斑節蝦養殖池之生態調查與其水質基準之研究

Wei-Ta Ruan; 阮暐達

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/32980

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳弘成
dc.contributor.author	Wei-Ta Ruan	en
dc.contributor.author	阮暐達	zh_TW
dc.date.accessioned	2021-06-13T04:20:52Z	-
dc.date.available	2007-01-04
dc.date.copyright	2006-07-28
dc.date.issued	2006
dc.date.submitted	2006-07-21
dc.identifier.citation	參考文獻 1. 丁雲源、李武忠 (1988) 台灣地區養殖池常見之浮游生物圖鑑。農委會漁業特刊第十四號。 2. 丁雲源、李武忠 (1991) 海水蝦池常見之生物圖鑑。農委會漁業特刊第二十七號。 3. 王克行 (1998) 蝦蟹類增養殖學。水產書廊：361-372。 4. 李國欽、陳朝月 (1981) 常用農藥對兩種魚類之急性毒性研究。中國水產 NO.340：17-24。 5. 余廷基、曾榕新、張湧泉 (1990) 四種農藥對吳郭魚、鰻魚及牡蠣之半致死濃度。台灣水產試驗所試驗報告 No.48：189-196。 6. 林清龍、熊文俊、郭世榮、陳秀男 (1993) 水產常用藥物對斑節蝦苗安全濃度之研究。臺灣水產學會誌No.20(4)：357-366。 7. 吳來貴 (1982) 丁基拉草之特性及推廣臺灣稻田雜草防除討論會 (10)：89-90。 8. 陳弘成 (1996) 高產量下蝦池生態與草蝦外型之研究。台大漁推 8：29-39。 9. 陳弘成、張銘昆、丘南威、徐嘉瑩 (1989) 宜蘭蝦池生態環境之研究。農委會漁業特刊No.16：277-298。 10. 陳弘成 (1991) 宜蘭蝦池環境調查及改善。農委會漁業特刊No. 28：1-4。 11. 陳弘成、辛阿燕、高事宜 (1991) 宜蘭蝦池之生態與池蝦生長之研究。農委會漁業特刊No. 28：5-25。 12. 陳弘成 (1992) 成功的草蝦養殖法。農委會漁業特刊31號。 13. 陳弘成 (1994) 魚類毒性試驗標準方法之研究。台大漁試所與動物所期末報告。 14. 陳弘成 (1996) 魚類毒性試驗標準方法之研究(三)。台大漁試所與動物所期末報告。 15. 陳弘成、高事宜、吳瑞梹、袁又宸 (2001) 斑節蝦養殖技術改進之研究。漁業署養殖特刊第四號水產養殖論文集(三)：1-9。 16. 陳弘成 (2004) 提高帶原蝦苗育成效率之技術手冊。漁業署養殖特刊No.8。 17. 陳建初 (1981) 水質分析。九大圖書公司：85-107。 18. 陳建初、涂智欽、楊文璽 (1989) 氨對斑節蝦蝦苗的急性毒性。臺灣水產學會誌 No.16(4)：261-270。 19. 陳建初、涂智欽 (1990) 亞硝酸對斑節蝦蝦苗的急性毒性。臺灣水產學會誌 No.17(4)：277-287。 20. 陳家鐘 (1996) 農藥化學結構與生物活性關係之探討中華民國雜草學會會刊 (17)：89-100。 21. 謝明慧 (1979) 重金屬對幾種沿岸生物毒性之研究。海大碩士斑論文。 22. 廖一久、黃漢津 (1975) 臺灣經濟蝦類之呼吸研究- I 草蝦之卵至稚蝦期之氧氣消耗量及致死溶氧量。台灣水產學會誌 No.4：33-50。 23. 廖一久、謝介士 (1988) 重金屬對斑節蝦之毒性。臺灣省水產學會誌No.15：69-78。 24. 賴仲謀、尤伸森 (1981) 常用農藥對斑節蝦之急性毒試驗。台灣水產試驗所試驗報告 No.33：637-641。 25. 賴仲謀 (1986) 常用農藥對虱目魚、草蝦、文蛤之急性毒性。台灣水產試驗所試驗報告 NO.41：87-91。 26. 行政院勞工委員會勞工安全衛生研究所 (2001) 作業環境有害物暴露調查與對策技術資料(四)-有機磷劑農藥暨有機溶劑(農藥製造業)。 27. 環檢所 (2000) 水中氨氮檢測方法－靛酚比色法。環署檢字第67626號公告 NIEA W448.51B。 28. 環檢所 (2002) 水中亞硝酸鹽氮檢測方法－分光光度計法。環署檢字第0910083743A號公告 NIEA W418.51C。 29. 環檢所 (2003) 中矽酸鹽檢測方法－鉬矽酸鹽比色法。環署檢字第 0920080856號公告NIEA W450.50B。 30. 環檢所 (2000) 水中生化需氧量檢測方法。環署檢字第67626號公告 NIEA W510.54B。 31. 環檢所 (2005) 水中正磷酸鹽之流動注入分析法－比色法。環署檢字第 0940034033A 號公告 NIEA W443.51C。 32. Allan G.L., Maguire G.B., Hopkins S.J. (1990) Acute and chronic toxicity of ammonia to juvenile Metapenaeus macleayi and Penaeus monodon and the influence of low dissolved-oxygen levels. Aquaculture 91: 265-280. 33. Allan, G.L., Magurire, G.B. (1992) Effects of pH and salinity on survival, growth and osmoregulation in Penaeus monodon fabricius. Aquaculture 107: 33–47. 34. Alcaraz G., Carrara C. (1997) Temperature tolerance of Penaeus setiferus postlarvae exposed to ammonia and nitrite. Aquatic Toxicity 39: 345-353. 35. Bath R.N., Eddy F.B. (1980) Transport of nitrite across fish gills. J. Exp. Zool. 214: 119-121. 36. Boyd C.E. (1989) Water Quality Management and Aeration in Shrimp Farming. American Soybean Association and US Wheat Associates, Singapore: 70. 37. Bower C.E., Bidwell J.P. (1978) Ionization of ammonia in seawater: effects of temperature, pH and salinity. J Fish Res Canada 35: 1012-1016. 38. Boyd C.E. (1990) Water Quality in Ponds for Aquaculture. Birmingham Publishing, Birmingham, AL: 482. 39. Briggs M.R.P., Funge-Smith S.J. (1994) A nutrient budget of some intensive marine ponds in Thailand. Aquacult. Fish. Manage. 