線蟲及魚蚤與盲鰻之寄生關係

Hao-Yuan Luo; 駱皓元

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/4739

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	施秀惠
dc.contributor.author	Hao-Yuan Luo	en
dc.contributor.author	駱皓元	zh_TW
dc.date.accessioned	2021-05-14T17:46:13Z	-
dc.date.available	2016-08-11
dc.date.available	2021-05-14T17:46:13Z	-
dc.date.copyright	2015-08-11
dc.date.issued	2015
dc.date.submitted	2015-06-22
dc.identifier.citation	沈世傑、吳高逸 (2011)。臺灣魚類圖鑑。國立海洋生物博物館。吳宗穆 (1996)。臺灣近海鯨類之內寄生蟲相與生態關係之研究。碩士論文，國立臺灣大學獸醫學研究所。吳直 (2005)。盲鰻筒長度、重量及餌料變化對漁獲效率之影響。碩士論文，國立臺灣海洋大學環境生物與漁業科學學系。周宜瑩 (2005)。海獸胃線蟲與花腹鯖之寄生關係及系群區分之應用。碩士論文，國立臺灣大學動物學研究研究所。林俊嘉 (2006)。安尼線蟲科圓蟲寄生於真鰺影響因素之探討。碩士論文，國立臺灣大學動物學研究研究所。邵廣昭。臺灣魚類資料庫網路電子版。 http://fishdb.sinica.edu.tw, (2013-12-5)。施秀惠 (2001)。概說海獸胃線蟲。臺大漁推，第13期，1-13頁。查詩婷 (2004)。安尼線蟲科圓蟲與白帶魚之寄生關係。碩士論文，國立臺灣大學動物學研究研究所。洪麗月 (2003)。臺灣西南海域紐氏副盲鰻(盲鰻科)之生殖學研究。碩士論文，國立中山大學海洋生物研究所。陳雅雯 (2004)。中華黏盲鰻Eptatretus chinensis (Myxinidae, Myxiniformes)分類與生殖生物特徵之研究。碩士論文，國立中山大學海洋生物研究所。陳慧瑜 (2007)。以蠕蟲類生物性標籤研究臺灣近海烏魚之系群區分與洄游。碩士論文，國立臺灣大學動物學研究研究所。張劍英、邱兆祉、丁雪娟等 (1999)。魚類寄生蟲與寄生蟲病。科學出版社。葉淳逸 (2013)。寄生性後生動物與大眼鯛之寄生關係以及系群區分之應用。碩士論文，國立臺灣大學動物學研究研究所。賴竹蘭 (2008)。海底清道夫~盲鰻。水試所電子報第28期，行政院農業委員會水產試驗所。 Abattouy, N., Valero, A., Benajiba, M.H., Lozano, J. and Martín-Sánchez, J. (2011). Anisakis simplex s.l. parasitization in mackerel (Scomber japonicus) caught in the North of Morocco - prevalence and analysis of risk factors. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/4739	-
dc.description.abstract	盲鳗是脊椎動物中最原始的一群，只有軟骨形成的頭骨，沒有脊椎骨。在海洋食物鏈中扮演重要的腐食生物角色。海獸胃線蟲為海水魚中常見的寄生蟲，藉由寄主的掠食行為進行寄主轉移，並且以橈足類、頭足類、硬骨魚類為保蟲寄主。本研究將探討盲鰻寄生蟲相，以及盲鰻食用其他海洋動物的屍體時，是否能經由腐食方式感染海獸胃線蟲。盲鰻樣本於2013年11月至2014年6月宜蘭大溪漁港向漁民購買，共包含四種盲鰻：蒲氏黏盲鰻 (Eptatretus burgeri)、楊氏黏盲鰻 (E. yangi)、沈氏黏盲鰻 (E. sheni)、臺灣黏盲鰻 (E. taiwanae)，經調查後發現七種海獸胃線蟲寄生，主要寄生於腸道，極少部分進入體腔及肌肉，經過PCR-RFLP及rDNA ITS序列定序後確定為Anisakis pegreffii、A. simplex s.s.、A. pegreffii與A. simplex s.s.的重組基因型、A. typica、Anisakis sp.、A. brevispiculata、Hysterothylacium amoyense。盲鰻為7種海獸胃線蟲之寄主新紀錄，此外Anisakis sp.及H. amoyense為地理新紀錄。另外，也發現一種橈足類，盲鰻刺魚蚤 (Acanthochondria eptatreti)，寄生於盲鰻的咽部，已於2014發表為新種。研究首度發現海獸胃線蟲能以腐食方式傳播並寄生於盲鰻，修改了海獸胃線蟲之生活史。統計結果顯示，蒲氏黏盲鰻之線蟲盛行率及盲鰻刺魚蚤盛行率皆顯著高於其他三種盲鰻。蒲氏黏盲鰻與沈氏黏盲鰻之線蟲感染強度也與體長呈現正相關，盲鰻刺魚蚤感染強度只與蒲氏黏盲鰻有正相關。也觀察到寄生蟲於寄主的累積效應。	zh_TW
dc.description.abstract	Hagfishes are the most primitive vertebrates known. They have a cartilaginous skull but no vertebral column. Hagfish is marine benthic scavenger which feed on dead organic matter, including teleosts, cetaceans, marine inverts, etc. Anisakis is transferred by host predation, and their paratenic hosts include crustaceans, cephalopods, and teleost fish. The aim of this study is to investigate the parasitical fauna of hagfish and confirm that hagfish can be infected by Anisakis via host scavenging. Hagfishes were caught from Daxi fishery harbor in northeastern Taiwanese waters from November 2013 to June 2014. A total of 265 samples were examined and four species of the genus Eptatretus, Eptatretus