請用此 Handle URI 來引用此文件:
http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76295完整後設資料紀錄
| DC 欄位 | 值 | 語言 |
|---|---|---|
| dc.contributor.author | 李彥錚 | zh_TW |
| dc.date.accessioned | 2021-07-01T08:19:59Z | - |
| dc.date.available | 2021-07-01T08:19:59Z | - |
| dc.date.issued | 1997 | |
| dc.identifier.citation | 蔡英亞,張英,魏若飛 1979.貝類學概論,上海科學技術出版社,II+158p. 朱耀明,丁雲源 1980.元寶螺養殖調查,中國水產,232(8):26-28. 莊索 1980.學名質疑,中國水產,336(12):7-8. 李幸祥 1981.元寶螺養殖業,養魚世界,8:49-50. 農林廳 1981.勿任意養殖元寶螺,養魚世界,4:19. 張文重 1982.福壽螺之生態與防治,興農,162:12-14. 唐正淋 1982.福壽螺是引進的嗎,興農,162:17-18. 黃天行 1982.誰知盤中飧粒粒成禍害,興農,162:24-26. 農試所 1982.福壽螺生態之初步防治,興農,162:38-41. 湯弘吉,劉邦凱,林晏熙,簡煌彬 1983.福壽螺在水產養殖上利用價值試驗,中國水產,372:8-12. 張文重 1985.金寶螺之生態研究,貝類學報,11:43-51. 張寬敏 1986.在台灣猖獗的福壽螺,貝友,10:34-43. 賴景陽 1988.台灣自然觀察圖鑑(13)—貝類,渡假出版社,臺北,X+190p. 孫寶年,李國誥,翁秀貞 1991.台灣地區常見食用魚貝類圖說,行政院衛生署,臺北,VI+153p. 何平合,施志昀,游祥平 1992.台灣產地蟹科陸蟹之研究,台灣省立博物館年刊,35:51-65. 張寬敏 1994.台灣新發現的梯狀福壽螺,貝友,20:5-7. 薑鈴 1996.應用粒腺體DNA探討雙殼綱的類緣關係,國立台灣大學動物學研究所博士論文,IV+140p. Abbott, R. T. and Dance, S. P. 1990. Compendium of Seashells. American Malacologists, Inc., Melbourne, Florida, USA. IX+41 p. Abreu, V. 1976. Snails of wilderness waters. Of Sea and Shore, 3: 161. Adamkewicz, S. L. and Harasewych, M. G. 1994. Use of Random Amplified Polymorphic DNA (RAPD) Markers to Assess Relationships Among Beach Clams of the Genus Donax. The Nautilus, Supplement 2: 51-60. Alejandra, L. E. and Nestor, J. C. 1992. Growth and demography of Pomacea canaliculata under laboratory condition. Malacological Review, 25: 1-12. Apostol, B. L., Black, W. C., Miller, B. R., Reiter, P. and Beaty, B. J. 1993. Estimation of the number of full sibling families at an oviposition site using RAPD-PCR markers: applications to the mosquito Aedes aegypti. Theor. Appl. Genet., 86: 991-1000. Barros, R. M. F., Cruz-H?fling, M. A. and Matsuura, M. S. A. 1993. Functional and dissociation properties and structural organization of the hemocyanin of Ampullaria canaliculata (Gastropoda: Mollusca). Comparative Biochemistry and Physiology, 105B: 725-730. Bernatchez, L. Guyomard, R. and Bonhomme, F. 1992. DNA sequence variation of the mitochondial control region among geographically and morphological remote European brown trout Salmo trutta populations. Mol. Ecol., 1: 161-173. Brown, J. R., Beckenbach, A. T. and Smith, M. J. 1993. Intrasecific DNA sequance variation of the mitochondrial control region of white sturgeon (Acipenser transmontanus). Mol. Biol. Evol., 10: 326-341. Brussard, P. F. 1974. Geographic variation in north American colonies of Cepaea nemoralis. Evolution, 29: 402-410. Cameron, R. A. D. and Dillon, P. J. 1984. Habitat stability, population histories and patterns of variation in Cepaea. Malacologia, 25(2): 271-290. Carter, M. A. and Ashdown, M. 1984. Experimental studies on the effects of density, size and shell colour and banding phenotypes on the fecundity of Cepaea nemoralis. Malacologia, 25(2): 291-302. Cazzaniga, N. J. and Estebenet, A. L. 1990. Brief communications-A sinistral Pomacea canaliculata (Gastropoda: Ampullariidae). Malacological Review, 23: 99-102. Chang, K. M. 1989. Note on two groups of Hemiphaedusa ooi Kuroda from Kukuan (Pulmonata: Clausiliidae). Bulletin of Malacology, Republic of China, 14: 19-27. Chang, K. M. 1992. Dwarf type of Camaena batanica pancala (Schmacker et Boettger) from south cape, Taiwan and its allied species (Pulmonata: Camaenidae). Bulletin of Malacology, Republic of China, 17: 11-20. Cook, L. M. and Gao, G. 1996. Test of association of morphological variation with heterozygosity in the snail Cepaea nemoralis. Heredity, 76: 118-123. Cooke, A. H. 1895. Molluscs. Cambridge Natural History, London, 535p. Creese, R. G. 1976. The role of food availability in determining the degree of shell coloration and banding in Austrocochlea constricta. Malacological Review, 9: 136. Dice, L. R. 1945. Measures of the amount of ecological association between species. Ecology, 26: 297-302. Excoffier, L., Smouse, P. E., and Quattro, J. M. 1992. Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data. Genetics, 131: 479-491. Felsenstein, J. 1993. Consensus Tree Program. University of Washington, USA. Habe, T. 1986. Japanese and scientific names of the apple snail introduced from South America. Chilibotan, 17(2): 27-28. Hyman, H. L. 1967. The Invertebrates, Volume VI, Mollusca I. McGraw-Hill Book Company, New York, USA. VII+792. Imlay, M. J. and Winger P.V. 1983. Toxicity of copper to Gastropoda with notes on the relation to the apple snail: A review. Malacological Review, 16: 11-15. Li, W. H. and Graur, D. 1991. Fundamentals of Molecular Evolution. Sinauer, USA. pp 61-63. Lutfy, R. G. and Demain E. S. 1967. The histology of the alimentary system of Marisa cornuarietis. Malacologia, 5(3): 375-422. Jaccard, P. 1901. Etude comparative de la distribution florale dans une portion des Alpes et des Jura. Bull. Soc. Vaudoise Sci. Nat., 37: 547-579. Jaccard, P. 1908. Nouvelles recherches sur la distribution florale. Bull. Soc. Vaud. Sci. Nat., 44: 223-270. Kambhampati, S., Black IV, W. C. and Rai, K. S. 1992. Random amplified polymorphic DNA of Mosquito species and populations (Diptera: Culicidae) techniques statistical analysis and application. Journal of Medical Entomology, 29(6): 939-945. Keawjam, R. S. 1986. The apple snail of Thailand: distribution, habitats and shell morphology. Malacological Review, 19: 61-81. Kulczynski, S. 1927. Die Pflanzenassoziationen der Pieninen. Bull. Intern. Acad Pol. Sci. Lett. Cl. Sci. Math. Nat., Supplement 2: 57-203. Mochida, O. 1991. Spread of freshwater Pomacea snail (Pilidae, Mollusca) from Argentina to Asia. Micronesica, Supplement 3: 51-62. Murray, J., Stine, O. C. and Johnson, M. S. 1991. The evolution of mitochondrial DNA in Partula. Heredity, 66: 93-104. Ochiai, A. 1957. Zoogeographic studies on the soleoid fishes found in Japan and its neighbouring regions. Bull. Jap. Soc. Sci. Fish, 22: 526-530. Pasteur, N. 1988. Practical Isozyme Genetics. Ellis Horwood, New York, USA. VIII+206p. Ponce de Le?n, R. 1989. Description of Temnocephala haswelli n. sp. (Platyhelminthes) from the mantle cavity of Pomacea canaliculata (Lamarck). The Journal of Parasitology, 75(4): 524-526. Rogers, D. J. and Tanimoto, T. T. 1960. A computer program for classifying plants. Science, 132: 1115-1118. Russell, P. F. and Rao, T. R. 1940. On habitat and association of species of anopheline larvae in south-eastern Madras. J. Malar. Inst. India, 3: 153-178. Smith, M. L., Bruhn, J. N. and Anderson, J. B. 1992. The fungus Armillaria bulbosa is among the largest and oldest living organisms. Nature, 356: 428-431. Sokal, R. R. and Sneath, P. H. A. 1963. Principles of Numerical Taxonomy. Freeman, USA. 134p. Spath, H. 1980. Cluster Analysis Algorithms. Trans. Ursula Bull. Ellis Horwood (Halstead/Wiley), Chichester, England. 