24: 789-811. 40. Campbell J.W. (1973) Nitrogen excretion. In Comparative Animal Physiology. Third edition (ed. C. L. Prosser): 279-316. 41. Charmantier D.M., Segonzac M. (1998) Organ of Bellonci and sinus gland in three decapods from Atlantic hydrothermal vents: Rimicaris exoculata, Chorocaris chacei, and Segonzacia mesatlantica. Journal of Crustacean Biology, 18: 213-223. 42. Chamberlain G.W. (1997) Sustainability of world shrimp farming. In Global Trends: Fisheries Management (Pikitch E.K., Juppert D.D., Sissenwine M.P.). American Fisheries Society Symposium 20, Bethesda, Md. 43. Charmantier G., Charmantier-Daures M., Bouaricha N., Thuet P., Aiken D.E., Trilles J.P. (1988) Ontogeny of osmoregulation and salinity tolerance in two decapod crustaceans: Homarus americanus and Penaeus japonicus. TheBiological Bulletin175: 102-110. 44. Chen H.C. (1971) Increase of benthic algae in milkfish ponds by application of silicate. Chinese-American Joint Commission on Rural Reconstruction Fisheries Series. No11: 71-83. 45.Chen H.C. (1975) Some effect of heavy metals on the prawn Palaemon elegans. Liverpool Univeristy. PhD Thesis: 163. 46. Chen H.C. (1984) Water citeria for farming grass shrimp. 1ST Int. Sym. for culture of Penaeus prawn: 23. 47. Chen H.C., Yang H.N. (1998) Studies on better management for highly successful intensive shrimp culture. 5th Asian Fish. Forum. Thaliland: 13. 48. Chen H. C. (2001) Studies on water quality criteria of pesticides for farming black tiger shrimp Peneaus monodon. 6th Asia Fishery Forum. 48. Chen H. C. (2001) Improvement of culture techniques in Kuruma shrimp. FACOA Aquaculture Series. 4: 1-10. 49. Chen H. C. (2004) Better pond management and new culture idea of Penaeus japonicus. 4th World Chinese Shrimp Culture Symposium: 13. 50. Chen H. C. (2000) Shrimp farming management and its prospect. Central American Shrimp Culture Training Course: 107. 51. Chen J.C., Chin, T.S. (1989) Effect of ammonia at different pH levels on Penaeus monodon exposed to ambient ammonia. Aquacul. 109: 177-185 52. Chen J.C., Cheng, S.Y. (1993) Urea excretion by Penaeus japonicus bate exposed to different concentrations of ambient ammonia. J. Exp. Mar. Biol. Ecol. 173: 1–9. 53. Chen J. C., Cheng S. Y. (1995) Changes of oxyhemocyanin and protein levels in the hemolymph of Penaeus japonicus exposed to ambient nitrite，Aquatic Toxicity 33: 215-226. 54. Chen J. C., Cheng S. Y. (2000) Recovery of Penaeus monodon from functional anaemia after exposure to sublethal concentration of nitrite at different pH levels，Aquatic Toxicity 50: 73-83. 55. Chen J. C., Liu P. C., Lei S. C. (1990) Toxicities of ammonia and nitrite to Penaeus monodon adolescents. Aquaculture 89: 127-137. 56. Chen J. C., Cheng S. Y. (1995) Accumulation of urea in the haemolymph and ammonia excretion of Penaeus japonicus exposed to ambient nitrite. Comp. Biochem. Physiol. Vol. 110C: 1-6. 57. Chen J.C., Kou, C.T. (1996) Nitrogenous excretion in Macrobrachium rosenbergii at different pH levels. Aquaculture 144: 155–164. 59. Cheng Y.S., Chen J.C. (2001) The tome-course change of nitrogenous excretion in the Kuruma shrimp Penaeus japonicus following nitrite exposure. Aquat. Toxicol. 51: 443-454. 