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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 孫志陸(Chi-Lu Sun) | |
dc.contributor.author | Po-Yuan Chen | en |
dc.contributor.author | 陳柏沅 | zh_TW |
dc.date.accessioned | 2021-06-16T05:36:38Z | - |
dc.date.available | 2015-08-17 | |
dc.date.copyright | 2014-08-17 | |
dc.date.issued | 2014 | |
dc.date.submitted | 2014-08-12 | |
dc.identifier.citation | Arrizabalaga, H., P. de Bruyn, G. A. Diaz, H. Murua, P. Chavance, A. D. de Molina, D. Gaertner, J. Ariz, J. Ruiz, & L. T. Kell. (2011). Productivity and susceptibility analysis for species caught in Atlantic tuna fisheries. Aquatic Living Resources, 24(1), 1-12.
Ashida, H., T. Tanabe, N. Suzuki, A. Fukui, & S. Tanaka. (2008). Spawning frequency and batch fecundity of skipjack tuna Katsuwonus pelamis in the tropical west-central Pacific Ocean. Nippon Suisan Gakkaishi, 74(5), 802-808. Astles, K. L., M. G. Holloway, A. Steffe, M. Green, C. Ganassin, & P. J. Gibbs. (2006). An ecological method for qualitative risk assessment and its use in the management of fisheries in New South Wales, Australia. Fisheries Research, 82, 290-303. Au, D. W. (1998). Protecting the reproductive value of swordfish, Xiphias gladius, and other billfishes. NOAA Technical Report NMFS, 142, 219-225. Bertrand, A., E. Josse, P. Bach, P. Gros, & L. Dagorn. (2002). Hydrological and trophic characteristics of tuna habitat: consequences on tuna distribution and longline catchability. Canadian Journal of Fisheries and Aquatic Sciences, 59, 1002-1013. Beverly, S., D. Curran, M. Musyl, & B. Molony. (2009). Effects of eliminating shallow hooks from tuna longline sets on target and non-target species in the Hawaii-based pelagic tuna fishery. Fisheries Research, 96, 281-288. Beverton, R. J. H. (1992). Patterns of reproductive strategy parameters in some marine teleost fishes. Journal of Fish Biology, 41, 137-160. Block, B. A., D. T. Booth, & F. G. Carey. (1992). Depth and temperature of the blue marlin, Makaira nigricans, observed by acoustic telemetry. Marine Biology, 114, 175-183. Brill, R. W., B. A. Block, C. H. Boggs, K. A. Bigelow, E. V. Freund, & D. J. Marcinek. (1999). Horizontal movements and depth distribution of large adult yellowfin tuna (Thunnus albacares) near the Hawaiian Islands, recorded using ultrasonic telemetry: implications for the physiological ecology of pelagic fishes. Marine Biology, 133, 395-408. Brill, R. W., D. B. Holts, R. K. C. Chang, S. Sullivan, H. Dewar, & F. G. Carey. (1993). Vertical and horizontal movements of striped marlin (Tetrapturus audax) near the Hawaiian Islands, determined by ultrasonic telemetry, with simultaneous measurement of oceanic currents. Marine Biology, 117, 567-574. Brodziak, J. (2009). Potential natural mortality rates of north Pacific swordfish, Xiphias gladius. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). ISC/09/BILLWG-1/13. 20pp. Brodziak, J., & G. Ishimura. (2011). Development of Bayesian production models for assessing the north Pacific swordfish population. Fisheries Science, 77(1), 23-34. Campbell, R. A., & J. W. Young. (2012). Monitoring the behaviour of longline gears and the depth and time of fish capture in the Australian Eastern Tuna and Billfish Fishery. Fisheries Research, 119, 48-65. Chang, Y. J., J. Brodziak, H. H. Lee, G. DiNardo, & C. L. Sun. (2013). A Bayesian hierarchical meta-analysis of blue marlin (Makaira nigricans) growth in the Pacific Ocean. