稀毛蜈蚣藻生活史及養殖育苗技術研究

Chia-Ying Yang; 楊嘉穎

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/46914

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	周宏農(Hong-Nong Chou)
dc.contributor.author	Chia-Ying Yang	en
dc.contributor.author	楊嘉穎	zh_TW
dc.date.accessioned	2021-06-15T05:43:14Z	-
dc.date.available	2010-08-20
dc.date.copyright	2010-08-20
dc.date.issued	2010
dc.date.submitted	2010-08-19
dc.identifier.citation	梁宏彥、蕭聖代，2007。台灣產蜈蚣藻的形態與分類。水試專訊，18 : 16–18。周宏農、陳珮瑜，2005。經濟海域重要藻類(紫菜、蜈蚣藻、石花菜)資源量評估及藻床復育之分析。行政院農業委員會漁業屬九十四年度科技計畫研究報告。行政院農業委員會漁業署，2000-2007。中華民國台灣地區漁業統計年報，臺北市。馬凌波、王素娟、何培民，1995。大型經濟紅藻－蜈蚣藻類的室內人工育苗。上海水產大學學報，4(2) : 93–97。張澤宇、魏海霞、韓余香、王國書，2007。蜈蚣藻盤狀體誘導絲狀體及其採苗的初步研究。大連水產學院學報，22(3) : 164–169。施義哲，2009。澎湖箱網養殖的環境衝擊與發展之評估。國立中山大學海洋環境及工程學系博士論文。堀輝三，1993。藻類的生活史集成 (褐藻、紅藻類)。第二卷 : 268–269。陳卉，2000。菩提藻 Grateloupia filicina (Lamouroux) C. Agardh的再生組織和四分孢子所形成的絲狀體之培養。國立台灣海洋大學水產養殖系碩士學位論文。陳淑慧，1994。經濟海藻蜈蚣藻 (Grateloupia filicina C. Ag.) 培養條件之探討。1.環境因子：溫度、光度、光週期及震盪轉速對蜈蚣藻生長之影響；2.植物生長調節物質對蜈蚣藻生長之影響。國立台灣海洋大學水產養殖系碩士學位論文。陳國治、徐有德、夏福祖、何若文，1985。實用海水藻類養殖技術。農業出版社出版。曾呈奎、王素娟、劉思儉、郭宣鍨、張定民，1985。海藻栽培學。上海科學技術出版社出版。葉文吉，1970。台灣北部產翼枝菜之研究。國立台灣大學海洋研究所碩士論文。黃聲蘋，1970。鹽度對正龍鬚菜(Gracilaria verrucosa)與石花菜(Gelidium japonicum)生長之影響及該兩種紅藻對無機氮鹽選擇吸收性之研究。國立台灣大學海洋研究所碩士論文。黃淑芳，2003。台灣產海膜藻科系統分類與植物地理之研究。國立台灣博物館九十二年度研究成果報告書。翁韶蓮，2001，菩提藻生長環境條件與氮源需求之探討，國立臺灣海洋大學，博士論文。江永棉、周應浩，1977。長葉紫菜之培養─絲狀體越夏培養及殼孢子放出條件。台灣水產學會刊，5(2)：P91~97。 Chen L. C. M., Edelstein T., and McLachlan J., 1969. Bonnemaisonia hamifera hariot in nature and in culture. Journal of Phycology 5 : 211-220. Chiang Y. M., 1970. Morphological studies of red algae of the family Cryptonemiaceae. University of California publications in botany 58 : 1-95. Food and Agriculture Organization (FAO), 1990. A guide to the seaweed industry : seaweeds used as a source of carrageenan. FAO fisheries technical paper 441 : 51-72. Guiry M. D. & Guiry G. M., 2010. AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. http://www.algaebase.org (searched on 16 August 2010). Hwang E. K., Park C. S., Baek J. M., 2006. Artificial seed production and cultivation of the edible brown alga, Sargassum fulvellum (Turner) C. Agardh: Developing a new species for seaweed cultivation in Korea. Journal of Applied Phycology 18 : 251-257. Huang W. and Fujita Y., 1997. Callus induction and thallus regereration of the red alga Meristotheca papulosa (Rhodophyta, Gigartinales). Botanica marina 40 : 55-62. Iima M., Kinoshita T., Kawaguchi S., Migita S., 1995. Cultivation of Grateloupia acuminata (Halymeniaceae, Rhodophyta) by regeneration from cut fragments of basal crusts and upright thalli. Journal of Applied Phycology 7 : 