竹北淡水魚塭生態之研究

吳榮富

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DC 欄位	值	語言
dc.contributor.author	吳榮富	zh_TW
dc.date.accessioned	2021-07-01T08:16:45Z	-
dc.date.available	2021-07-01T08:16:45Z	-
dc.date.issued	1970
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Linnologische Studie auf dem “Zitugetu-Tan”, Ibid. 31(1). Zoology No. 16, 163 p. Hsieh, H. C. & Lee, Y. Y. .1969. The relationship between nitrifers and fish pond water in Chupei. JCRR Fish. Ser., 8:41-48. Hutchinson, G. E. .1944. Limnologioa1 Studios in Connectiout. VII. A critical examination of the supposed relationship between phytoplankton periodicity and chemical changes in lake water. Ecology, 25:3-26. Hutchinson, G. E. .1957. A treatise o Limnology. Vol. I. New York John Wiley and Sons Inc. Krishnamurthy, K. .1967. Nitrogen and Phosophorus in Plankton. Hydcobiologia, 30:273-280. Krogh, A. Lange, E. & Smith, W. .1930. On the organio matter given off by algae. Biochem. Jour., 24:1166-1671. Liaw, W. K. .1969. General features of water quality and biological aspect of some freshwater fishponds in Northern Taiwan JGRR Fish. Ser., 8:21-30. Liaw, W. K. & Lin, C. N. .1967. Chemical and biological studies of the fertilized and unfertilized ponds and lakes. China Fisheries, 174:3-9. Lin, S. Y. & Chen, T. P. .1966. Increase of production in fresh water. fish ponds by the use of inorganic fertilizers, FAO Fisheries Reports, No. 3:210-224. Lin, Y. S .1970. Primary Production and fish yield. JCRR, Fisheries Series, 9:58-69. Lind, E. M, .1938. Studies in the periodicity of the algae in the Beauchief Ponds, Sheffield. J. Ecol., 26:257-274. Long, C, ed. .1961. Biochemists handbook. p. 1192. Lund, J. W. G. .1965. The ecology of the freshwater phytoplankton, Biol, Rev., 40:231-293. Lund, J. W. G, & Talling J. F. .1957. Botanioal Iimnologieal. methods with special reference to the algae. Bot. Rev., 23:489-583. Miu, T. S. .1966. Ecological studies on pisciculture in Taiwan. TNUB, 11:1-20. Miu, T. S, .1952. Studies on the sudden Mortality of fishes. Annals of Nat. Hist. Soc., No. 3. Miu., T. S. .1958. The ecological effects of Hydrogen Sulfide on the freshwater animals in Taipei. TNUB, Vol. 3. Miyadi, D. .1935. Limnological investigation of Formosan Lakes. Japanese J, Limnol., 5(3):71-86. Mortimer, C. H. .1941.42. The exchange of dissolved substances between mud and water in lakes, J. Ecol., 29:280-329, 30:147-201. Moyle, J. B. .1946. Some indices of lake productivity. Trans. Amer. Fish. Soc., 76:322-334. (reprint) Ong, H. S. .1970. The quantity of plankton and fish yield. China Fisheries, 212 (in press) Patrick, W, .1948. Factors effecting the distribution of diatom. Bot, Rew., 14:473-524. Pearsall, W. H. .1923. A theory of diatom periodicity. J. Ecol., 11:165-l83. Pearsall, W. H. .l930. Phytoplankton in the Ehg1ish lakes. I. The proportion in the water of some dissolved substances of biological importance. Ibid., 18:306-320. Pearsall, W. H. .1932. II. The composition of the phytoplankton in relation to dissolved substance. Ibid., 20: 241-262. Pennak R. W. .1944. Diurnal movements of zooplankton organism in some Colorado Mountain Lakes. Ecology, 25:387-403. Pennington, W. .1941. The control of the members of freshwater phytoplankton by small invertebrate animals. J. Ecol., 29:204-211 Pomeroy, L. R. Mathews, H. M. & Min, H. S. .l962. Excretion of phosphate and soluble organic phosphorus compounds by zooplankton. Limnol. Oceanogr., 8:50-55. Pratt, R. .1942. Studies on Chlorella vulgaris. V. Sonic propertie a of the growth inhibitor formed by Chlorella