臺灣近海康氏馬加鰆之年齡成長與季節性分布

Yun-Sin Lo; 羅允信

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/1260

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	蕭仁傑
dc.contributor.author	Yun-Sin Lo	en
dc.contributor.author	羅允信	zh_TW
dc.date.accessioned	2021-05-12T09:35:06Z	-
dc.date.available	2020-03-01
dc.date.available	2021-05-12T09:35:06Z	-
dc.date.copyright	2018-03-01
dc.date.issued	2018
dc.date.submitted	2018-02-21
dc.identifier.citation	Al-Hosni, A. H. S., Siddeek, S. M. (1999). Growth and mortality of the narrowbarred Spanish Mackerel, Scomberomorus commerson (Lacepède), in Omani waters. Fisheries Management and Ecology, 6(2), 145-160. Buckworth, R., Newman, S., Ovenden, J., Lester, R., McPherson, G. (2007). The stock structure of northern and western Australian Spanish mackerel (Vol. 88). Beckman, D. W., Wilson, C. A. (1995). Seasonal timing of opaque zone formation in fish otoliths. In: Secor, D. H., Dean, J. M., Campana, S. E., Miller, A. B., (Eds.), Recent Developments in Fish Otolith Research. University of South Carolina Press, Columbia, SC, 27-41. Ballagh, A. C., Begg, G. A., Mapleston, A., Tobin, A. (2006). Growth trends of Queensland east coast Spanish mackerel (Scomberomorus commerson) from otolith back-calculations, 57, 383-393. Campana, S. E. (1999). Chemistry and composition of fish otoliths: pathways, mechanisms and applications. Marine Ecology Progress Series, 188, 263-297. Campana, S. E., Neilson, J. D. (1985). Microstructure of Fish Otoliths. Canadian Journal of Fisheries and Aquatic Sciences, 42(5), 1014-1032. Chung, S.-W, Jan, S., Liu, K.-K. (2001). Nutrient fluxes through the Taiwan Strait in spring and summer 1999. Journal of Oceanography, 57, 47-53. Claereboudt, M. R., McIlwain, J. L., Al-Oufi, H. S., Ambu-Ali, A. A. (2005). Patterns of reproduction and spawning of the kingfish (Scomberomorus commerson, Lacépède) in the coastal waters of the Sultanate of Oman. Fisheries Research, 73(3), 273-282. Collette, B.B. (2001). Scombridae. Tunas (also, albacore, bonitos, mackerels, seerfishes, and wahoo). p. 3721-3756. In K.E. Carpenter and V. Niem (eds.) FAO species identification guide for fishery purposes. The living marine resources of the Western Central Pacific. Vol. 6. Bony fishes part 4 (Labridae to Latimeriidae), estuarine crocodiles. FAO, Rome. Gong, G.C., Liu, K.K., Chiang, K.P., Hsiung, T.M., Chang, J., Chen, C.C., Hung, C.C., Chou,W.C., Chung, C.C., Chen, H.Y., Shiah, F.K., Tsai, A.Y., Hsieh, C.H., Shiao, J.C., Tseng,C.M., Hsu, S.C., Lee, H.J., Lee, M.A., Lin, I.I., Tsai, F. (2011). Yangtze River floodsenhance coastal ocean phytoplankton biomass and potential fish production. Geophysical Research Letters, 38, L13603. Govender, A. (2006). Growth of the king mackerel (Scomberomorus commerson) off the coast of Natal, South Africa from length and age data. Fisheries Research, 20, 63-79. Govender, A., Al-Oufi, H., McIlwain, J. L., Claereboudt, M. C. (2006). A per-recruit assessment of the kingfish (Scomberomorus commerson) resource of Oman with an evaluation of the effectiveness of some management regulations. Fisheries Research, 77(2), 239-247. Grandcourt, E. M., Abdessalaam, T. Z. A., Francis, F., Shamsi, A. T. A. (2005). Preliminary assessment of the biology and fishery for the narrow-barred Spanish mackerel, Scomberomorus commerson (Lacépède, 1800), in the southern Arabian Gulf. Fisheries Research, 76(2), 277-290. Hanson, N. N., Wurster, C. M., Eimf, Todd, C. D. (2010). Comparison of secondary ion mass spectrometry and micromilling/continuous flow isotope ratio mass spectrometry techniques used to acquire intra-otolith delta18O values of wild Atlantic salmon (Salmo salar). Rapid Commun Mass Spectrom, 24(17), 2491-2498. Høie, H., Folkvord, A., Mosegaard, H., Li, L., Worsøe Clausen, L. A., Norberg, B., Geffen, A. J. (2008). Restricted fish feeding reduces cod otolith opacity. Journal of Applied Ichthyology, 24, 138-143. Jan, S., Wang J., Chern C.