koike, T. 1988. Leaf structure and photosynthetic performance as related to the forest succession of deciduous broad-leaved tree. Plant Species Biology 3: 77-87. Kramer, P. J. 1983. Water Relations of Plants. Academic Press, New York, USA. Krause, G. H., and E. Weis. 1991. Chlorophyll flurescence: the basics. Annual Review of Plant Physiology and Plant Molecular Biology 42: 313-349. Lambers, H., F. S. ChapinⅢ, and T. L. Pons. 1998. Plant Physiological Ecology. Springer Verlag, New York, USA. Larcher, W. 1995. Physiological Plant Ecology. Springer Verlag, New York, USA. Lee, S. L. J., H. E. Warmke. 1979. Organelle size and number in fertile and T-cytoplasmic male-sterile corn. American Journal of Botany 66: 141-148. Lourteig, A. 1980. Flora of Panama, Part Ⅳ. 84. Annals of the Missouri Botanical Garden 67: 823-850. Lourteig, A. 2000. Oxalis L. subgénero Monoxalis(Small) Lourt., Oxalis y Trifidus Lourt. Bradea 7 : 201-629. Luo, S., D. Zhang, and S. S. Renner. 2006. Oxalis debilis in china: distribution of flower morphs, sterile pollen and polyploidy. Annals of Botany 98: 459-464. Marks, G. E. 1956. Chromosome numbers in the genus Oxalis. New Phytologist 55: 120-129. Meyer, V. G. 1969. Some effects of genes cytoplasm and environment on male sterility cotton. Crop Science 9: 237-242. Molles, M. C. 2002. Ecology: Concepts and Applications. McGraw-Hill, Boston, USA. Mulkey, S. S., A. P. Smith, and S. J. Wright. 1991. Comparative life history and physiology of two understory neotropical herbs. Oecologia 88: 263-273. Napoli, C. A., D. Fahy, H.-Y. Wang, and L. P. Taylor. 1999. White anther: a petunia mutant that abolishes pollen flavonol accumulation, induces male sterility, and is complemented by a chalcone synthase transgene. Plant Physiology 120: 615-622. Nepi, M., M. Guarnieri, S. Mugnaini, L. Cresti, E. Pacini, and B. Piotto. 2005. A modified FCR test to evaluate pollen viability in Juniperus communis L. Grana 44: 148-151. Niinemets, Ü. 2001. Global-scale climatic controls of leaf mass per area, density, and thickness in trees and shrubs. Ecology 82: 453-469. Ornduff, R. 1987. Reproductive systems and chromosome races of Oxalis Pes-Caprae L. and their bearing on the genesis of a noxious weed. Annals of the Missouri Botanical Garden 74: 79-84. Raaimakers, D., R. G. A. Boot, P. Dijkstra, S. Pot, and T. Pons. 1995. Photosynthetic rate in relation to leaf phosphorus content in pioneer versus climax tropical rain forest trees. Oecologia 102: 120-125. Randall, R. P. 2002. A Global Compendium of Weeds. R. G. and F. J. Richardson, Melbourne, Australia. Available at http://www.hear.org/gcw. Reich, P. B., C. Uhl, M. B. Walters, and D. S. Ellsworth. 1991. Leaf lifespan as a determinant of leaf structure and function among 23 amazonian tree species. Oecologia 86: 16-24. Shivanna, K. R. 2003. Pollen Biology and Biotechnology. Science Publishers, Inc., USA. Shivanna, K. R., and B. M. Johri. 1985. The Angiosperm Pollen: Structure and Function. Wiley Eastern, New Delhi. Skillman, J. B., M. Garcia, A. Virgo, and K. Winter. 2005. Growth irradiance effects on photosynthesis and growth in two co-occurring shade-tolerant neotropical perennials of contrasting photosynthetic pathways. American Journal of Botany 92: 1811-1819. Smith, M. D., and A. K. Knapp. 2001. Physiological and morphological traits of exotic, invasive exotic, and native plant species in tallgrass prairie. International Journal of Plant Sciences 162: 785-792. Steudle, E., H. Ziegler, and U. Zimmermann. 1983. Water relations of the epidermal bladder cells of Oxalis carnosa Molina. Planta 159: 38-45. Tenhunen, J. D., and R. W. Pearcy, and O. L. Lange. 