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). ISC/13/BILLWG-1/02. 22pp. Chen, K. S., P. Crone, & C. C. Hsu. (2006). Reproductive biology of female Pacific bluefin tuna Thunnus orientalis from south-western North Pacific Ocean. Fisheries Science, 72(5), 985-994. Chen, K. S., P. R. Crone, & C. C. Hsu. (2010). Reproductive biology of albacore Thunnus alalunga. Journal of Fish Biology, 77(1), 119-136. Chen, K. S., T. Shimose, T. Tanabe, C. Y. Chen, & C. C. Hsu. (2012). Age and growth of albacore Thunnus alalunga in the North Pacific Ocean. Journal of Fish Biology, 80, 2328-2344. Chiang, W. C., M. K. Musyl, C. L. Sun, S. Y. Chen, W. Y. Chen, D. C. Liu, W. C. Su, S. Z. Yeh, S. C. Fu, & T. L. Huang. (2011). Vertical and horizontal movements of sailfish (Istiophorus platypterus) near Taiwan determined using pop-up satellite tags. Journal of Experimental Marine Biology and Ecology, 397(2), 129-135. Chiang, W. C., C. L. Sun, S. P. Wang, S. Z. Yeh, Y. Chen, W. C. Su, D. C. Liu, & W. Y. Chen. (2009). Analysis of sex-specific spawning biomass per recruit of the sailfish (Istiophorus platypterus) in the waters off eastern Taiwan. Fishery Bulletin, 107(3), 265-277. Chiang, W. C., C. L. Sun, S. Z. Yeh, & W. C. Su. (2004). Age and growth of sailfish (Istiophorus platypterus) in waters off eastern Taiwan. Fishery Bulletin, 102(2), 251-263. Chiang, W. C., C. L. Sun, S. Z. Yeh, W. C. Su, & D. C. Liu. (2006a). Spawning frequency and batch fecundity of the sailfish (Istiophorus platypterus) (Istiophoridae) in waters off Eastern Taiwan. Zoological Studies, 45(4), 483-491. Chiang, W. C., C. L. Sun, S. Z. Yeh, W. C. Su, D. C. Liu, & W. Y. Chen. (2006b). Sex ratios, size at sexual maturity, and spawning seasonality of sailfish Istiophorus platypterus from eastern Taiwan. Bulletin of Marine Science, 79(3), 727-737. Cope, J. M., J. DeVore, E. J. Dick, K. Ames, J. Budrick, D. L. Erickson, J. Grebel, G. Hanshew, R. Jones, L. Mattes, C. Niles, & S. Williams. (2011). An approach to defining stock complexes for U.S. West Coast groundfishes using vulnerabilities and ecological distributions. North American Journal of Fisheries Management, 31(4), 589-604. Cortes, E., F. Arocha, L. Beerkircher, F. Carvalho, A. Domingo, M. Heupel, H. Holtzhausen, M. N. Santos, M. Ribera, & C. Simpfendorfer. (2010). Ecological risk assessment of pelagic sharks caught in Atlantic pelagic longline fisheries. Aquatic Living Resources, 23(1), 25-34. Courtney, D., & K. Piner. (2010). Age structured stock assessment of North Pacific swordfish (Xiphias gladius) with Stock Syntheiss under a two stock scenario. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). ISC/10/BILLWG-1/01. 84pp. Cox, S. P., T. E. Essington, J. F. Kitchell, S. J. D. Martell, C. J. Walters, C. Boggs, & I. Kaplan. (2002). Reconstructing ecosystem dynamics in the central Pacific Ocean, 1952-1998. II. A preliminary assessment of the trophic impacts of fishing and effects on tuna dynamics. Canadian Journal of Fisheries and Aquatic Sciences, 59(11), 1736-1747. Dagorn, L., P. Bach, & E. Josse. (2000). Movement patterns of large bigeye tuna (Thunnus obesus) in the open ocean, determined using ultrasonic telemetry. Marine Biology, 136(2), 361-371. Davies, N., S. Hoyle, & J. Hampton. (2012). Stock assessment of striped marlin (Kajikia audax) in the southwest Pacific Ocean Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC8-2012/SA-WP-05. 