60. Colt J., Tchobanoglous G. (1976) Evaluation of the short-term toxicity of nitrogenous compounds to channel catfish, Iactlurus punctatus. Aquaculture 8: 209-224. 61. Colt J.E., Armstrong D.A. (1981) Nitrification toxicity to crustaceans, fish and mollusks: 33-47. 62. Dall W. (1981) Osmoregulatory ability and juvenile habitat preference in some penaeid prawns. Journal of Experimental Marine Biology and Ecology 54: 55-64. 63. Dhirendra P.T., C.K.L. (2002) Water quality and nutrient budget in closed shrimp (Penaeus monodon) culture systems. Aquacult. Eng. 27: 159-176. 64. Dtram D.L., Kincaid C.R., and D.E. C. (2005) Water quality modeling in the Rio Chone Estuary，Journal of Coastal Research 21: 797-810. 65. Eddy F.B., Williams, E.M., (1987) Nitrite and fresh water fish. Chem. Ecol. 3: 1-38. 66. Flegel T.W. (1996) The while spot virus crisis in Asian shrimp culture. Aquaculture Asia: 9-32. 67. Greenaway P. (1991) Nitrogenous excretion in aquatic and terrestrial crustaceans. Memoirs of the Queensland Museum 31: 215–227. 68. Greg J.C., Peter J.C., Nigel P.P., Don F. (2002) The effects of temperature on the growth, survival and biomass of different families of juvenile Penaeus japonicus Bate, Aquaculture 214 : 185–199 69. Gomez-Gil B., Roque, A., Turnbull, J. F., Tron-Mayen, L. (1998) Species of Vibrio isolated from hepatopancreas, haemolymph and digestive tract of a population of healthy juvenile Penaeus vannamei. Aquaculture 163: 1-9. 70. Haines T.A. (1981) Acidic precipition and its consequences for aquatic ecosystems: a review. Trans. Am. Fish. Soc. 110 (6): 669-707. 71. Hermanutz R.O., Allen, K.N., Hedtke, S.T. (1997) Ammonia effects on microinvertebrates and fish in outdoor experimental streams. Environmental Pollution, 47: 249-83. 72. Hopkins J.S., Sandifer, P.A., Browdy, C.L. (1994) Sludge management in intensive pond culture of shrimp: effect of management regime on water quality, sludge characteristics, nitrogen extinction, and shrimp production. Aquacultural Engineering 13: 11-30. 73. Jones A. B., O’Donohue M. J., Udy J., Dennison W. C. (2001) Assessing ecological impacts of shrimp and sewage effluent:biological indicators with standard water quality analysis，Estuarine, Coastal and Shelf Science 52: 1-109. 74. Krom M.D., Neori, A. (1989) A total nutrient budget for an experimental intensive fish pond with circulatory moving seawater. Aquaculture, 88: 345-358. 75. Lee D.O.C., Wickins J.F. (1992) Crustacean Farming. Blackwell Scientific Publication, Oxford, UK: 392. 76. Liao I. C. (1989) Penaeus monodon culture in Taiwan: through two decades of growth. Int. J. Aquat. Fish. Technol. 1: 16-24. 77. Liao I.C., Chien, Y.H. (1994) Culture of Kuruma prawn (Penaeus japonicus Bate) in Asia. Special Report, World Aquaculture 25 (1): 8–33. 78. Lester L.J., Pante M.J.R. (1992) Penaeid temperature and salinity responses. In: Marine Shrimp Culture: Principles and Practices (ed. by Fast A.A.W., Lester L.J.): 515–534. 79. Liao P.B., Mayo R.D. (1974) Intensified fish culture combining water reconditioning with pollution abatement. Aquaculture 3: 61-85. 80. Lightner D.V., Redman R.M. (1998) Shrimp disease and current diagnosis methods. Aquaculture 164: 201–220. 