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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 朱元南(Yuan-Nan Chu) | |
dc.contributor.author | Hsien-Chou Chiu | en |
dc.contributor.author | 邱顯州 | zh_TW |
dc.date.accessioned | 2021-06-15T02:29:38Z | - |
dc.date.available | 2011-08-19 | |
dc.date.copyright | 2009-08-19 | |
dc.date.issued | 2009 | |
dc.date.submitted | 2009-08-15 | |
dc.identifier.citation | 1.王玲、陳愛華、趙嘯、王亮、張劍誠、週一兵。2004。溫度和體重對雙齒圍沙蠶呼吸和排泄的影響。大連水產學院學報 19(3): 176-181。
2.王玲、陳愛華、趙嘯、王亮、張劍誠、週一兵。2005。雙齒圍沙蠶晝夜代謝規律的初步研究。水產學報 29(1): 48-54。 3.任淑仙。1995。無脊椎動物學(下冊)。第一版。台北市:淑馨出版社。 4.朱豐錫、王景悅、陶壽森。1999。沙蠶暫養技術研究。齊魯漁業 16(3): 1-2。 5.吳建新、李信書、李士虎。2003。雙齒圍沙蠶人工育苗技術。水產養殖 24(3): 15-16。 6.李坤瑄。1993。琥珀刺沙蠶(更正為雙齒圍沙蠶)(青蟲)的飼育及人工繁殖。國立海洋生物博物館展示用無脊椎動物人工繁殖及飼育之研究 (三) 25-35。 7.李信書、彭永興、閻斌倫、吳建新。2006。不同水交換條件對雙齒圍沙蠶生長的影響。水產養殖 27(6): 1-4。 8.邱加進。1981。沙蠶養殖飼料之一、二試驗。台灣省水產試驗所試驗報告 33: 593-598。 9.孫瑞平、黃猛、楊德漸、杜榮斌、鄭家聲、赫勇。2006。沙蠶養殖與發展。第一版。青島:中國海洋大學出版社。 10.張洪欣、車軾、明秀云、王淑生、劉志海。2007。渤海灣沙蠶工廠化苗種繁育與規模化生態養殖技術研究。河北漁業1: 29-36。 11.許晉榮、邱英哲、曾寶順、邱靜山。2007。種蝦生物餌料-多毛類介紹。水產專訊 19: 27-29。 12.郭美貞、郭美貞、謝蕙蓮、陳章波、陳昭倫。2003。分子遺傳在多毛類種別判定上的應用。生物科學 46(1): 27-42。 13.陳章波、謝蕙蓮。1994。海洋無脊椎動物飼育要領。第一版。高雄市:國立海洋生物博物館籌備處。 14.趙清良、趙強、徐家鑄。1993。啟東雙齒圍沙蠶(Perinereis aibuhitensis Grube)生物量變化規律的研究。南京師大學報(自然科學版) 16(1): 55-60。 15.趙清良、趙強。1992。餌料對雙齒圍沙蠶生長發育的影響。生態學雜誌 11(4): 22-36。. 16.趙清良、趙強。1993。啟東雙齒圍沙蠶(Perinereis aibuhitensis Grube)資源狀況及開發對策研究。南京師大學報(自然科學版) 16(2): 57-62。 17.趙清良、趙強。1997。大米草對雙齒圍沙蠶生境土壤改良作用的研究。生態學雜誌 16(2): 28-30。 18.劉熾揚。1980。海蟲(沙蠶)生活史與飼育。台灣省水產試驗所試驗報告。32: 569-578。 19.蔣福興、王維中、黃耀生、趙清良、徐家鑄。1992。大米草-雙齒圍沙蠶相關性初探。生態學報 12(1): 84-85。 20.鄭石勤。2008。專訪福建福清市海風砂殘養殖場。養魚世界雜誌社 32(2): 30-32。 21.鄭忠明、顧曉英、蔣霞敏、金春華。2000。若干因數對雙齒圍沙蠶生長發育的影響。浙江海洋學院學報 19(4): 378-381。 22.鄭清煥、林慶元、施錫彬、洪士程、徐保雄、陳治官、黃益田、劉清和、劉達修、蔣永正、蔣幕琰、羅幹成。2007。植物保護圖鑑系列8─水稻保護(上冊)。再版,197-199。台北:行政院農業委員會動植物防疫檢疫局。 23.蒋霞敏、鄭忠明。2002。雙齒圍沙蚕群浮現象的初步觀察。動物學雜誌 37 (5): 54-56。 24.Bakken, T., R. S. Willson. 2005. Phylogeny of nereidids (Polychaeta, Nereididae) with paragnaths. Zoologica Scripta 34(5): 507-547. 25.Cedric J. S., J. J. Philip. 2007. The effect of different holding systems and diets on the performance of spiny lobster juveniles. Jasus edwardsii (Hutton, 1875). Aquaculture 266: 166-178. 26.Choi, J. W., J. H. Lee. 1997. Secondary production of a nereid species, Perinereis Aibuhitensis in the intertidal mudflat of the west coast of Korea. Bulletin of Marine Science 60(2): 517-528. 