84pp. Davies, N., S. Hoyle, S. Harley, A. Langley, P. Kleiber, & J. Hampton. (2011). Stock assessment of bigeye tuna in the western and central Pacific Ocean. Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC7-2011/SA-WP-02. 133pp. DeMartini, E. E., J. H. Uchiyama, R. L. Humphreys Jr., J. D. Sampaga, & H. A. Williams. (2007). Age and growth of swordfish (Xiphias gladius) caught by the Hawaii-based pelagic longline fishery. Fishery Bulletin, 105(3), 356-367. Devine, J. A., L. Watling, G. Cailliet, J. Drazen, P. Duran Munoz, A. M. Orlov, & J. Bezaury. (2012). Evaluation of potential sustainability of deep-sea fisheries for grenadiers (Macrouridae). Journal of Ichthyology, 52(10), 709-721. Dewar, H., E. D. Prince, M. K. Musyl, R. W. Brill, C. Sepulveda, J. Luo, D. Foley, E. S. Orbesen, M. L. Domeier, N. Nasby-Lucas, D. Snodgrass, R. M. Laurs, J. P. Hoolihan, B. A. Block, & L. M. Mcnaughton. (2011). Movements and behaviors of swordfish in the Atlantic and Pacific Oceans examined using pop‐up satellite archival tags. Fisheries Oceanography, 20(3), 219-241. Dizon, A. E., R. W. Brill, & H. S. H. Yuen. (1978). The Physiological Ecology of Tunas. Academic Press, INC. p.233-259. Dransfeld, L., H. D. Gerritsen, N. R. Hareide, & P. Lorance. (2013). Assessing the risk of vulnerable species exposure to deepwater trawl fisheries: the case of orange roughy Hoplostethus atlanticus to the west of Ireland and Britain. Aquatic Living Resources, 26, 307-318. FAO (2013). FishStatJ software for fishery statistical time series. Version 2.1.1. FAO Fisheries Department, Fishery Information, Data and Statistics Unit. Farley, J. H., N. P. Clear, B. Leroy, T. L. O. Davis, & G. McPherson. (2006). Age, growth and preliminary estimates of maturity of bigeye tuna, Thunnus obesus, in the Australian region. Marine and Freshwater Research, 57(7), 713-724. Farley, J. H., S. D. Hoyle, J. P. Eveson, A. J. Williams, C. R. Davies, & S. J. Nicol. (2014). Maturity ogives for South Pacific albacore tuna (Thunnus alalunga) that account for spatial and seasonal variation in the distributions of mature and immature fish. Plos One, 9(1), e83017. Farley, J. H., A. J. Williams, C. R. Davies, N. P. Clear, J. P. Eveson, S. D. Hoyle, & S. J. Nicol. (2012). Population biology of albacore tuna in the Australian region. Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC8-2012/SA-IP-15. 124pp. Farley, J. H., A. J. Williams, S. D. Hoyle, C. R. Davies, & S. J. Nicol. (2013). Reproductive dynamics and potential annual fecundity of South Pacific albacore tuna (Thunnus alalunga). Plos One, 8(4), e60577. Field, J., J. Cope, & M. Key. (2010). A descriptive example of applying vulnerability evaluation criteria to California nearshore finfish species. Managing Data-Poor Fisheries: Case Studies, Models & Solutions, 1, 235-246. Froese, R., & C. Binohlan. (2000). Empirical relationships to estimate asymptotic length, length at first maturity and length at maximum yield per recruit in fishes, with a simple method to evaluate length frequency data. Journal of Fish Biology, 56(4), 758-773. Furukawa, S., R. Kawabe, S. Ohshimo, K. Fujioka, G. N. Nishihara, Y. Tsuda, T. Aoshima, H. Kanehara, & H. Nakata. (2011). Vertical movement of dolphinfish Coryphaena hippurus as recorded by acceleration data-loggers in the northern East China Sea. Environmental biology of fishes, 92(1), 