水庫生物相調查與生物鏈方法處理水庫優養化
現象之研究-以新山水庫為例

Yi-Liang Ye; 葉益良

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28213

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳弘成
dc.contributor.author	Yi-Liang Ye	en
dc.contributor.author	葉益良	zh_TW
dc.date.accessioned	2021-06-13T00:02:51Z	-
dc.date.available	2007-07-31
dc.date.copyright	2007-07-31
dc.date.issued	2007
dc.date.submitted	2007-07-30
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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28213	-
dc.description.abstract	本研究之目的在瞭解水庫水生生物之生態並提出利用生態工法來改善台灣水庫優養化的現象，由於優養化會引起大量藻類繁殖，而導致新山水庫水質不佳、自來水處理之困難，因此我們藉由每季進行的實地調查來了解水庫裡的生物組成及食物鏈之關係，其中尚包括微細浮游動物之動態，藉以設計出適合新山水庫的生物鏈的處理方法。結果發現水庫生態高度穩定，水質介於輕微到中度有機物污染，尚達不到優養化之地步，水表之葉綠素a的含量最多，但都在7~21μg/l之間，但中、下層很少不超過5μg/l。水庫內之浮游動物以Eodiaptomus japonicus、Bosmina longirostris、Macrocyclops albidus含量最多，其有垂直分佈之現象，所代表的水質是βms-os之水體，微細浮游動物則以原生動物的Trachelomonas sp.為最多。水庫內之水生昆蟲及底棲生物相當少，只在岸邊多生。魚類計有20種以黑鰱及餐條最為重要。　　本研究以水中葉綠素a濃度為基礎，魚類食性為輔，發現使用本土種且具有經濟價值之淡水圓蚌( Anodonta woodiana )，來作為濾除水中藻類的生態方法頗具可行性，利用藻類吸收營養鹽、圓蚌食用藻類、再將圓蚌移除之方式而達到降低水庫營養鹽能量的目的。同時藉由收成插核圓蚌亦可達到珍珠之收穫，一舉兩得。故以本論文於研究室中進行圓蚌的藻類濾除試驗，以期在未來田間試驗放養圓蚌中能夠有所依據，達到最經濟的且有效的處理效果。另一方面亦吊掛在水庫進行初步的圓蚌適應與成長試驗，結果發現圓蚌濾食藻類之效果良好且圓蚌放養在水庫之存活率在7~8成左右，頗具可行性。最後本文亦探討水庫中各種生物相所組成的食物鏈對於水庫水質的影響，對於水庫水質沒有幫助反而易造成水質更加惡化的生物，像是吳郭魚、鯉魚，我們建議移除之。總結之在水庫中放養魚貝類時需要經過審慎評估，不可貿然實行，否則對於水庫反而引起傷害。	zh_TW
dc.description.abstract	The aim of this research was to investigate the fauna of the Xin- Shan Reservior，and we try to use the ecological engineering for controling the eutrophic reservoir in Taiwan. Hence, we carried out the investigation of biological composition and linked the feed web relationship of aquatic biota，especially the fauna. The result shows that the ecosystem of the reservoir is rather stable. The contents of chlorophyll a in the water surface is between 7~21μg/l and the lower layer is under 5μg/l. The most dominant species of nannoplankton is Trachelomonas sp. and the most abundant of zooplankton are Eodiaptomus japonicus、Bosmina longirostris and Macrocyclops albidus. These zooplanktons represent the water quality ranged between βms-os，and they has the phenomenon of vertical distribution. The aquatic Insect and benthic fauna are rare only found along the coast of the reservoir. The fish contains 20 spieces，and the Aristichthys nobilis and Hemiculter leucisculus are the two most important. 　　Base on content of chlorophyll a and feeding type of fish and shellfish a food web methods was designed to control eutrophilication. The native freshwater bivalve，Anodonta woodiana, was selected as a filter to remove the algae in the water. The result is quite satisfied and promising. Furthermore，we cloud harvest the pearl from bivalve. Therefore，the experiment of clearance rate and filter rate of Anodonta woodiana was done in the lab to verify its effectiveness. In addition，the freshwater bivalve can survive well in the reservoir. 　　Finally, we discuss the effect of water quality by fauna and food webs composition，and it is suggested to remove of the fish like Oreochromis sp and Cyprinus carpio carpio can further improve the water quality.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T00:02:51Z (GMT). No. of bitstreams: 1 ntu-96-R94b45022-1.pdf: 1799688 bytes, checksum: b94cb59f2ced2e40e75eaac20c6d10c4 (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	謝辭......................................................I 摘要.....................................................II Abstract.................................................IV 壹、前言..................................................1 1.1優養化的定義與形成原因.................................1 1.2優養化現象對環境所造成的影響...........................2 1.3 營養鹽限制對藻類生長所造成的影響......................5 2.1何謂生態工程？.........................................5 2.2生態工程的歷史演進.....................................6 2.3 生態工程的理念基礎....................................7 3.1研究源起...............................................7 3.2先進國家利用生物鏈方式淨化水質之案例..................9 貳、材料與方法...........................................12 實驗ㄧ：水庫水文資料、水生生物種類調查及魚類食性調查.....12 實驗二：圓蚌濾水率、濾除率...............................17 實驗三、圓蚌放養於水庫之存活率與成長率...................23 實驗四、圓蚌的排氨實驗...................................23 参、結果.................................................25 實驗ㄧ：水庫採集結果.....................................25 實驗二、圓蚌的濾水率與濾除濾試驗結果.....................30 實驗三、放養圓蚌的存活率與成長率結果.....................31 實驗四、圓蚌的排氨試驗結果...............................32 肆、討論.................................................33 實驗一、水庫採集.........................................33 實驗二、圓蚌濾水與濾除實驗...............................41 實驗三、圓蚌存活率與成長率試驗...........................42 實驗四、圓蚌的排氨試驗...................................43 伍、結論.................................................44 陸、參考文獻.............................................46 表.......................................................56 圖.......................................................75
dc.language.iso	zh-TW
dc.subject	生態工法	zh_TW
dc.subject	生物鏈	zh_TW
dc.subject	圓蚌	zh_TW
dc.subject	優養化	zh_TW
dc.subject	food web	en
dc.subject	Aodonta woodiana	en
dc.subject	ecological engineering	en
dc.subject	eutrophication	en
dc.title	水庫生物相調查與生物鏈方法處理水庫優養化現象之研究-以新山水庫為例	zh_TW
dc.title	Investigation of the Fauna and methods of Food Webs to Improve the Eutrophication in the reservoir－take the Xin-Shan Reservoir for an example	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	丁雲源,湯弘吉,郭世榮
dc.subject.keyword	優養化,生態工法,生物鏈,圓蚌,	zh_TW
dc.subject.keyword	eutrophication,ecological engineering,food web,Aodonta woodiana,	en
dc.relation.page	96
dc.rights.note	有償授權
dc.date.accepted	2007-07-31
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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