27.Daniele, N., B. Marco, C. Martin, T. W. David, J. C. U. Graham, and V. Pierluigi. 2007. Implications for oxygen, nutrient fluxes and denitrification rates during the early stage of sediment colonisation by the polychaete Nereis spp. in four estuaries. Estuarine Coastal and Shelf Science 75(1-2): 125-134. 28.Durou, C., C. Mouneyrac, A. T. Claude. 2008. Environmental quality assessment in estuarine ecosystems: Use of biometric measurements and fecundity of the ragworm Nereis diversicolor (Polychaeta, Nereididae). Water Research 42(8-9): 2157 – 2165. 29.Glasby, C. J., H. L. Hsieh. 2006. New species and new records of the Perinereis nuntia Species Group (Nereididae: Polychaeta) from Taiwan and other indo-west Pacific Shores. Zoological Studies 45(4): 553-577. 30.Hardege, J.D., H.D. Bartels-Hardege, E. Zeeck, and F. T. Grimm. 1990. Induction of swarming of Nereis succinea. Marine Biology 104(2): 291-295. 31.Hond, H., K. Kikuchi. 2002. Nitrogen budget of polychaete Perinereis nuntia vallata fed on the feces of Japanese flounder. Fisheries Science 68(6): 304-308. 32.Kristensene, E., M. H. jensen, R. C. Aller.1991. Direct measurement of dissolved inorganic nitrogen exchange and denitrification in individual polychaete (Nereis virens) burrows. Journal of marine research 49(2): 355-377. 33.Last, K. S. 2003. An actograph and its use in the study of foraging behaviour in the benthic polychaete Nereis virens Sars. Journal of Experimental Marine Biology and Ecology 287(2): 237-248. 34.Last, K. S., P. J. W. Olive. 1997. Photoperiodic control of growth and segment proliferation by Nereis (Neanthes) virens in relation to state of maturity and season. Marine Biology 134(1): 191-199. 35.Nunes, J. P., G. J. Parsons. 2000. Effects of the Southern brown shrimp, Penaeus subtilis, predation and artificial feeding on the population dynamics of benthic polychaetes in tropical pond enclosures. Aquaculture 183(1-2): 125-147 36.Olive, P. J. W. 1999. Polychaete aquaculture and polychaete science: a mutual synergism. Hydrobiologia 402: 175–183. 37.Pan, W., X. Liu, F. Ge, J, Han, and T. Zheng. 2004. Perinerin, a novel antimicrobial peptide purified from the clamworm (Perinereis aibuhitensis Grube) and its partial Characterization. The Journal of Biochemistry 135(3): 297-304. 