89-99. Furukawa, S., S. Ohshimo, S. Tomoe, T. Shiraishi, N. Nakatsuka, & R. Kawabe. (2012). Age, growth, and reproductive characteristics of dolphinfish Coryphaena hippurus in the waters off west Kyushu, northern East China Sea. Fisheries Science, 78(6), 1153-1162. Gedamke, T., J. M. Hoenig, J. A. Musick, W. D. DuPaul, & S. H. Gruber. (2007). Using demographic models to determine intrinsic rate of increase and sustainable fishing for elasmobranchs: pitfalls, advances, and applications. North American Journal of Fisheries Management, 27(2), 605-618. Griffiths, S. P. (2010). Stock assessment and efficacy of size limits on longtail tuna (Thunnus tonggol) caught in Australian waters. Fisheries Research, 102(3), 248-257. Griffiths, S. P., G. C. Fry, F. J. Manson, & D. C. Lou. (2010a). Age and growth of longtail tuna (Thunnus tonggol) in tropical and temperate waters of the central Indo-Pacific. ICES Journal of Marine Science, 67(1), 125-134. Griffiths, S. P., J. Pepperell, M. Tonks, W. Sawynok, L. Olyott, S. Tickell, M. Zischke, J. Lynne, J. Burgess, E. Jones, D. Joyner, C. Makepeace, & K. Moyle. (2010b). Biology, fisheries and status of longtail tuna (Thunnus tonggol), with special reference to recreational fisheries in Australian waters. CSIRO Marine and Atmospheric Research. 101pp. Griggs, L., M. Francis, & C. O. Maolagain. (2005). Growth Rate, age at maturity, longevity, and natural mortality rate of swordfish (Xiphias gladius). Ministry of Fisheries. 29pp. Gunn, J. S., T. A. Patterson, & J. G. Pepperell. (2003). Short-term movement and behaviour of black marlin Makaira indica in the Coral Sea as determined through a pop-up satellite archival tagging experiment. Marine and Freshwater Research, 54(4), 515-525. Haddon, M. (2011). Modelling and quantitative methods in fisheries (Second Edition). CRC Press. 449pp. Harley, S., & M. Maunder. (2003). A simple model for age-structured natural mortality based on changes in sex ratios. Inter-American Tropical Tuna Commission. 4th Meeting of the Scientific Working Group. 22pp. Harwood, J. (2000). Risk assessment and decision analysis in conservation. Biological Conservation 95, 219-226. Havice, E. (2013). Rights-based management in the Western and Central Pacific Ocean tuna fishery: economic and environmental change under the Vessel Day Scheme. Marine Policy, 42, 259-267. Hilborn, R., & C. J. Walters. (1992). Quantitative fisheries stock assessment: choice, dynamics and uncertainty. Chapman & Hall. 570pp. Hill, K. T. (1986). Age and growth of the Pacific blue marlin, Makaira nigricans: a comparison of growth zones in otoliths, vertebrae, and dorsal and anal fin spines. California State University. 107pp. Hobday, A. J., A. D. M. Smith, I. C. Stobutzki, C. Bulman, R. Daley, J. M. Dambacher, R. A. Deng, J. Dowdney, M. Fuller, D. Furlani, S. P. Griffiths, D. Johnson, R. Kenyon, I. A. Knuckey, S. D. Ling, R. Pitcher, K. J. Sainsbury, M. Sporcic, T. Smith, C. Turnbull, T. I. Walker, S. E. Wayte, H. Webb, A. Williams, B. S. Wise, & S. Zhou. (2011). Ecological risk assessment for the effects of fishing. Fisheries Research, 108, 372-384. Hoenig, J. M. (1983). Empirical use of longevity data to estimate mortality rates. Fishery Bulletin, 82(1), 898-903. Holland, K., R. Brill, & R. K. C. Chang. (1990). Horizontal and vertical movements of Pacific blue marlin captured and released using sportfishing gear. Fishery Bulletin, 88(2), 397-402. Hoyle, S., J. Hampton, & N. Davies. (2012). Stock assessment of albacore tuna in the south Pacific ocean. Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC8-2012/SA-WP-04-REV1. 123pp. Hoyle, S., P. Kleiber, N. Davies, A. Langley, & J. Hampton. (2011). Stock assessment of skipjack tuna in the western and central Pacific Ocean. Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC7-2011/SA-WP-04. 133pp. Hoyle, S., S. Nicol, & D. Itano. (2009). Revised biological parameter estimates for application in yellowfin stock assessment. Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC5-2009/BI-WP-3 rev2. 11pp. ISC. (2009). Report of the billfish working group workshop. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). May, 19-26, 2009, Busan, Korea, USA. 74pp. ISC. (2011). Stock assessment of albacore tuna in the north Pacific Ocean in 2011 International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). June, 4-11, 2011, Shizuoka, Japan. 143pp. ISC. (2012). Stock assessment of striped marlin in the western and central north Pacific Ocean in 2011. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). July, 2012, Sapporo, Japan. ISC/SAR/MLS/2012. 117pp. ISC. (2013a). Stock assessment of blue marlin in the Pacific Ocean in 2013. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). July, 17-22, 2013, Busan, Korea. 120pp. ISC. (2013b). Stock assessment of Pacific bluefin tuna in 2012. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). August, 6-14, 2013, Pohnpei, Federated States of Micronesia. 119pp. Itano, D. G. (2000). The reproductive biology of yellowfin tuna (Thunnus albacares) in Hawaiian waters and the western tropical Pacific Ocean: project summary. University of Hawaii, Joint Institute for Marine and Atmospheric Research. 69pp. Jensen, A. L. (1996). Beverton and Holt life history invariants result from optimal trade-off of reproduction and survival. Canadian Journal of Fisheries and Aquatic Sciences, 53(4), 820-822. Kitagawa, T., H. Nakata, S. Kimura, T. Itoh, S. Tsuji, & A. Nitta. (2000). Effect of ambient temperature on the vertical distribution and movement of Pacific bluefin tuna Thunnus thynnus orientalis. Marine Ecology Progress Series, 206, 251-260. Kolody, D., R. Campbell, & N. Davies. (2008). A multifan-CL stock assessment for south-west Pacific swordfish 1952–2007. Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC4-2008/SA-WP-6(REVISION 1). 90pp. Kopf, R. K., P. S. Davie, D. Bromhead, & J. G. Pepperell. (2011). Age and growth of striped marlin (Kajikia audax) in the Southwest Pacific Ocean. ICES Journal of Marine Science, 68(9), 1884-1895. Kopf, R. K., P. S. Davie, D. B. Bromhead, & J. W. Young. (2012). Reproductive biology and spatiotemporal patterns of spawning in striped marlin Kajikia audax. Journal of Fish Biology, 81(6), 1834-1858. Kopf, R. K., J. Pepperell, & P. S. Davie. (2009). A preliminary report on age, growth, and reproductive dynamics of striped marlin (Kajikia audax) in the southwest Pacific Ocean. Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC5-2005/BI-WP-01. 37pp. Langley, A., S. Hoyle, & J. Hampton. (2011). Stock assessment of yellowfin tuna in the western and central Pacific Ocean. Western and Central Pacific Fisheries Commission (WCPFC). WCPFC-SC7-2011/SA-WP-03. 