450p. Steindel, M., Dias, N. E., Menezes, C. L. P., Romanha, A. J., and Simpson, A. J. G. 1993. Random amplified polymorphic DNA analysis of Trypanosoma cruzi strains. Molecular Biochemical Parasitology, 60: 71-80. Thomas, W., Paabo, K. S., Villablanca, F. X. and Wilson, A. C. 1990. Spatial and temporal continuity of kangaroo rat populations shown by sequencing mitochondrial DNA from museum specimens. Journal of Molecular Evolution, 31: 101-112. Upholt, W. B. 1977. Estimation of DNA sequence divergence from comparison of restriction endonuclease digests. Nucleic Acid Research, 4: 1257-1265. Vidigal, T. H. D. A., Neto, E. D., Carvalho, O. D. S. and Simpson, A. J. G. 1994. Biomphalaria glabrata: extensive genetic variation in Brazilian isolates revealed by random amplified polymorphic DNA analysis. Experimental Parasitology, 79: 187-194. Vigilant, L., Stonekin, M., Harpending, M., Hawkes, K. and Wilson, A. C. 1991. African populations and the evolution of human mitochondrial DNA. Science, 253: 1503-1507. Welsh, J. and McClelland, M. 1990. Fingerprinting genomes using PCR with arbitrary primers. Nucleic Acid Research, 18: 7213-7218. Williams, J. G., Kubelik, A E., Levak, K. J., Rafalski, J. A. and Tingey, S. C. 1990. DNA polymorphisms amplified by arbitrary primers are useful as genetic markers. Nucleic Acid Research, 18: 6531-6535. Wu, W. L. and Chang, K. M. 1979. Geographical variation in the landsnail, Formosana swinhoei (Pfeiffer, 1865) from northern Taiwan (Pulmonata: Clausiliidae). Bulletin of Malacology, Republic of China, 6: 33-45. Wu, W. L. and Chang, K. M. 1980. Geographical variation of the landsnail, Hemipaedusa exilis (Adams, 1866) from northern Taiwan (Pulmonata: Clausiliidae). Bulletin of Malacology, Republic of China, 7: 73-85. Wu, W. L. and Lin, H. 1987. Studies on the raduae of Taiwan Molluscs I. Functional morphology of the radulae in four gastropods. Bulletin of Malacology, Republic of China, 13: 51-61. Yule, G. U. and Kendall, M. G. 1950. An Introduction to the Theory of Statistics. 14th edition. Hafner Publishing Co., New York, USA. XXIV+701p. | |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76295 | - |
| dc.description.abstract | 福壽螺被引進台灣至少有十五年的歷史,所造成的夢魘及農業與生態上的危害是大家有目共睹的事實。所有的水塘幾乎是福壽螺的天下,稻田、溝渠與水道,處處可見一糰糰粉紅色的卵塊。本文從福壽螺的引進台灣談起,對其特殊的生態習性、棲息環境、飼養所造成的農業災害、食用價值的評估、福壽螺的防治及寄生蟲等方面作全面性的整合與研究。 從解剖學上的研究,可以發現福壽螺為紐舌型齒舌,貝殼斷面可分為三層,分別是:殼皮、稜柱層及珍珠層。福壽螺為雌雄異體,從沒有在同一個個體內發現有雌雄二套生殖系統。福壽螺的外套膜為雙層結構有發達的微血管循環系統,由肺門孔開口於外套腔,除了可在水中以鰓呼吸外,當水中缺乏氧氣時水管可伸到水面,直接從空氣中獲得氧氣,這種習性使福壽螺可在十分惡劣的水質中生存。 在台灣地區福壽螺的貝殼呈現多變的外形,本研究分別針對貝殼的大小、殼毛的有無、貝殼的厚度、殼口顏色、殼面色帶的型式、螺塔的高低、及貝殼外唇前端有否向外延伸翻捲等特徵進行討論,但單從福壽螺的外部形態並不足以顯示族群分化的現象。 本研究再以RAPD技術探討福壽螺族群基因結構,發現福壽螺族群內維持著高度的遺傳變異,這可能是為了適應惡劣的生存環境。地理上較為接近的兩個族群並不一定有較為相近的基因組成。此外,若從枝狀圖來看,即使是分佈於南北兩地的個體,也會被分為同一群(group)。此乃因福壽螺族群並非一步一步漸漸的由南向北擴散,而是在短時間內佔據台灣所有的淡水水域,也就是說福壽螺族群在擴散的過程中並沒有發生基因結構的改變,而是在擴散至全省後,才因下列可能因素造成族群間的差異。 1.分佈在各地的族群各自改變族群內的基因頻度。 2.從南到北擴散之時發生Genetic drift。 3.以上兩種情形同時發生。 | zh_TW |
| dc.description.abstract | The apple snail Pomacea canaliculata had been imported to Taiwan more than 15 years. The seriously agricultural and ecological damage caused by this apple snail, is witnessed by all. P. canaliculata spread almost in all fresh water pool, paddy irrigated canal and other watercourse in Taiwan. Their pink egg sacs were adhered everywhere above 10cm height of the water surface. In this study the imported papers described the apple snail were reviewed, then discuss their special ecological habit, habitat and value of economic utilization. Finally, the prevention and treatment of their agricultural and ecological damage, and the study of their parasite were also reported. In the anatomy