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| DC 欄位 | 值 | 語言 |
|---|---|---|
| dc.contributor.author | 魏道行 | zh_TW |
| dc.date.accessioned | 2021-07-01T08:15:32Z | - |
| dc.date.available | 2021-07-01T08:15:32Z | - |
| dc.date.issued | 1991 | |
| dc.identifier.citation | 1.白書禎、黃培宜、楊宜宜、劉正仁。1983。臺灣東北角沿岸海水重金屬污染情形及對淺海養殖環境之影響。工業污染防治 2(4):25-33。 2.台灣省環境衛生實驗所(編者)。1981。風景區汙物污水處理及環境污染防治調查研究報告,92頁。交通部觀光局,臺北。 3.周昌弘。1974。環境壓力對於植物的傷害。生物與環境專題研討會講稿集 P28-42。生物研究中心,臺北市。 4.唐羽。1985。台灣採金七百年。336頁。臺北市錦綿助學基金會。 5.船津勝(編),歐靜枝(譯)。1977。酵素。203頁。復漢出版社,台南市。 6.梁素雲。1990。硫磺噴氣孔植群生態與其指標植物個體生理生態之研究(國立臺灣大學植物科學研究所碩士論文)。125頁。未發表。 7.陸繼雄。1988。環境監測。163頁。淑馨出版社,臺北。 8.曾義雄、陳信芬、陳慶三。1987。電泳分離技術研討會論文集,98頁。行政院國家科學委員會,臺北。 9.劉堂瑞、蘇鴻傑。1983。森林植物生態學。462頁。台灣商務印書館,臺北。 10.蔣導江。1947。普通治金學。237頁。商務印書館,上海。 11.潘素美。1989。水稻澱粉磷解酵素的生化研究(國立臺灣大學農業化學研究所博士論文)。145頁。未發表。 12.鄭顯榮、吳文娟。1990。土壤污染防治基本政策與推動方向。第二屆土壤污染防治研討會論文集P21-36。國立臺灣大學農業化學系,臺北。 13.魏維新。1979。空氣污染對農業之影響。工害與農業P10-21。中國農產運銷協會,臺北市。 14.嚴式清。1983。台灣土壤污染之研究概況。工業污染防治2(2):10-17。 15. Assche,F.V., and H.Clijsters. 1990. Effects of metals on enzyme activity in plants. Plant, Cell and Environment 13:195-206. 16. Balsberg-Pahlsson,A.-M. 1989. Effects of heavy-metal and SO2 pollution on the concertrations of carbohydrates and nitrogen in tree leaves. Can. J. Bot. 67:2106-2113. 17. Beauchamp,C., and I.Fridovich. 1971. Superoxide Dismutase: Improved assaya and an assay applicable to acrylamide gels. Analytical Biochemistry 44:276-287. 18. Bridges,S.M., and M.L.Salin. 1981. Distribution of Iron-containing superoxide dismutase in vascular plants. Plant Physiol.68:275-278. 19. Clare,D.A., Duong,M.N., Darr,D., Archibald,F., and I. Fridovich. 1984. Effects of molecular oxygen on detection of superoxide radical with nitroblue tetrazolium and on activity stains for catalase. Analytical Biochemistry 140:532-537. 20. Fridovich,I. 1978. The Biology of Oxygen Radicals. Science 201(8): 875-880. 21. Gorham,E. 1970. Air pollution from metal smetlers. Naturalist 21:12-15, 20-25. 22. Huang,A.H.C., Trelease, R.N., and T.S. Moore,Jr. 1983. Plant Peroxisomes. pp252. Academic Press, New York and London. 23. Lee,E.H. and J.H.Bennett. 1982. Superoxide dismutase. Plant Physiol.69:1444-1449. 24. McLaughlin,B.E., and A.A.Crowder. 1987. The distribution of Agrostis gigantea and Poa pratensis in relation to some environmental ractors on a mini-tailings area at Cupper Cliff, Ontario. Can.J.Bot.66:2317-2322. 25. Pan,S.M., and Y.Y.Yau. 1991. The isozymes of superoxide dismutase in rice. Botanical Bulletin of Academia Sinica. in press. 26. Salisbury,F.B., and C.W.Ross. 1985. Plant Physiology. pp540. 華香園出版社,臺北市. 27. Shimwell,D.W. 1972. The Description and Classification of Vegetation. pp322. Universety of Washington Press, Seattle. 28. Smith,W.H. 1981. Air Pollution and Forests. pp379. Springer-Verlag, New York. 29. Tandy,N.E., Di Giulio,R.T., and C.J.Richardson. 1989. Assay and electronphoresis of superoxide dismutase from red spruce (Picea rubens Sarg.), loblolly pine (Pinus Taeda L.), and scotch pine (Pinus Sylvestris L.). Plant Physiol.90:742-748. 30. Wood,C.W., and T.N.Nash. 1976. Copper smelter effluent effects on Sonoran desert vegetation. Ecolog 57:1311-1316. | |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75806 | - |
| dc.description.abstract | 本論文從事環境污染問題的研究,目的在找尋是否有酵素隨著環境污染的梯度變化而呈規則性的改變,盼能得到如是的環境污染的指標酵素。做法上以現場堪查及植被調查為前導,接下去才進行酵素研究的採樣工作,結合野外調查與實驗室分析的工作,以使實驗室的研究結果直接反映野外調查的現況。 禮樂煉銅廠及台灣金屬礦業公司,皆以煉銅污染對當地自然環境造成重大衝擊,選擇位於禮樂廠旁的子各山的一處連續性污染梯度植被,以及台金廠工廠腹地的不連續性污染分級地區,為主要研究地點。 植被調查工作以簡單梯度穿越線來決定樣區的位置,樣區調查的方法則依丹麥學派。發現五節芒已生長約一年的植株最能反映當地的土地污染的情況,是為煉銅污染的最佳指標植物。 酵素採樣工作就以五節芒幼株為材料,分別於禮樂廠進行三個系列的採樣,台金廠亦是如此,以聚丙烯醯胺膠體電泳分析法將超氧歧化酵素與過氧化酵素電泳分離其同功酵素,進行酵素活性染色,以測驗這兩種酵素是否有某同功酵素隨著採樣地點的義意而呈現規則性的變化。 五節芒的超氧歧化酵素共有四群及主要九個的同功酵素,其中四個是Mn-SODs,五個是CuZn-SODs,其中以Mn-SODIII最能展現環境污染梯度的規則性變化;過氧化酵素則有四群及主要十個的同功酵素,但無任何一個同功酵素有如是規則性的變化。 膠體解析能力亦為重要的技術問題,發現到膠體的解析不只在於分離大馱的同功酵素,尚包括濃縮微量的同功酵素,本論文的重要成果Mn-SODIII即是在15%均質膠體集中濃縮而後才得以展現出來。 | zh_TW |