132pp. Lehodey, P., & B. Leroy. (1999). Age and growth of yellowfin tuna (Thunnus albacares) from the western and central Pacific Ocean as indicated by daily growth increments and tagging data. Standing Committee on Tuna and Billfish. Working Paper YFT-2, SCTB. 21pp. Leslie, H. M., A. A. Rosenberg, & J. Eagle. (2008). Is a new mandate needed for marine ecosystem-based management? Frontiers in Ecology and the Environment, 6(1), 43-48. Maccall, A. D. (1990). Dynamic geography of marine fish populations. Univ. Washington Press, Seattle. US. 163pp. Marcinek, D. J., S. B. Blackwell, H. Dewar, E. V. Freund, C. Farwell, D. Dau, A. C. Seitz, & B. A. Block. (2001). Depth and muscle temperature of Pacific bluefin tuna examined with acoustic and pop-up satellite archival tags. Marine Biology, 138(4), 869-885. McDowell, J. R., & J. E. Graves. (2008). Population structure of striped marlin (Kajikia audax) in the Pacific Ocean based on analysis of microsatellite and mitochondrial DNA. Canadian Journal of Fisheries and Aquatic Sciences, 65(7), 1307-1320. Milton, D. A. (2001). Assessing the susceptibility to fishing of populations of rare trawl bycatch: sea snakes caught by Australia's northern prawn fishery. Biological Conservation, 101, 281-290 Murua, H., G. Kraus, F. Saborido-Rey, P. R. Witthames, A. Thorsen, & S. Junquera. (2003). Procedures to estimate fecundity of marine fish species in relation to their reproductive strategy. Journal of Northwest Atlantic Fishery Science, 33, 33-54. Musyl, M. K., R. W. Brill, C. H. Boggs, D. S. Curran, T. K. Kazama, & M. P. Seki. (2003). Vertical movements of bigeye tuna (Thunnus obesus) associated with islands, buoys, and seamounts near the main Hawaiian Islands from archival tagging data. Fisheries Oceanography, 12(3), 152-169. Nakamura, I. (1969). Big catches of longtail tuna in Wakasa Bay, Japan. Japanese Journal of Ichthyology, 15, 160-161. Ormseth, O. A., & P. D. Spencer. (2011). An assessment of vulnerability in Alaska groundfish. Fisheries Research, 112(3), 127-133. Palko, B. J., G. L. Beardsley, & W. J. Richards. (1981). Synopsis of the biology of the swordfish, Xiphias gladius Linnaeus. NOAA Technical Report, NMFS(441). U.S. Department of Commerce. NOAA. National Marine Fisheries Service: Seattle. 21pp. Patrick, W. S., P. Spencer, J. Link, J. Cope, J. Field, D. Kobayashi, P. Lawson, T. Gedamke, E. Cortes, O. Ormseth, K. Bigelow, & W. Overholtz. (2010). Using productivity and susceptibility indices to assess the vulnerability of United States fish stocks to overfishing. Fishery Bulletin, 108, 305-322. Pauly, D. (1980). On the interrelationships between natural mortality, growth parameters, and mean environmental temperature in 175 fish stocks. Journal du Conseil - Conseil international pour l'exploration de la mer, 39(2), 175-192. Pauly, D., V. Christensen, J. Dalsgaard, R. Froese, & F. Torres. (1998). Fishing down marine food webs. Science, 279, 860-863. Pepperell, J. G., & T. L. O. Davis. (1999). Post-release behaviour of black marlin, Makaira indica, caught off the Great Barrier Reef with sportfishing gear. Marine Biology, 135(2), 369-380. Piner, K. R., H. H. Lee, A. Kimoto, I. G. Taylor, M. Kanaiwa, & C. L. Sun. (2013). Population dynamics and status of striped marlin (Kajikia audax) in the western and central northern Pacific Ocean. Marine and Freshwater Research, 64(2), 108-118. Purcell, C. M., & S. Edmands. (2011). Resolving the genetic structure of striped marlin, Kajikia audax, in the Pacific Ocean through spatial and temporal sampling of adult and immature fish. Canadian Journal