81. Lewis W.M., Morris, D.P. (1986) Toxicity of nitrite to fish: a review. Trans. Am. Fisheries Soc. 115, 183-199. 82. Jackson C.J. and Wang Y.G. (1998) Modelling growth rate of Penaeus monodon Fabricius in intensively managed ponds: effects of temperature, pond age and stocking density. Aquaculture Research 29: 27–36. 83. Jensen F.B. (1990) Sublenthal physiological changes in freshwater crayfish, Astacus astacus, exposed to nitrite: haemolymph and muscle tissue electrolyte status, and haemolypth acid-base balance and gas transport. Aquat. Toxicol. 18: 51-60. 84. Martin J.L., VeranY., Guelorget O., Pham D. (1998) Shrimp rearing: stocking density, growth, impact on sediment, waste output and their relationships studied through the nitrogen budget in rearing ponds. Aquaculture 164: 135-149. 85. Melzian B. and Jaworski N. (1991) Toxicity of Chlorine and Ammonia to Aquatic Life: Chemistry, Water Quality Criteria, Recent Research and Recommended Future Research. U.S. Environmental Protection Agency. Conference proceedings on Water Quality Standards for the 21st Century: 127–138. 86. Morgan D.O., McMahon B.R. (1982) Acid tolerance and effects of sublethal acid exposure on iono-regulation and acid–base status in two crayfish Procambarus clarki and Orconectes rusticus. J. Exp. Biol. 97: 214–252. 87. Muthuvan V. (1991) Nutrient budget and water quality in intensive marine shrimp culture ponds. AIT master thesis AE: 91-40. 88. Burford M.A., Lorenzen K. ( 2003) Modeling nitrogen dynamics in intensive shrimp ponds: the role of sediment remineralization，Aquaculture 229: 129-145. 89. Murray C.A., Zeibell C.D. (1984) Acclimation of rainbow trout to high pH to prevent stocking mortality in summer. Prog. Fish Cult. 46: 176–179. 90. Nga B.T., Lqrling M.T., Peeters E.T.H.M., Roijackers R., Scheffer M., Nghia T.T. (2005) Chemical and physical effects of crowing on growth and survival of Penaeus monodon Fabricius post-larvae，Aquaculture 246: 455-465. 91. Noor H.S., Fortes R.D., Parado E.F. (1994) Effect of pH and ammonia on survival and growth of the early stages of Penaeus monodon Fabricius. Aquaculture 125: 67–72. 92. Primavera H. (1997) Socio-economic impacts of shrimp aquaculture. Aquaculture Research 28: 815-827. 93. Piyatiratitivorakul S., Rengpipat S., Viyakarn V., Nitithamayong C., Menasveta P., Mita T., Maruyama M. (2001) High efficient closed recirculating tube-system use for Penaeus monodon culture.6th Asian Fish Forum: 198. 94. Regnault M. (1987) Nitrogen excretion in marine and fresh-water crustacea. Biol. Rev. 62: 1-24. 95. Ray W.M., Chien Y.H. (1992) Effects of stocking density and aged sediment on tiger prawn, Penaeus monodon, nursery system. Aquaculture 104: 231-248. 96. Rodriguez M.G. (1999) Calculus of the biochemical oxygen demand of effluents with xenobiotics, Journal Environmental Science and Health, A34(4): 879–897. 97. Spaargaren, G., van Vliet B.J.M., (1998) Lifestyles, consumption and the environment: the ecological modernization of domestic consumption. 98. Senkbeil E.G., Wriston J.G.Jr. (1981). Hemocyanin synthesis in the American lobster, Homarus americanus. Comp. Biochem. Physiol., 68B: 163–171. 99. Strickland J.D., Parsons T.R. (1972) A practical handbook of sea water analysis. Fish. Res. Bd. Canada Bulletin. 