583–588. Lin S. M., Liang H. Y., Hommersand M. H., 2008. Two types of auxiliary cell ampullae in Grateloupia (Halymeniaceae, Rhodophyta), including G. taiwanensis sp. nov. and G. orientalis sp. nov. from Taiwan based on rbcL gene sequence analysis and cystocarp development. Journal of Phycology 44 : 196-214. Ohno M., Critchley A. T., 1993. Seaweed cultivation and marine ranching. Japan International Cooperation Agency (JICA) : 25-40. Santelices B., Alvarado J., 2006. Applying the concept of metamorphosis to the crustose-to-erect thallus transition of macroalgae. Integrative and Comparative Biology 46: 713-718. Shao K. S., Wei J. X., Zho B. C., 2004. Production and application of filaments of Grateloupia turuturu (Halymeniaceae, Rhodophyta). Journal of Applied Phycology 16 : 431–437. Strain L. W.S., Isdepsky Andreas, Borowitzka M. A., Daume S., 2007. Three algal propagation methods assessed to create a rhodophyta diet for juvenile greenlip abalone (Haliotis laevigata) in the later nursery phase. Journal of shellfish research 26: 737-744. Simon C., Gall E.Ar, Deslandes E., 2001. Expansion of the red alga Grateloupia doryphora along the coasts of Brittany (France). Hydrobiologia 443 : 23–29. Van de Velde F., Antipova A. S., Rollema H. S., Burova T. V., Grinberg N. V., Pereira L., Gilsenan P. M., Tromp R. H., Rudolph B., Grinberg V. Ya., 2005. The structure of j/i-hybrid carrageenans II. Coil–helix transition as a function of chain composition. Carbohydrate Research 340 : 1113–1129. Wang S. C., Bligh S. W. A., Shi S.S., Wang Z.T., Hu Z.B., Crowder J., Branford-White C., Vella C., 2007. Structural features and anti-HIV-1 activity of novel polysaccharides from red algae Grateloupia longifolia and Grateloupia filicina. International Journal of Biological Macromolecules 41 : 369-375. Wong S. L., Chang J., 2000. Salinity and light effects on growth, photosynthesis, and respiration of Grateloupia filicina (Rhodophyta). Aquaculture 182 : 387-395.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/46914	-
dc.description.abstract	蜈蚣藻屬於紅藻門 (Rhodophyta)、真紅藻綱 (Florideophyceae)、海膜藻目 (Halymeniales)、海膜藻科 (Halymeniaceae)、蜈蚣藻屬 (Grateloupia)，而在台灣，文獻上曾記錄的有六個種類，其中野生的G. livida與G. okamurae已廣泛地被當作食材，而G. sparsa廣泛分佈於東北角及澎湖，其中澎湖發現的藻體體型較東北角大量分布的同一種類大，且葉緣平滑未分枝，外觀與口感也較受人喜愛，因此本研究以澎湖產G. sparsa為實驗材料。按月採樣的野外調查發現，其生長季節為冬季，而生活史所存在的三個世代 (配子體世代、果孢子體世代以及四分孢子體世代) 重疊於這個期間，然而部分的四分孢子體終年可見，但體型較小。同時經由孢子萌發於三種溫度 (20、25、30℃) 及兩種光照 (13.5與40.5 μE/m2/s) 條件下的結果，顯示於較高溫下，雙倍孢子形成的盤狀體較單倍孢子形成的盤狀體較不易形成葉狀體而轉型成結節絲狀體，光照強度並無顯著影響；而單倍盤狀體在較於低溫及較高光照下易產生較多的葉狀體。結節絲狀體可藉SWM-III培養基懸浮培養而大量養殖，在任何時間點下均可利用為種源誘發葉狀體的形成。藉由結節絲狀體的打碎液經噴瓶噴附於尼龍繩上，於25℃下靜置培養至幼葉萌發後，再移至20 ℃下打氣培養成葉狀體幼苗繩，以供野外佈放，其中配子體幼苗經三個月的培養，可達約2.3公分的長度，於四分孢子體幼苗，則因盤狀體較小，易由繩索上脫落，其育苗條件尚未掌握。	zh_TW