of Fisheries and Aquatic Sciences, 68(11), 1861-1875. Radtke, R. L., & B. S. Shepherd. (1991). Current methodological refinements for the acquisition of life history information in fishes: paradigms from pan-oceanic billfishes. Comparative Biochemistry and Physiology Part A: Physiology, 100(2), 323-333. Reeb, C. A., L. Arcangeli, & B. A. Block. (2000). Structure and migration corridors in Pacific populations of the swordfish Xiphius gladius, as inferred through analyses of mitochondrial DNA. Marine Biology, 136(6), 1123-1131. Russell, E. S. (1931). Some theoretical considerations on the “overfishing” problem. Journal du Conseil - Conseil international pour l'exploration de la mer, 6(1), 3-20. Sepulveda, C. A., S. A. Aalbers, S. Ortega-Garcia, N. C. Wegner, & D. Bernal. (2011). Depth distribution and temperature preferences of wahoo (Acanthocybium solandri) off Baja California Sur, Mexico. Marine Biology, 158(4), 917-926. Shimose, T., M. Fujita, K. Yokawa, H. Saito, & K. Tachihara. (2009a). Reproductive biology of blue marlin Makaira nigricans around Yonaguni Island, southwestern Japan. Fisheries Science, 75(1), 109-119. Shimose, T., T. Tanabe, K. S. Chen, & C. C. Hsu. (2009b). Age determination and growth of Pacific bluefin tuna, Thunnus orientalis, off Japan and Taiwan. Fisheries Research, 100(2), 134-139. Siddeek, M. S. M. (1995). Review of fisheries biology of Scomberomorus and Acanthocybium species in the western Indian Ocean (FAO Area 51). Working group on pelagics, gulfs committee for Fisheries management and development, working paper WGP 95/2. 32pp. Sippel, T., J. Holdsworth, T. Dennis, & J. Montgomery. (2011). Investigating behaviour and population dynamics of striped marlin (Kajikia audax) from the southwest Pacific Ocean with satellite tags. Plos One, 6(6), e21087. Speare, P. (1995). Parasites as biological tags for sailfish Istiophorus platypterus from east coast Australian waters. Marine Ecology Progress Series, 118, 43-50. Stocker, S. (1999). Models for tuna school formation. Mathematical Biosciences, 156(1), 167-190. Stearns, S. C. (1992). The evolution of life histories. Oxford University Press, New York. 249pp. Stobutzki, I. C., M. J. Miller, P. Jones, & J. P. Salini. (2001). Bycatch diversity and variation in a tropical Australian penaeid fishery; the implications for monitoring. Fisheries Research, 53(3), 283-301. Sumaila, U. R., A. Dyck, & A. Baske. (2014). Subsidies to tuna fisheries in the Western Central Pacific Ocean. Marine Policy, 43, 288-294. Sun, C. L., Y. J. Chang, C. C. Tszeng, S. Z. Yeh, & N. J. Su. (2009). Reproductive biology of blue marlin (Makaira nigricans) in the western Pacific Ocean. Fishery Bulletin, 107(4), 420-432. Sun, C. L., W. S. Hsu, N. J. Su, S. Z. Yeh, Y. J. Chang, & W. C. Chiang. (2011). Age and growth of striped marlin (Kajikia audax) in the waters off Taiwan: A revision. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). ISC/11/BILLWG-2/07. 