38.Simon, C. J., P. J. James. 2007. The effect of different holding systems and diets on the performance of spiny lobster juveniles, Jasus edwardsii (Hutton, 1875). Aquaculture 266(1-4): 166-178. 39.Taghon, G. L . 1988. The benefits and costs of deposit feeding in the polychaete abarenicola pacifica. Limnology and oceanography 33(5): 1166-1175. 40.Torkild, B., S. W. Robin. 2005. Phylogeny of nereidids (Polychaeta, Nereididae) with paragnaths. Zoologica Scripta 34(5): 507-547. 41.Tsuneshige, A., K. Imai, H. Hori, I. Tyuma, and T. Gotoh. 1989. Spectrophotometric, electron paramagnetic resonance and oxygen binding studies on the hemoglobin from the marine polychaete (Perinereis aibuhitensis Grtibe): Comparative physiology of hemoglobin. The Journal of Biochemistry 106(3): 406-417 | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/43821 | - |
dc.description.abstract | 臺灣的雙齒圍沙蠶大多仰賴進口,不只有貨源供應不穩定的問題,沙蠶暫養時間太短且需在低溫環境也大量增加運費電費之成本,因此本研究欲研發一套創新的養殖系統,以達成在室溫下延長養殖時間的目標。本研究以節省人力為出發點設計一套沙蠶專用的室內養殖系統,著重於立體化與自動化的設計,多層抽屜式的養殖槽可增加養殖密度,節省土地面積之利用,而自動噴料設備可定時定量灑料,不僅節省傳統養殖所需之勞力,同時減少立體化養殖餵飼的困難。在預先的底質實驗中比較珊瑚砂、塑膠粒、黑土、小矽沙、海沙以及蛭石等六種材料,結果顯示蛭石可增加底質的透氣性有助於提高養殖密度,其比重小的特點亦增加立體化操作之便利性。針對可能影響沙蠶成長的因素,進行投餌頻率、溫度、飼料種類及密度的系統養殖試驗,並於養殖期間監控系統穩定性。以增重率為評估標準,投餌頻率以每天二次最佳;溫度試驗結果顯示在27℃~28℃的生長環境下比23℃~24℃好;飼料試驗以草蝦苗飼料效果最好;而密度試驗的結果顯示密度越低增重率越高。每組養殖設備包含框架與9個養殖槽,4組設備的總體積為2.3 m3,在實際的養殖試驗中,於體積0.023 m3的單一養殖槽內已成功養殖約六十條沙蠶,密度高達580條/m2。經過試驗證實使用循環水與鋪設底質的環境可維持良好的水質,沙蠶存活率可達九成五以上,證明本系統具有做為暫養設備之可行性,目前本系統可將暫養時間延長至三週,且養殖密度高於傳統養殖也突顯其工廠化養殖之潛力。 | zh_TW |
dc.description.abstract | In Taiwan, the nereis (Perinereis aibuhitensis Grube) are almost imported from China. For the unstable supplement, the low temperature holding system, and high transportation fee, it is the front burner to innovate a new culture system to extend the culture time at room temperature. In this study, designing an automatic and a multi-layered recirculation aquaculture system (RAS) for nereis is the final purpose. The drawer type feeding system increases not only the culture density, but saves the land area and the labor required. Its automatic feeding equipment is expected to quantitatively sprinkle on time and reduce the difficulties in multi-layered feeding.