cells. Amer. Jour, Bot., 29:142-148. Ryther, J, H, .1954. Inhtibitory effects of phytoplankton upon the feeding of Dapnnia magna with reference to growth, reproduction and survial. Ecology, 35:522-532. Richards, F. A. & Thompson, T. G. .1952.. The estimation and charac-terization of plankton populations by pigments analysis. II A speotrophotometric method for the estimation of plankton pigments. Jour. Mar. Res., 11:l56-172. Round, F. E, .1957. Studies on bottom-Iiving algae in some lakes of the English Lake District. Part 1-3, J. Ecol., 45:133-148. 343-359, 649-664. Satomi, Y. .1961. Untersuchungen aber die Reminera1isation des Phosphorus und Stickstoffs im Phytoplankton, insbesondere in Bezug suf Alkalinitat der Medien und andere milien faktoren. Bull. Freshw, Fish, Res. Lab., Tokyo, 11:1-9. Satomi, Y, .1967. Physiological Significance of Carbon Source in Fertilized Fish Ponds. FAO Fisheries Reports, P. 257-265. Saunders, G. W. .1957. interrelations of dissolved organic matter and phytoplankton. Bot. Rev., 23:389-409. Sohutte, K. H, & Elsworth, J. F. .1954. The signifieant of large pll fluctuation observed in some South African Vleis. J. Ecol., 42:148-150. Sladecek, V. .1958. A onte on the phytoplankton-zooplankton relationship. Ecology, 39:547-549. Shen, Y. F. .1950. Notes on the freshwater algae of Mount .A-Li Acta Botanica Taiwanica, 1:347-357. Spencer, J. L. .1950.. The net phytoplankton of Quabbin Reservoir, Massachusetts, in relation to certain enviromental factors. 31(2):405-425. Sugawara, Ken .1939. Chemical studies in lake metabolism. Bull. of Chem, Soc. Japan, 14:375-451. Tan, T. S. .l967. Ecological studies of Copepods in Tanshui River Rpt. of the Inst. Biol, of MOEA and NYU, 2(2):21-29. Welch, P. S, 1935 & 1952. Limnology, McGraw-Hill Book Co., Inc., N.Y. Williams, L. G. .1964.. Possible relationships between plankton-diatom species numbers and water quality estimates. Ecology, 45:809-823. Wu, J, F. .1970. The distribution of chlorophyll in the lake and fish pond of Taiwan, Dept. of Zoo., NTU, Life Science, 2:68-74. Zafar, A.R. .l964.. On the ecology of algae in certain fish pond of Hyderabad, India. I. Physioo-chemical complexes. Hydrobiologia, 23:179-195. Zobell, C. G. .1940. Some factors which influence oxygen consumption by bacteria in lake water, Biol. Bull., 78(3):388-402. Ueno, M. .1935. Inland rater fauna of Formosa Rotatoria. Trans. Nat. Hist. Soc. Formosa, 25(1144):300-307. Ueno, M. .1938. Rotatoria of Formosan Lakes, Annot. Zool. Japan., 17(2):134-143. Ueno, M. .1938.. Inland water fauna of Taiwan (Taiwan). A zoogeo-graphioal. sketch based chiefly on the microfauna. Bull. Biogeogr, Soc, Japan, 8(8):161-176. Yue, T. L, & Ong, H. S. .1970. Monthly changes of plankton and fish yield in fresh water fishpounds. NTU, Life Soi., 2:75-79. Yosh: mirn, S 1936 (字體不清)
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75956	-
dc.description.abstract	Diurnal and seasonal variations of both physico-chemical factors and. biological conditions were studied from Oct. 1957 to Nov. 1969. Samples were obtained at approximately three days or weekly intervals. The following physico-chemical. analysis were made on these samples by standard methods: Temperature, Dissolved Oxygen, Alkalinity (Carbonate and Bicarbonate), Hardness, Magnesium, Calcium, Nitrite, Nitrate, Ammonia, Organic Nitrogen, Silica, Phosphate Phosphorus, Organic Phosphorus, Organic Carbon, COD, Chlorophyll (a & b), Chloride, Water Color and Electric Conductivity. 