1987. Diurnal variations in leaf conductance and gas exchange in natural environments. In: E. Zeiger, G. D. Fraquhar, and I. R. Cowan(eds.), Stomatal Function. Stanford University Press, Stanford. pp. 323-352. Van der Meer, I. M., M. E. Stam, A. J. van Tunen, J. N. M. Mol and A. R. Stuitje. 1992. Antisense inhibition of flavonoid biosynthesis in petunia anthers results in male sterility. The Plant Cell 4: 253-262. Veldkamp, J. E. 1971. Oxalidaceae. Flora Malesiana ser.Ⅰ. Spermatophyta 7: 151-178. Weller, S. G. 1976. Breeding system polymorphism in a heterostylous species. Evolution 30: 442-454. Witkowski, E. T. F., and B. B. Lamont. 1991. Leaf specific mass confounds leaf density and thickness. Oecologia 88: 486-493. Wintermans, J. F. G. M., and A. De Mots. 1965. Spectrophotometric characteristics of chlorophylls a and b and their pheophytins in ethanol. Biochimica et Biophysica Acta 109: 448-453. Wu, S.-H., C.-F. Hsieh, and M. Rejmánek. 2004. Catalogue of naturalized flora of Taiwan. Taiwania 49: 16-31. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28865 | - |
dc.description.abstract | 紫花酢漿草(Oxalis corymbosa DC.),在台灣為外來種植物,春季多茂盛生長於公園綠地以及荒廢地,夏季僅在較陰暗的環境才能發現其蹤跡,此外,北部比南部具有較多的紫花酢漿草族群;又其在原生地有結實紀錄,引入台灣後,採用鱗莖行無性繁殖,並無結實之現象。本研究目的有二,目的一:比較紫花酢漿草族群在不同光度和水分處理下的反應,以探討主要限制其生長在上述棲地的原因;目的二:調查花柱型、測量花粉活性、染色體倍數,以探討其不結實的原因。實驗結果發現,春天時在不同光度處理下的植株,其生物量和光合作用參數都無顯著差異。而在夏季高光度、澆水處理下,全光照組的生物量高於遮光處理組;但在高溫、強光下,紫花酢漿草有明顯光抑制現象。而在春季進行乾旱處理下,紫花酢漿草的光飽和淨光合作用速率、生物量等都顯著降低。因此推測水分才是主要限制紫花酢漿草分佈的重要因素。紫花酢漿草在原生地有花柱三型性,於2005-2007年間隨機調查台灣本島的紫花酢漿草族群,並沒有發現長花柱個體,中花柱型個體佔最大比率且其花藥多呈現黃色,而短花柱型個體比率低且其花藥多呈現白色。黃色花藥花粉囊內有活性的花粉比率很低,約4%花粉有活性,而白色花藥花粉囊內不具有花粉。比較台灣紫花酢漿草各花柱型的核DNA含量,發現其具相同染色體倍數。因此,白色花藥不產生花粉,並非染色體倍數異常所造成。觀察埋蠟切片,發現白色花藥有發育不正常的營養層。經由溫室以及生長箱實驗,發現溫度和光度會影響上輪雄蕊花粉的活性;適當的溫度和光度雖然可以提高紫花酢漿草上輪雄蕊花粉活性,但因台灣並沒有長花柱個體,將無助於提高其成功授粉機率。紫花酢漿草因具有自交不親和性且必須經由有效的授粉方式(legitimate pollination)才能成功授粉;推測台灣目前缺少長型花柱個體且花粉活性過低,為影響紫花酢漿草無法結實的重要原因。 | zh_TW |
dc.description.abstract | Oxalis corymbosa is an exotic plant in Taiwan. In spring, O. corymbosa thrives in parks and wastelands, but is found only in shady environment during summer season. In addition, O. corymbosa has more populations in northern than in southern Taiwan. Though O. corymbosa has been observed producing capsules in its native habitat, it has no fruit in Taiwan and uses vegetative reproduction by bulbs. There are two objectives of this study: first, to examine the response of O. corymbosa under different irradiance (PAR) and watering regimes; secondly, to study factors limiting seed-set of O. corymbosa in Taiwan. Results showed that plants under two different light treatments in spring had no significant difference in biomass and photosynthetic parameters. But plants of O. corymbosa grown under full light and well water condition in summer had greater biomass than those in shade. Under high light and high temperature condition, leaves of O. corymbosa suffered obvious photoinhibition. Grown under drought treatment, O. corymbosa had significant reduction in light-saturated net photosynthetic rate and biomass. These results suggest that low soil moisture may be an important factor restricting the growth and distribution of O. corymbosa. The flowers of O. corymbosa have tristyly in its native environment. To investigate flower morph, I surveyed O. corymbosa populations in Taiwan during 2005-2007. Long morph individuals were not found, and mid morph individuals (96.7%) were found to have the greatest proportion in Taiwan. In addition, most of short morph individuals had white and sterile anthers. However, the percentage of vital pollen of O. corymbosa (~4.0%) was much lower than that of