167: 310. 100. Tomasso J.R. (1994) Toxicity of nitrogenous wastes to aquaculture animals. Rev. Fish. Sci. 2: 291-314. 101. Takashima F., Strüssmann C.A. (1997) Aquaculture in Japan: recent trends. In: Proceedings of the Second International Seminar on Fisheries Science in Tropical Areas (ed. by F. Takashima, T. Takeuchi, T. Arimoto & C. Itosu): 165–172. 102. Teichert-Coddington D.R., Rodriguez R., Toyofuku W. (1994) Cause of cyclic variation in Honduras shrimp production. World Aquaculture 25: 57–61. 103. Tedengren M., Arner M., Kautsky N. (1988) Ecophysiology and stress response of marine and brackish water Gammarus species (Crustacea, Amphipoda) to changes in salinity and exposure to cadmium and diesel-oil. Mar Ecol Prog Ser 47: 107-116. 104. Thongrak S., Prato T., Chiayvareesajja S., Kurtz W. (1997) Economic and water quality evaluation of intensive shrimp production systems in Thailand. Agricultural Systems 53: 121–141. 105. Tseng K.F., Su H.M., Su M.S (1998) Culture of Penaeus monodon in a recirculating system. Aquacultural Engineering 17: 138-147. 106. Wang A.L., Wang W.N. (1995) The study of the relationship between red tide and environment factors in shrimp farming. Acta Oceanol. Sin. (Chin.) 17 (2): 128–133. 107. Wang W. N., Wang A. L., Chen L., Liu Y., Sun R. Y. (2002) Effect of pH on survival, phosphorus concentration, adenylate energy charge and Na+-K+ ATPase activities of Penaeus chinensis Osbeck juveniles，Aquatic Toxicology 60: 75-83. 108. Wickins J.F. (1976) The tolerance of warm-water prawns to recirculated water. Aquaculture 9: 19-37. 109. UNITED STATES ENVIRONMENTAL PROTECTION AGENCY (USEPA) (1990) Numeric Chlorine and Ammonia Standards. Off. Water, Off. Res. Standards, Criteria/Standards Division, Washington, D.C. 110. Xie B., Ding Z.H., Wang X.R. (2004) Impact of the intensive shrimp farming on the water quality of the adjacent coastal creeks from Eastern China，Marine Pollution Bulletin 48: 543-553.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/32980	-
dc.description.abstract	斑節蝦(Penneus japonicus, Bate)為斑節蝦屬中最名貴的一種，台灣的斑節蝦養殖近年來在病害的侵襲下，活存率不到二成甚至更低；然而仍有少部份的業者在養殖技術之輔導下年年養殖成功，另外在日本的斑節蝦養殖亦已開始回復，足證斑節蝦養殖若能有新穎的觀念與進步的技術，仍然確有可為。本實驗從2005年8月至隔年1月，每三個星期前往宜蘭當地的兩個班節蝦養殖池做水質與生物的基本調查與採樣分析並紀錄收成量，另外在實驗室對斑節蝦苗進行台灣常用四種農藥之急性毒試驗，加上其他資料收集，希望能夠提出對養殖斑節蝦的水質基準，供業界參考。水質調查研究的結果發現，在水質環境因子兩池都沒有太大的差異時，但鹽度越接近海水的斑節蝦養殖池其收穫量越高，管理較好的蝦池，經過間捕的過程，每分地生產1.1公噸之收穫量，相當成功且其池蝦大小為8~12克。從葉綠素a、BOD、磷酸鹽、矽酸鹽、浮游動植物等方面可用來研判養殖池水質的好壞，一般都有隨養殖日期而增加，且都發現到池水有嚴重的優養化與有機污染的情形，顯示換水的頻率需要增加，以維持較好的水質提供池蝦生長，而在水中、土壤、與蝦體重金屬含量的方面則是比過去的數據要來得低，顯示重金屬的使用已經減少。由急性毒試驗的結果，四種農藥甲基巴拉松、達馬松、巴拉刈、丁基拉草對斑節蝦在生物之安全濃度分別為0.0013、5、64、5.1μg/L，加上養殖的數據及多人之研究報告，彙整提出養殖斑節蝦時之水質基準供水質管理之用。	zh_TW
dc.description.abstract	Kuruma prawn Penneus japonicus is the most precious specie in penaeid shrimps, Survival rate of its aquaculture in Taiwan has been due to disease attack only about twenty percent in recent years; However farming Penneus japonicus still can success, provided with novel idea and the progress technology. In Japan the aquaculture of Penneus japonicus regain its production year after year. The present study regularly investigated the ecology of two different kuruma shrimp ponds, including shrimp growth and unit production