dc.description.abstract	Grateloupia spp. belong to the Halymeniaceae family of Rhodophyta, under Florideophyceae and Halymeniales. In Taiwan, 6 species have been recorded, among them, field-collected G. livida and G. okamurae have been utilized as food popularly. One of the widely distributed species along the northern-east coast of Taiwan and at Penghu. G. sparsa at Penghu is larger in size, smooth and branchless, has attrached local consumer by its out-features and texture as food. Based on thes reason, we investigated its life cycle and growth needs in order to develop its propagation. According to the result of field survey, we observed the season of G. sparsa thalli, including gametophyte, carposporophyte and tetrasporophyte is December to March of next year. It was also observed that tetrasporophyte appeared year round, although its size and population were much reduced in Summer. Germinations of carpospore and tetraspore to form young thalli through discoid crust formation were tested under 3 different temperature (20、25、30℃) with 2 illuminations (13.5與40.5 μE/m2/s). The results showed discoid crusts from carpospores were more difficult than those from tetraspores to form young thalli, but easier to form nodulous filament, a multi-crusts form in tangled by their extending filaments at conditions of higher temperature, no significant difference between different illumination. Discoid crusts from tetraspore germinated more young thalli at 20℃and 40.5 μE/m2/s than other combination of temperature and illumination treatment. Nodulous filaments from carpospore or tetraspore thus formed can be propagated by fragmentation and cultured in SWM-III medium. They can be served as germ resources since the filaments can be blended into small piecies and sprayed on nylon ropes for young thalloid germination. Data of the trials of thalloid germination from nodulous filament showed 3~4 days of settlement and discoid formation under 25 ℃ were needed before the nylon ropes were transferred to 20℃, where young thalli grew faster under aeration and illumination. Young thalli of gametophyte grew to 2.3 cm within 3 months and are ready for field test, but the young thalli of tetrasporophyte failed to grow on rope. Young tetrasporophyte were detached grow the rope due to small discoid size.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T05:43:14Z (GMT). No. of bitstreams: 1 ntu-99-R96b45008-1.pdf: 1489829 bytes, checksum: 2009d4d5ff299ae698ec455be8903c59 (MD5) Previous issue date: 2010	en