O. corniculata (~54.9%, the native congener of O. corymbosa in Taiwan). The analysis of nuclear DNA content revealed that O. corymbosa individuals of different flower morph have same chromosome numbers. After examining paraffin section of anther, I found that white anther had abnormal tapetum. Therefore, possible causing white anther is not due to odd chromosome set, but is caused by the abnormal tapetum. Greenhouse and growth chamber experiments also showed that temperature and irradiance could influence the percentage of vital pollen of upper stamen. Plants under low light treatment had lower percentage of vital pollen. The adequate temperature and irradiance may increase the percentage of vital pollen of upper stamen, but the situation will not improve the fruiting probability of O. corymbosa due to the absence of long morph individuals in Taiwan. Since O. corymbosa has self-incompatibility and successful pollination is restricted within legitimate pollination, the absence of long morph individuals in Taiwan and low percentage of vital pollen may be important factors contributing to the fruiting failure of O. corymbosa in Taiwan. | en |
dc.description.provenance | Made available in DSpace on 2021-06-13T00:26:44Z (GMT). No. of bitstreams: 1 ntu-96-R94b44001-1.pdf: 1029934 bytes, checksum: ca4be9d82f57603654ada7435ba8bafd (MD5) Previous issue date: 2007 | en |
dc.description.tableofcontents | 目錄………………………………………………………………………Ⅰ
中文摘要…………………………………………………………………Ⅴ 英文摘要…………………………………………………………………Ⅵ 一、前言……………………………………………………………………1 二、材料與方法……………………………………………………………6 1 實驗材料…………………………………………………………6 2 不同季節光度對紫花酢漿草的影響…………………………………6 2.1 光度處理及測量…………………………………………….6 2.2 生長及光合作用生理比較……………………………………7 2.3 葉片葉綠素含量之測定………………………………………8 2.4 葉部構造觀察…………………………………………………9 3 水分處理…………………………………………………………9 3.1 土壤水分測量………………………………………………10 3.2 生長及光合作用生理比較……………………………………10 3.3 葉片葉綠素含量之測定………………………………………10 4 花柱型、花粉活性、小孢子發育及染色體調查分析…………………10 4.1 台灣紫花酢漿草族群花柱型調查……………………………10 4.2 花粉活性探討………………………………………………11 4.2.1 花粉活性(pollen viability)螢光測定……………………11 4.2.2 花粉管萌發測定(in vitro germination) …………………11 4.3 體細胞染色體倍數分析………………………………………12 4.4 小孢子發育…………………………………………………12 5 統計分析…………………………………………………………12 三、結果…………………………………………………………………13 1 不同季節光度對紫花酢漿草的影響…………………………………13 1.1 實驗一……………………………………………………13 1.2 實驗二……………………………………………………13 1.3 實驗三……………………………………………………14 2 水分處理…………………………………………………………27 3 紫花酢漿草在台灣缺乏有性繁殖的原因……………………………31 3.1 台灣紫花酢漿草族群花柱型調查……………………………31 3.2 花粉活性之測定……………………………………………31 3.2.1 花粉活性(pollen viability)螢光測定……………………31 3.2.2 花粉管萌發測定(in vitro germination) …………………32 3.3 體細胞染色體倍數分析………………………………32 3.4 小孢子發育……………………………………………….….32 四、討論…………………………………………………………………44 1 不同季節光度對紫花酢漿草的影響………………………………44 1.1 實驗一和二………………………………………………44 1.2 實驗三……………………………………………………45 1.3 實驗綜合討論……………………………………………46 2 土壤水分對紫花酢漿草的影響……………………………………46 3 紫花酢漿草在台灣缺乏有性繁殖的原因探討………………………48 五、結論…………………………………………………………………53 六、參考文獻……………………………………………………………54 附錄………………………………………………………………………60 | |
dc.language.iso | zh-TW | |
dc.title | 限制紫花酢漿草在台灣的分佈及其有性繁殖之因素探討 | zh_TW |
dc.title | Studies on factors limiting the distribution and sexual reproduction of Oxalis corymbosa DC. in Taiwan | en |
dc.type | Thesis | |
dc.date.schoolyear | 95-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 黃啟穎,張育森,陳淑華,黃玲瓏 | |
dc.subject.keyword | 紫花酢漿草,光度,水分,有性繁殖,花粉活性, | zh_TW |
dc.subject.keyword | Oxalis corymbosa,light,water,sexual reproduction,pollen viability, | en |
dc.relation.page | 60 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2007-07-26 | |
dc.contributor.author-college | 生命科學院 | zh_TW |
dc.contributor.author-dept | 生態學與演化生物學研究所 | zh_TW |
顯示於系所單位: | 生態學與演化生物學研究所 |
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