Six kinds of different sediment were used to cultivate nereis, such as coral sand, plastic grains, aqua soil , power sand, sand and vermiculite. They were valuated the efficiency respectively in this study. The results show vermiculite sediment can increase the ventilation and culture density most. The lower density of vermiculite makes it convenient in operating multi-layered system. In this case, feeding frequency, temperature, density and different kinds of feeding are the most four important factors to monitor the stability of the system. From those, the best feeding frequency is twice a day, temperature is 27 ℃ - 28 ℃, prawn larvae feed and the lower culture density will get the higher weight gain rate. It includes 4 groups of equipment in this test. In one group it contains 9 culture tanks and total volume is 0.207 m3. In a single volume of 0.023 m3 tank, 60 pieces of nereis are successfully done in this tank and the raise density is as high as 580 pieces/m2. It was proven that sediment and recirculation aquaculture system will maintain the good water quality and a higher survival rate. It shows the current holding culture system can extend culture time to 3 weeks and the higher farming density also shows the potential for a factory farming. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T02:29:38Z (GMT). No. of bitstreams: 1 ntu-98-R96631036-1.pdf: 4423061 bytes, checksum: cf8162a099fb6228b1f544f6211bc915 (MD5) Previous issue date: 2009 | en |
dc.description.tableofcontents | 口試委員省訂書
誌謝.......................................................i 摘要......................................................ii Abstract.................................................iii 目錄.......................................................v 圖目錄..................................................viii 表目錄...................................................xii 第一章 前言與研究目的.....................................1 1.1前言....................................................1 1.2研究目的................................................4 第二章 文獻探討...........................................5 2.1沙蠶....................................................5 2.2雙齒圍沙蠶..............................................8 2.3異沙蠶..................................................9 2.4沙蠶與種蝦的關係.......................................14 2.5水質...................................................14 第三章 研究方法與原理.....................................16 3.1養殖底質.............................................. 20 3.1.1珊瑚砂.............................................. 20 3.1.2塑膠粒...............................................21 3.1.3黑土.................................................21 3.1.4小矽沙...............................................22 3.1.5海沙.................................................23 3.1.5蛭石.................................................23 3.2室內循環水系統.........................................26 3.3系統設計...............................................27 3.3.1立體化養殖系統.......................................27 3.3.2養殖槽...............................................32 3.3.3 CFD(Computational Fluid Dynamics)模擬...............33 3.3.4進出流設計...........................................35 3.3.5自動噴料設備.........................................37 3.3.6空壓機...............................................37 3.3.7電磁閥...............................................38 3.3.8定時裝置.............................................38 3.3.9繼電器...............................................39 3.3.10飼料槽裝置..........................................40 3.4水質檢測.............................................. 41 3.5養殖實驗...............................................43 3.5.1不同投料頻率與生長之關係實驗.........................43 3.5.2不同飼料與生長之關係實驗.............................44 3.5.3不同溫度對與生長之關係實驗.......................... 45 3.5.4不同養殖密度與生長之關係試驗.........................47 第四章 結果與討論.........................................48 4.1預先底質實驗...........................................49 4.1.1小矽.................................................49 4.1.2珊瑚砂...............................................50 4.1.3裸缸.................................................51 4.1.4海沙.................................................52 4.1.5蛭石.................................................53 4.2沙蠶異型化現象與沙蠶苗.................................55 4.3立體化循環水養殖.......................................57 4.3.1不同投料頻率與生長之關係實驗.........................57 4.3.2不同飼料與生長之關係實驗.............................60 4.3.3不同溫度與生長之關係實驗.............................63 4.3.4不同養殖密度與生長之關係試驗.........................68 4.4系統效能探討...........................................71 4.5未來應用與發展.........................................73 第五章 結論...............................................76 參考文獻..................................................78 附錄一小矽沙養殖沙蠶紀錄..................................82 附錄二珊瑚砂養殖沙蠶紀錄................................. 83 附錄三裸缸養殖沙蠶紀錄................................... 84 附錄四海沙養殖沙蠶紀錄................................... 85 附錄五蛭石養殖沙蠶紀錄................................... 87 附錄六沙蠶異型化現象紀錄................................. 93 | |
dc.language.iso | zh-TW | |
dc.title | 超高密度雙齒圍沙蠶循環水養殖系統 | zh_TW |
dc.title | High Density Nereis (Perinereis aibuhitensis Grube) Water Recirculation Culture System | en |
dc.type | Thesis | |
dc.date.schoolyear | 97-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 周楚洋(Chu-Yang Chou),劉擎華(Chyng-Hwa Liou) | |
dc.subject.keyword | 雙齒圍沙蠶蛭石,立體化,循環水, | zh_TW |
dc.subject.keyword | Perinereis aibuhitensis Grube,vermiculite,multi-layered,RAS, | en |
dc.relation.page | 93 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2009-08-17 | |
dc.contributor.author-college | 生物資源暨農學院 | zh_TW |
dc.contributor.author-dept | 生物產業機電工程學研究所 | zh_TW |
顯示於系所單位: | 生物機電工程學系 |
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