1. There is a negative correlation between dissolved Oxygen and Temperature, but D, O. always aupersature in fish ponds having higher productivity during Summer. Both of n having the vertical stratifications in shallow pondr more than 80cm, pH, dissolved. Oxygen and Temperature reach the highest concentration during 3 p.m. and 4 p.m., and lowest in 6a.m. 2. Water Color (pt unit, X) has linear relationship with Consumption of Oxygen Demand (Y):X=2.9043 Y-1.7858. 3. There is a roughly curved relationship between chlorophyll Content and Transparency. 4. Total Nitrogen is principally determined by Organic Nitrogen, Inorganic Ammonia is higher than Nitrate Content, and Nitrite is the least. In general, Nitrate and Nitrite show trace in the fish pond during intenuo Photosynthesis. Rain water contains much Nitrate. 5. Higher Alkalinity result in higher productivity of Zooplankton. Carbonate go hand in hand with pH and, reversely with Bioarbonate. Bicarbonate constitutes the 90% of total Alkalinity, 6. The dynamics of Chloride in fish pond may be relative to the Physio1or of Phytoplankton. 7. The time during late February and early July favor the higher productivity of Zooplankton. The most favorable condition of Phytoplankton was found during May and N0vember, The latter always outnumber the former in volume. 8. Higher Electric Conductivity favor the preferencial. growth of Phrtoplankton. 9. Inorganic Phosphorus and Nitrogen fertilizer favor the mass production of Blue Greeon Algae such as Microcystis aruginosa, Coelosphaerium Sn, and Anabaena sp.. 10. Rotifers outnumber Cladocera and Copepods. Rotifers consist of 17 Genus, including 29 known species and 4 unknown species. Branchionus and Keratella show a wide range of adaptability and grow in abundance. 11. The abundance of Blue Green Algae may be due to higher value of dissolved organic matter, lower Silica and Magnesium, Lower pH, dissolyad Oxygen; organic matter; Higher Bioarbonate, Hardness and Chloride favor the grow of Diatoms. Higher Bicarbonate and Calcium; Lower Magnesium, organic matter, pH, Transparency and. Nitrite result in optimal. growth of Green Algae. 12. The principal factor which control the behavior of diurnal movement of Plankton is light. The others are Temperature and dissolved Oxygen. In Zooplankton, the diurnal movement of Cladocera and Copepods is very characteristic, Nauplil. and Filinia longeseta also have diurnal behavior, but none is found in Branchionus forticula, Polyarthra trigla and Trichocera. sp.. Diatoms show weak photosensitivity. The total quantity of Phytoplankton in surface layer is more than the bottom.	en
dc.description.provenance	Made available in DSpace on 2021-07-01T08:16:45Z (GMT). No. of bitstreams: 0 Previous issue date: 1970	en
dc.description.tableofcontents	目錄一、引言……1-2 二、材料與方法……2 A水樣及浮游生物的採集……2 B物埋性狀的測定……2 C水質分析……2-3 D浮游生物之定性和定量……3 三、結果 A物理及化學狀態……4-17 B生物概況（一）浮游生物之定量……17 （二）浮游生物之定性 a植物性浮游生物……17-18 b動物性浮游生物……18 c浮游生物之週日變動……18-19 四、討論 A 物理及化學因數（一）透明度與葉綠素……19-20 （二）溫度與溶氧……20-21 （三） pH與溶氧……21 （四） PH與鹼度……21-23 （五）水色與氧消耗量……23 （六）矽質……23-25 （七）無機磷素……25-26 （八）總磷及有機磷……26 （九）氯素……27-28 （十）電導度……28-29 （十一）硬度……29-30 （十二）鎂和鈣（十三）氯化物……30 （十四）總碳……30-31 B 生物概況（一）浮游生物之定量……31-32 （二）浮游生物之定性 a 植物性浮游生物……32-34 b 動物性浮游生物……35 （三）浮游生物之晝夜消長……35-36 五結論……36-38 六謝辭……38-39 七參考文獻……40-46 八英文摘要……47-49
dc.language.iso	zh-TW
dc.title	竹北淡水魚塭生態之研究	zh_TW
dc.title	Ecological Studies of Chupei Fish Ponds	en
dc.date.schoolyear	58-2
dc.description.degree	碩士
dc.relation.page	49
dc.rights.note	未授權
dc.contributor.author-dept	生命科學院	zh_TW
dc.contributor.author-dept	動物學研究所	zh_TW
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