-S. and Chao S.-Y. (2002) Seasonal variation of the circulation in the Taiwan Strait. Journal of Marine Systems, 35：249-268. Kailola, P.J., M.J. Williams, P.C. Stewart, R.E. Reichelt, A. McNee and C. Grieve, 1993. Australian fisheries resources. Bureau of Resource Sciences, Canberra, Australia. 422 p. Kasapoglu, N., Duzgunes, E. (2013). The relationship between somatic growth and otolith dimensions of Mediterraneanhorse mackerel (Trachurus mediterraneus) from the Black Sea. Journal of Applied Ichthyology, 29, 230-233. Kishinouye, K. (1923). Contributions to the comparative study of the so-called scombroid fishes. Journal of the College of Agriculture, Imperial University of Tokyo. (3), 293-475. Kitagawa, T., Ishimura, T., Uozato, R., Shirai, K., Amano, Y., Shinoda, A., Otake, T., Tsunogai, U., Kimura, S. (2013). Otolith δ18O of Pacific bluefin tuna Thunnus orientalis as an indicator of ambient water temperature. Marine Ecology Progress Series, 481, 199-209. Lester, R. (2001). Movement and stock structure of narrow-barred Spanish mackerel as indicated by parasites. Journal of Fish Biology, 59(4), 833-842. Lewis, P. D., Mackie, M. (2002). Methods used in the collection, preparation and interpretation of narrow-barred Spanish mackerel (Scomberomorus commerson) otoliths for a study of age and growth in Western Australia. Fisheries Research Report 143. Lin, H.-Y., Shiao, J.-C., Chen, Y.-G., Iizuka, Y. (2012). Ontogenetic vertical migration of grenadiers revealed by otolith microstructures and stable isotopic composition. Deep Sea Research Part I: Oceanographic Research Papers, 61, 123-130. Liu, K.-K., Tang, T.-Y., Cong, G.-C., Chen, L.-Y., Shiah, F.-K. (2000). Crossshelfand along-shelf nutrient fluxes derived from flowfields and chemical hydrography observed in the southernEast China Sea off northern Taiwan. Continental Shelf Research, 20, 493-523. Mackie, M. C., Lewis, P. D., Gaughan, D. J., Newman, S. J. (2005). Variability in spawning frequency and reproductive development of the narrow-barred Spanish mackerel (Scomberomorus commerson) along the west coast of Australia. Fishery Bulletin, 103(2), 344-354. McIlwain, J. L., Claereboudt, M. R., Al-Oufi, H. S., Zaki, S., Goddard, J. S. (2005). Spatial variation in age and growth of the kingfish (Scomberomorus commerson) in the coastal waters of the Sultanate of Oman. Fisheries Research, 73(3), 283-298. McPherson, G.R. (1981). Preliminary report:Investigation of Spanish mackerel Scomberomorus commerson in Queenslandwaters. In 'Northern Pelagic Fish Seminar1', pp.50-58. McPherson, G. (1992). Age and growth of the narrow-barred Spanish Mackerel (Scomberomorus commerson Lacepede, 1880) in North-eastern Queensland waters. Marine and Freshwater Research, 43(5), 1269-1282. McPherson, G. (1993). Reproductive biology of the narrow barred Spanish mackerel (Scomberomorus commerson Lacepede, 1800) in Queensland waters. Asian Fisheries Science, 6(2), 169-182. Munro, I.S.R. (1942). The eggs and early larvae of the Australianbarred Spanish mackerel, Scomberomorus.commersoni (Lacepede)with preliminary notes on the spawning of that species. Proceedings of the Royal Society of Queensland, 54(4):33-48. Newman, S. J., Buckworth, R. C., Mackie, M. C., Lewis, P. D., Wright, I. W., Williamson, P. C., Bastow, T. P., Ovenden, J. R. (2009). Spatial subdivision among assemblages of Spanish