dc.description.tableofcontents	中文摘要……………………………………………………………… І 英文摘要……………………………………………………………… П 第一章前言……………………………………………………… 1 第二章文獻回顧 2-1 海藻的人工養殖………………………………………………… 3 2-2 蜈蚣藻的養殖發展……………………………………………… 3 2-3 環境因子對於海藻生長及發育的影響………………………… 4 2-4 誘發葉狀體的關鍵……………………………………………… 5 第三章材料與方法 3-1 藻類材料與來源………………………………………………… 6 3-2 野外不同世代葉狀體的觀察與計數…………………………… 6 3-3 孢子萌發實驗 3-3-1葉狀體前處理………………………………………………6 3-3-2 果孢子與四分孢子的釋放……………………………… 7 3-3-3 孢子萌發條件測試……………………………………… 7 3-4 不同來源絲狀體的培養及成長比較 3-4-1 成長比較……………………………………………………… 8 3-4-2 培養與維持…………………………………………………… 8 3-5 種苗繁殖 3-5-1 苗繩前處理…………………………………………………… 8 3-5-2 不同材質苗繩附著性與成苗比較…………………………… 9 3-5-3 葉狀體誘發的環境條件測試………………………………… 9 3-5-4 種苗培養……………………………………………………… 9 3-6 光照強度單位的轉換…………………………………………… 10 3-7 統計方式………………………………………………………… 10 第四章結果與討論 4-1 野外不同世代葉狀體的觀察與計數結果 4-1-1 葉狀體內部結構……………………………………………… 11 4-1-2 不同季節世代交替情形……………………………………… 11 4-2 孢子萌發觀察 4-2-1 釋放後之果孢子與四分孢子的發育情形…………………… 13 4-2-2 孢子萌發條件測試結果……………………………………… 15 4-3 G. sparsa生長季節的探討………………………………………16 4-4 不同來源絲狀體的培養及成長比較 4-4-1 型態觀察……………………………………………………… 17 4-4-2 成長比較……………………………………………………… 18 4-4-3 結節絲狀體長期培養的穩定性……………………………… 19 4-5 種苗繁殖 4-5-1 不同材質苗繩附著性與成苗比較…………………………… 19 4-5-2 葉狀體誘發的環境條件探討………………………………… 20 4-5-3 種苗培養……………………………………………………… 21 第五章參考文獻………………………………………………… 22 Fig 1. 稀毛蜈蚣藻不同世代藻體外觀及內部結構…………………26 Fig 2. 野生稀毛蜈蚣藻不同季節世代的變化………………………27 Fig 3. 果孢子發育觀察………………………………………………28 Fig 4. 四分孢子發育觀察……………………………………………29 Fig 5. 在不同溫度及光照強度下果孢子與四分孢子的萌發情形…30 Fig 6. 在不同溫度及光照強度下結節絲狀體的形成率……………31 Fig 7. 在不同溫度及光照強度下葉狀體的形成率…………………32 Fig 8. 稀毛蜈蚣藻生活史各世代存在季節之推論圖………………33 Fig 9. 種源的培養……………………………………………………34 Fig 10. N、2N結節絲狀體與N群聚絲狀體的成長比較…………… 35 Fig 11. N結節絲狀體經長期培養後附苗的能力……………………36 Fig 12. 尼龍繩與棉繩做為附苗基質的相互比較………………… 37 Fig 13. N結節絲狀體的附苗條件測試………………………………38 Fig 14. 2N結節絲狀體的附苗條件測試…………………………… 39 Fig 15. N結節絲狀體小量附苗及育苗實驗…………………………40 Fig 16. N結節絲狀體大量附苗及育苗實驗…………………………41 Fig 17. 培養12週期間配子體的成長狀況………………………… 42 附錄一、寒害後之稀毛蜈蚣藻……………………………………… 43 附錄二、澎湖天和箱網養殖場地理位置…………………………… 44 附錄三、SWM-III 培養基成份……………………………………… 45 附錄四、附苗的繩床………………………………………………… 46 附錄五、東北角蜈蚣藻Grateloupia okamura………………………47
dc.language.iso	zh-TW
dc.title	稀毛蜈蚣藻生活史及養殖育苗技術研究	zh_TW
dc.title	Studies on the Life Cycle and Aquaculture Development of Grateloupia sparsa	en
dc.type	Thesis
dc.date.schoolyear	98-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	江永棉,林?美,翁韶蓮
dc.subject.keyword	紅藻,稀毛蜈蚣藻,生活史,大量繁養殖,種苗,	zh_TW
dc.subject.keyword	Red seaweed,Grateloupia sparsa,Lifecycle,Mass culture,seedling,	en
dc.relation.page	47
dc.rights.note	有償授權
dc.date.accepted	2010-08-20
dc.contributor.author-college	生命科學院	zh_TW
dc.contributor.author-dept	漁業科學研究所	zh_TW
顯示於系所單位：	漁業科學研究所

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