burgeri, E. yangi, E. sheni and E. taiwanae. These four species of hagfishes were infected by Anisakidae nematodes, which parasitized mainly in the gastrointestinal tract wall. Also, anisakid nematodes species were identified by PCR-RFLP. Seven species of nematodes were recorded: Anisakis pegreffii, A. simplex s.s., recombinant genotype of A. pegreffii and A. simplex s.s., A.typica, Anisakis sp., A. brevispiculata and Hysterothylacium amoyense. All Anisakid nematodes are new host records, and two of them (Anisakis sp. and H. amoyense) are new locality records. In addition, a new species of chondracanthid copepod, Acanthochondria eptatreti, was identified and isolated from the pharynx of hagfish, and has been published in 2014. The results proved that anisakid nematodes can transfer by hagfish scavenging and modified Anisakis life cycle. Statistical analysis showed that the prevalences of two kinds of parasites (nematode and copepod) are significant higher in E. burgeri. The intensity of nematodes positively correlated with host size of E. burgeri and E. sheni. The intensity of copepod only has positive correlation with E. burgeri. The accumulation of parasites in larger hosts can be observed in this study.	en
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dc.description.tableofcontents	口試委員會審定書 i 誌謝 ii 中文摘要 iii Abstract iv 目錄 vi 表目錄 ix 圖目錄 x 第 1 章前言 1 1.1 寄生關係 1 1.2 魚源性寄生蟲 1 1.3 寄生蟲於生物標籤之應用 2 1.4 海獸胃線蟲 3 1.4.1 海獸胃線蟲之概略 3 1.4.2 海獸胃線蟲之生活史 3 1.4.3 海線胃線蟲症 4 1.4.4 安尼線蟲科之鑑定 7 1.5 盲鰻 9 1.5.1 分類地位 9 1.5.2 形態特徵 9 1.5.3 生態習性 10 1.5.4 地理分布 10 1.5.5 盲鰻利用現況 11 1.5.6 相關研究 12 1.6 研究目的 13 第 2 章材料與方法 14 2.1 樣本取得 14 2.2 樣本處理 15 2.3 安尼線蟲科線蟲之PCR-RFLP鑑種 16 2.3.1 Genomic DNA萃取 16 2.3.2 PCR增幅 17 2.3.3 RFLP分析 18 2.4 感染參數之分析 18 第 3 章結果 20 3.1 盲鰻之寄生蟲相 20 3.2 海獸胃線蟲之PCR-RFLP鑑種結果 20 3.3 感染參數之分析結果 22 3.3.1 四種盲鰻感染參數之比較分析 22 3.3.2 盲鰻性別分組與感染參數之比較分析 23 3.3.3 盲鰻體長與線蟲感染參數分析 25 3.3.4 盲鰻體長與盲鰻刺魚蚤感染參數分析 26 第 4 章討論 28 4.1 盲鰻之寄生蟲相 28 4.2 海獸胃線蟲物種 30 4.3 感染參數結果討論 33 4.3.1 四種盲鰻之感染參數之比較分析討論 33 4.3.2 盲鰻體長與線蟲感染參數之分析討論 34 4.3.3 盲鰻體長與盲鰻刺魚蚤感染參數之分析討論 36 4.4 盲鰻與海獸胃線蟲症 37 4.5 總結 38 參考文獻 40 附錄 79
dc.language.iso	zh-TW
dc.subject	盲鰻刺魚蚤	zh_TW
dc.subject	盲鰻	zh_TW
dc.subject	橈足類寄生蟲	zh_TW
dc.subject	海獸胃線蟲	zh_TW
dc.subject	食腐動物	zh_TW
dc.subject	scavenger	en
dc.subject	Acanthochondria eptatreti	en
dc.subject	copepod parasite	en
dc.subject	Anisakis	en
dc.subject	Hagfish	en
dc.title	線蟲及魚蚤與盲鰻之寄生關係	zh_TW
dc.title	Parasitism of Anisakid Nematodes and Chondracanthid Copepod in Hagfish	en
dc.type	Thesis
dc.date.schoolyear	103-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	王蓮成,冉繁華,陳慧瑜
dc.subject.keyword	盲鰻,食腐動物,海獸胃線蟲,橈足類寄生蟲,盲鰻刺魚蚤,	zh_TW
dc.subject.keyword	Hagfish,scavenger,Anisakis,copepod parasite,Acanthochondria eptatreti,	en
dc.relation.page	79
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2015-06-23
dc.contributor.author-college	生命科學院	zh_TW
dc.contributor.author-dept	生命科學系	zh_TW
顯示於系所單位：	生命科學系

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