mackerel,Scomberomorus commerson(Pisces: Scombridae) across northern Australia: implications for fisheries management. Global Ecology and Biogeography, 18(6), 711-723. Neuheimer, A. B., Thresher, R. E., Lyle, J. M., Semmens. J. M. (2011). Tolerance limit for fish growth exceeded by warming waters. Nature Climate Change, VOL 1, 110-113. Newman, S. J., Mackie, M. C., Lewis, P. D. (2012). Age-based demography and relative fisheries productivity of Spanish mackerel, Scomberomorus commerson (Lacepede) in Western Australia. Fisheries Research, 129-130, 46-60. Parmentier, E. (2001). Morpho-anatomy of the otic region in carapid fishes: eco-morphological study of their otoliths. Journal of Fish Biology, 58(4), 1046-1061. Radtke, R., Dempson, J., Ruzicka, J. (1998). Microprobe analyses of anadromous Arctic charr, Salvelinus alpinus, otoliths to infer life history migration events. Polar Biology 19:1-8. Schwarcz, H. P., Gao, Y., Campana, S., Browne, D., Knyf, M., & Brand, U. (1998). Stable carbon isotope variations in otoliths of Atlantic cod (Gadus morhua). Canadian Jouirnal of Fisheries and Aquiatic Sciences, 55, 1798-1806. Shephard, S., Trueman, C., Rickaby, R., & Rogan, E. (2007). Juvenile life history of NE Atlantic orange roughy from otolith stable isotopes. Deep Sea Research Part I: Oceanographic Research Papers, 54 (8), 1221-1230. Shiao, J. C., Wang, S. W., Yokawa, K., Ichinokawa, M., Takeuchi, Y., Chen, Y. G., & Shen, C. C. (2010). Natal origin of Pacific bluefin tuna Thunnus orientalis inferred from otolith oxygen isotope composition. Marine Ecology Progress Series, 420, 207-219. Shojaei, M. G., Motlagh, S. A. T., Seyfabadi, J., Abtahi, B., & Dehghani, R. (2007). Age, growth and mortality rate of the narrow-barred Spanish Mackerel (Scomberomerus commerson Lacepede, 1800) in coastal waters of Iran from length frequency data. Turkish Journal of Fisheries and Aquatic Sciences, 7 (2). Thibault, I., Dodson, J. J., Caron, F., Tzeng, W., Iizuka, Y., & Shiao, J. (2007). Facultative catadromy in American eels: testing the conditional strategy hypothesis. Marine Ecology Progress Series, 344, 219-229. Thomassen, S., Pedersen, M. I., & Holdensgaard, G. (2000). Tagging the European eel Anguilla anguilla (L.) with coded wire tags. Aquaculture, 185(1), 57-61. Thorrold, S. R., Campana, S. E., Jones, C. M., & Swart, P. K. (1997). Factors determining δ13C and δ18O fractionation in aragonitic otoliths of marine fish. Geochimica et Cosmochimica Acta, 61 (14), 2909-2919. Thorrold, S. R., Jones, G. P., Hellberg, M. E., Burton, R. S., Swearer, S. E., Neigel, J. E., Morgan, S. G., Warner, R. R. (2002). Quantifying larval retention and connectivity in marine populations with artificial and natural markers. Bulletin of Marine Science, 70 (1), 291-308. Thorrold, S. R., Jones, G. P., Planes, S., & Hare, J. A. (2006). Transgenerational marking of embryonic otoliths in marine fishes using barium stable isotopes. Canadian Journal of Fisheries and Aquatic Sciences, 63 (6), 1193-1197. von Bertalanffy, L., 1938. A quantitative theory of organic growth (inquiries on growth laws II). Human Biol. 10, 181–213. Williamson, D. H., Jones, G. P., Thorrold, S. R., & Frisch, A. J. (2009). Transgenerational marking of marine fish larvae: stable-isotope retention, physiological effects and health issues. Journal of Fish Biology, 74(4), 891-905. 翁進興，蔡忠和，洪杰庭，蕭琍婷，黃星翰，陳秋月，吳龍靜(2016) 澎湖海域康氏馬加鰆的生殖季節初探，水試專訓，第54期，第1-4頁張志成(2000) 臺灣海水氧同位素組成之時空分布變化，國立中山大學海洋地質及化學研究所，碩士論文，共114頁曾文陽，陳春輝，陳宗雄，胡興華，陳貴香，鮑務瑄(1971) 臺灣產鰆魚之初步研究，臺灣省水產試驗所試驗報告，第18號，第89-133頁
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/handle/123456789/1260	-