in I-Lan country. Two ponds with stock density of 100~120 individuals per square meter were used in June and July. Sophisticated cultivating technology including better pond bottom preparation, good water management, feeding with more nutritious food, and providing more facility were applied. Moreover acute toxicity of four kinds of agricultural pesticides, methyl-parathion, methamidophos, paraquat and butachlor to juvenile shrimp was carried out, trying to find out their safe concentrations for the purpose of offering water quality criteria for farming with other published results. It is found out that water quality of two ponds did not significantly differ in many ecological factors, apart from salinity. Shrimp production is higher in slightly higher salinity pond(29.3‰) then lower salinity one(21.7‰), the former can produce 1.1 tones of shrimp per hectare, with 10-12 grams in harvest size and 90% survival rate, by 8 partial harvests. BOD, Chlorophyll a, phosphate, silicate, phytoplankton and zooplankton increase with cultural times, all can be used to judge the water quality, especially NH3 and dissolved oxygen. It is suggest that water exchange must be intensified and peddle wheel be installed more to maintain good dissolved oxygen. As do the metal contents of shrimp body, it decreased compared with that in many years, showing usage of copper algaecides is reduced. From the result of acute toxicity, it shows that the biologically safe concentration for methyl-parathion, methamidophos, paraquat and butachlor were 0.0013, 5.0, 64, and 5.1 μg/L respectively. Therefore, water quality criteria for farming the kuruma prawn are discussed and proposed, with other published data for the ease of managing pond water.	en
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dc.description.tableofcontents	頁次致謝......................................................I 摘要.....................................................II Abstract................................................III 第一章前言...............................................1 第二章文獻回顧一、斑節蝦養殖.....................................5 二、水質環境因子...................................8 三、農藥與毒性試驗................................16 第三章材料與方法一、養殖池的水質調查..............................18 二、實驗室養殖與急性毒試驗........................23 第四章結果一、養殖池的水質調查..............................26 二、急性毒試驗....................................50 第五章討論一、養殖池的水質調查..............................55 二、急性毒試驗與制定斑節蝦之水質基準..............69 參考文獻.................................................72
dc.language.iso	zh-TW
dc.subject	水質基準	zh_TW
dc.subject	急性毒試驗	zh_TW
dc.subject	斑節蝦	zh_TW
dc.subject	acute toxicity	en
dc.subject	water quality criteria	en
dc.subject	Penaeus	en
dc.title	斑節蝦養殖池之生態調查與其水質基準之研究	zh_TW
dc.title	Studies on ecological survey of Kuruma shrimp pond and its water quality criteria for farming	en
dc.type	Thesis
dc.date.schoolyear	94-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	丁雲源,廖文亮,劉擎華
dc.subject.keyword	斑節蝦,水質基準,急性毒試驗,	zh_TW
dc.subject.keyword	Penaeus,water quality criteria,acute toxicity,	en
dc.relation.page	87
dc.rights.note	有償授權
dc.date.accepted	2006-07-24
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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