| dc.description.abstract | The essence of this study was focused on the observing the expression of enzymes responsing to the gradient polluted environments. At first, we had made a vegetation investigation work on the polluted area, then selected the indicator plant for marker enzymes study. Due to the particles and fumes which were produced during the processure of refining the metal, the Lii-Leh Copper Smelter and Taiwan Metal Mining Company were always the largest source of pollution for local strong envirometal stress. Therefore, we selected the hillside of the Tzu-Ko Mountain adjacent the Lii-Leh Smelter and the hinterland of Taiwan Company for the essence study area. The determination of the position of stands for vegetation investigation according to the method of simple gradient transect. The study method of vegetation stand was by the Danish School. We obtained Miscanthus floridulus as the indicator plant of the polluted area and selected its one-year-growth plants for enzymes study. After some serial of harvest the Miscanthus, the identification of the activities of superoxide dismutase (SOD) and peroxidase (PO) isozymes were undergone on the 10% acrylamide gel by activity staining. And we wished to observe the activity of the marker enzymes of the Miscanthus regularly changed with the gradient polluted stands. There were four group and nine SOD isozymes activity presenting on the gel. There were four Mn-SODs and five CuZn-SODs. Among those, the Mn-SODIII activity changed apparently according to the gradient polluted environments. Peroxdase had four group and ten isozymes. But we did not find any meaningly change in the peroxdase isozymes activity. In addition, we found that the resolvability of the gel was an important factor influence the identification of isozymes. The resolvability of gel is not only on seperating a crowd of isozymes but also on concentrating low amount isozymes. The marker enzyme Mn-SODIII showed by concentrating ability of 15% homogenous gel. | en |
| dc.description.provenance | Made available in DSpace on 2021-07-01T08:15:32Z (GMT). No. of bitstreams: 0 Previous issue date: 1991 | en |
| dc.description.tableofcontents | 誌謝……………………………………………………i 地圖集……………………………………………………vi 圖集……………………………………………………vi 表集……………………………………………………vii 照片圖版集……………………………………………………viii 中文摘要……………………………………………………1 英文摘要……………………………………………………2 壹、前言……………………………………………………4 一、研究目的……………………………………………………4 二、背景資料……………………………………………………6 三、研究地點的堪查……………………………………………………8 貳、研究方法……………………………………………………13 一、植被調查法……………………………………………………13 (一)樣區位置的設立……………………………………………………13 (二)樣區之調查法……………………………………………………14 二、酵素研究之材料採樣及處理……………………………………………………19 (一)採樣……………………………………………………19 (二)前處理……………………………………………………21 三、聚丙烯醯胺膠體電泳分析法……………………………………………………24 (一)膠片鑄造……………………………………………………24 (二)電泳……………………………………………………30 (三)酵素活性染色法……………………………………………………32 (四)酵素穩定性測試……………………………………………………38 (五)酵素分子量的測定……………………………………………………39 參、結果與討論……………………………………………………41 一、植被調查……………………………………………………41 (一)植被概況……………………………………………………41 (二)植物組成……………………………………………………41 (三)共優勢種的專論……………………………………………………42 二、酵素研究決定採樣之植物……………………………………………………57 三、酵素的生化研究……………………………………………………58 四、膠體材料之檢討……………………………………………………61 五、酵素圖譜……………………………………………………62 肆、結論與建議……………………………………………………69 伍、參考文獻……………………………………………………71 附錄一.禮樂廠植被調查樣區的原始資料……………………………………………………74 附錄二.台金廠植被調查樣區的原始資料……………………………………………………85 | |
| dc.language.iso | zh-TW | |
| dc.title | 以五節芒的超氧歧化酵素和過氧化酵素做為環境污染之指標的可行性研究 | zh_TW |
| dc.title | The Study on the Feasibility of Superoxide Dismutase or Peroxidase of Miscanthus floridulus as a Marker Enzyme of the Environmental Pollution | en |
| dc.date.schoolyear | 79-2 | |
| dc.description.degree | 碩士 | |
| dc.relation.page | 95 | |
| dc.rights.note | 未授權 | |
| dc.contributor.author-dept | 生命科學院 | zh_TW |
| dc.contributor.author-dept | 植物科學研究所 | zh_TW |
| 顯示於系所單位: | 植物科學研究所 | |
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