dc.description.abstract	康氏馬加鰆，又名土魠魚，是臺灣重要的經濟魚種。根據漁業年報的資料顯示，澎湖的康氏馬加鰆產量已明顯減少，需要強化基礎研究以利漁業管理。本研究以康氏馬加鰆的耳石邊緣明暗帶比例於各月份的消長，驗證耳石輪紋的周期性，再以耳石輪紋估計的年齡和體長資料建立成長曲線和Age-Length Key。結果顯示康氏馬加鰆耳石沉積暗帶的高峰期在12月到隔年3月，而康氏馬加鰆von Bertalanffy growth equation的參數L_∞為117.4公分、K為0.5 year-1、t0為-1.04歲，0到3歲年級群在2016與2017年佔了超過90%。另外以耳石核心至邊緣的氧同位素含量變化，推測康氏馬加鰆的季節性分布。結果顯示康氏馬加鰆的稚魚於春末分布在臺灣西部沿岸以及澎湖到臺灣淺灘一帶，接著分布區域會在臺灣海峽中部分裂後分別繼續往南海及東海移動與擴張，秋季時分布區域又在臺灣海峽中部重合為一連續分布帶，在冬季時分布區域往南移動至南海，在春季時沿臺灣淺灘外側經澎湖水道延伸至臺灣西部沿岸。康氏馬加鰆的季節性分布和溫度23-25℃分布帶的變化有密切關係，推測土魠魚的季節性分布和中國沿岸流與黑潮的鋒面有關。	zh_TW
dc.description.abstract	Narrow-barred Spanish mackerel, Scomberomorus commerson, is a highly valued food fish in Taiwan and is widely distributed from South Africa to Southeast Asia, north to China and Japan and south to southeast Australia. According to the fishery statistics reports, the catch of S. commerson dramatically drop after 2003 and enhancing fishery research and management are imperative. Totally 324 otoliths were examined to validate the period of opaque zone formation, which was the basis for the studies of age, growth and age compositions of S. commerson landed in Taiwan. The generated von Bertalanffy growth equation had L∞ = 117.4 cm, K = -0.5 year-1, t0 = -1.04 years. The age classes of 0-3 years constitute more than 90% of the catch in 2016 and 2017. Otolith stable oxygen isotope, sea sanility and water temperature was also used in estimating the seasonal distribution of S. commerson catched near Penghu island. The results suggested that the juvenile S. commerson were likely to distribute near Taiwan Banks and western coasts of Taiwan in spring, followed by the movement to East China Sea or South China Sea from spring to summer and returned to Taiwan strait in autumn. Then the fish moved into South China Sea again in winter. The fish might return to Taiwan Banks in spring of following year. The seasonal distribution of the juvenile S. commerson was closely associated with the mean water temperature of 23-25℃, which might be influenced by the Kuroshio and China coastal current.	en
dc.description.provenance	Made available in DSpace on 2021-05-12T09:35:06Z (GMT). No. of bitstreams: 1 ntu-107-R04241213-1.pdf: 22477299 bytes, checksum: 97614acc9fed791f5f6d99aee96a6c65 (MD5) Previous issue date: 2018	en
dc.description.tableofcontents	致謝 i 摘要 ii Abstract iii 目錄 iv 表格目錄 vi 圖目錄 vii 壹、前言 1 貳、材料方法 5 2.1 樣本來源 5 2.2耳石樣本處理及分析 5 2.2.1 耳石樣本製備 6 2.2.2 年輪週期驗證、年輪判讀和日輪樣本處理 6 2.2.3 耳石穩定性碳、氧同位素分析 7 2.3 年齡與成長 8 2.3.1 年齡估計 8 2.3.2 年輪判讀和年齡估計精準度分析 9 2.3.3 成長方程式 10 2.3.4 年齡與長度對應表 10 2.4 季節性分布估計 10 2.4.1 穩定性氧同位素值對應日期估計 10 2.4.2 臺灣周邊海域之耳石穩定性氧同位素分布估計 11 叁、結果 13 3.1年輪週期驗證 13 3.2 年齡與成長 14 3.2.1 耳石年輪判讀精準度 14 3.2.2 成長方程式 14 3.2.3 年齡與長度對應表 14 3.3氧同位素變化趨勢 15 3.4季節性分布 15 肆、討論 18 4.1年輪週期驗證 18 4.2 年齡與成長 20 4.3 漁獲年齡組成 21 4.4 等高線頻率分析、平均差分析與方均根誤差分析之差異 22 4.5康氏馬加鰆之季節性分布與生活史 24 4.6耳石穩定性氧同位素與魚隻分布動態 25 五、結論 28 參考文獻 29
dc.language.iso	zh-TW
dc.title	臺灣近海康氏馬加鰆之年齡成長與季節性分布	zh_TW
dc.title	Age, growth and seasonal distribution of narrow-barred Spanish mackerel (Scomberomorus commerson) in the water off Taiwan	en
dc.type	Thesis
dc.date.schoolyear	106-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	翁進興,王慧瑜,張以杰
dc.subject.keyword	康氏馬加鰆,年齡成長,耳石穩定性同位素,季節性分布,	zh_TW
dc.subject.keyword	narrow-barred Spanish mackerel (Scomberomorus commerson),age and growth,otolith stable oxygen isotope,seasonal distribution,	en
dc.relation.page	114
dc.identifier.doi	10.6342/NTU201800630
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2018-02-22
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	海洋研究所	zh_TW
顯示於系所單位：	海洋研究所

文件中的檔案：

檔案	大小	格式
ntu-107-1.pdf	21.95 MB	Adobe PDF	檢視/開啟

顯示文件簡單紀錄

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。