study, P. canaliculata. I hold taenioglossa radula, with one central tooth, two lateral teeth and four marginal teeth. The shell of P. canaliculata with three major layers, such as periostracum, prismatic and nacreous layers. Sexes are separate in P. canaliculata, therefore the male and female reproductive system could not been found in the single individual. The mantle roof is developed into a vascularized area and invaginated as a pouch, called pulmonary sac. The mantle edge elongates and rolls up to form a tube for air intake, siphon With the above structure of P. canaliculata may respire aquatically by their gill or aerially by their pulmonary sac. Pomacea canaliculata in Taiwan appears great variance in shell size, shell thickness, band pattern, aperture color, spiral and with shell hairs or not, and outer lip reflexed or not, etc. The shell variations of P. canaliculata maybe cause by their habitat, predator or different sex, and could not respond the population diversity. The population genetic was discussed by using RAPD method. The Taiwanese P. canaliculata keeps great genetic variance within population because of difficult habitat. In the phenogram of the P. canaliculata individuals from north to south of Taiwan, some population even located in vary far distance could groups into more related groups. It is because of rapid spread of P. canaliculata populations from south to north of Taiwan and the populations were not differentiation yet during extended the population. And then the populations becoming difference by the following possibility reason: 1. The genetic frequency of populations becoming difference in different locations. 2. Genetic drift been happenduring population spread. 3. Both of above reason. | en |
| dc.description.provenance | Made available in DSpace on 2021-07-01T08:19:59Z (GMT). No. of bitstreams: 0 Previous issue date: 1997 | en |
| dc.description.tableofcontents | 中文摘要……………………………………………………1 Abstract……………………………………………………3 緒論………………………………………………………5 第一章 台灣有關蘋果螺科之研究……………………7 分類學地位………………………………………………7 生態及棲息環境…………………………………………8 福壽螺之飼養……………………………………………10 福壽螺造成的農業災害…………………………………12 福壽螺的防治……………………………………………13 食用性……………………………………………………14 寄生蟲……………………………………………………15 第二章 福壽螺解剖學研究……………………………16 前言………………………………………………………16 材料與方法………………………………………………17 標本採集…………………………………………………17 標本麻醉與固定…………………………………………18 貝殼斷面標本製備………………………………………18 齒舌標本製備……………………………………………18 貝殼形態測量……………………………………………19 結果與討論………………………………………………21 齒舌………………………………………………………21 貝殼微細構造……………………………………………21 外套腔……………………………………………………22 消化系統…………………………………………………22 生殖系統…………………………………………………23 貝殼形態…………………………………………………24 第三章 福壽螺的族群遺傳結構研究……………………30 前言………………………………………………………30 材料與方法………………………………………………32 DNA萃取方法……………………………………………32 RAPD分析…………………………………………………33 雙股聚合?鏈鎖反應……………………………………33 電泳及資料分析…………………………………………34 結果與討論………………………………………………36 RAPD分析的應用與限制…………………………………36 台灣地區福壽螺族群基因結構…………………………37 結論………………………………………………………43 參考文獻…………………………………………………44 謝辭………………………………………………………51 Table 1?Table 6…………………………………52?56 Figure 1?Figure 23………………………………57?79 附錄1?附錄3…………………………………………80?92 | |
| dc.language.iso | zh-TW | |
| dc.title | 福壽螺Pomacea canaliculata (Lamarck, 1819)在台灣之擴散及族群分析 | zh_TW |
| dc.title | The Spread and Population Analysis of Pomacea canaliculata (Lamarck, 1819) in Taiwan | en |
| dc.date.schoolyear | 85-2 | |
| dc.description.degree | 碩士 | |
| dc.relation.page | 97 | |
| 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 |
| 顯示於系所單位: | 動物學研究所 | |
文件中的檔案:
沒有與此文件相關的檔案。
系統中的文件,除了特別指名其著作權條款之外,均受到著作權保護,並且保留所有的權利。