14pp. Sun, C. L., C. L. Huang, & S. Z. Yeh. (2001). Age and growth of the bigeye tuna, Thunnus obesus, in the western Pacific Ocean. Fishery Bulletin, 99(3), 502-509. Sun, C. L., S. P. Wang, & S. Z. Yeh. (2002). Age and growth of the swordfish (Xiphias gladius L.) in the waters around Taiwan determined from anal-fin rays. Fishery Bulletin, 100(4), 822-835. Sun, C. L., S. Z. Yeh, Y. J. Chang, H. Y. Chang, & S. L. Chu. (2013). Reproductive biology of female bigeye tuna Thunnus obesus in the western Pacific Ocean. Journal of Fish Biology, 83(2), 250-271. Suzuki, J., Y. Warashina, & M. Kishida. (1977). The comparison of catches by regular and deep tuna longline gears in the western and central equatorial Pacific. Bulletin-Far Seas Fisheries Research Laboratory (Japan), 15, 51-89. Takagi, M., T. Okamura, S. Chow, & N. Taniguchi. (2001). Preliminary study of albacore (Thunnus alalunga) stock differentiation inferred from microsatellite DNA analysis. Fishery Bulletin, 99(4), 697-701. Takahashi, M., H. Okamura, K. Yokawa, & M. Okazaki. (2003). Swimming behaviour and migration of a swordfish recorded by an archival tag. Marine and Freshwater Research, 54(4), 527-534. Tanabe, T., S. Kayama, & M. Ogura. (2003). Precise age determination of young to adult skipjack tuna (Katsuwonus pelamis) with validation of otolith daily increment. 16th Meeting of the Standing Committee on Tuna and Billfish, Mooloolaba, Old, Australia, 9-16 July, WP SKJ-8. 10pp. Tanaka, S. (2006). Maturation of bluefin tuna in the Sea of Japan. International Scientific Committee for Tuna and Tuna-like Species in the North Pacific Ocean (ISC). ISC/06/PBFWG/09. Taquet, M., L. Dagorn, J.-C. Gaertner, C. Girard, R. Aumerruddy, G. Sancho, & D. Itano. (2007). Behavior of dolphinfish (Coryphaena hippurus) around drifting FADs as observed from automated acoustic receivers. Aquatic Living Resources, 20(4), 323-330. Taylor, C. C. (1958). Cod growth and temperature. Journal du Conseil - Conseil international pour l'exploration de la mer, 23(3), 366-370. Uchiyama, J. H., & R. S. Shomura. (1974). Maturation and fecundity of swordfish, Xiphias gladius, from Hawaiian waters. US Nat. Mar. Fish. Serv., NOAA Tech. Rep. NMFS SSRF-675 (2), 142-147. Uchiyama, J. H., & P. Struhsaker. (1981). Age and growth of skipjack tuna, Katsuwonus pelamis, and yellowfin tuna, Thunnus albacares, as indicated by daily growth increments of sagittae. Fishery Bulletin, 79(1), 151-162. Ueyanagi, S. (1957). Spawning of the albacore in the Western Pacific. Rep. Nankai Reg. Fish. Res. Lab, 6, 113-124. Uosaki, K. (2004). Preliminary results obtained from tagging of north Pacific albacore with archival tag. Col. Vol. Sci. Pap. ICCAT, 56(4), 1496-1503. von Bertalanffy, L. (1938). A quantitative theory of organic growth (inquiries on growth laws. II). Human biology, 10(2), 181-213. Wang, S. P., C. L. Sun, & S. Z. Yeh. (2003). Sex ratios and sexual maturity of swordfish (Xiphias gladius L.) in the waters of Taiwan. Zoological Studies, 42(4), 529-539. Waugh, S. M., D. P. Filippi, D. S. Kirby, E. Abraham, & N. Walker. (2012). Ecological Risk Assessment for seabird interactions in Western and Central Pacific longline fisheries. Marine Policy, 36(4), 933-946. WCPFC (2012). WCPFC Tuna Fishery Yearbook. http://www.wcpfc.int/statistical- bulletins Wu, C. C., W. C. Su, & T. Kawasaki. (2001). Reproductive biology of the dolphin fish Corphaena hippurus on the east coast of Taiwan. Fisheries Science, 67(5), 784-793. Young, J., & A. Drake. (2004). Age and growth of broadbill swordfish (Xiphius gladius) from Australian waters. Final report for project 2001/014. CSIRO Marine Research. 121pp. Young, J., A. Drake, M. Brickhill, J. Farley, & T. Carter. (2003). Reproductive dynamics of broadbill swordfish, Xiphias gladius, in the domestic longline fishery off eastern Australia. Marine and Freshwater Research, 54(4), 315-332. Zhou, S., S. P. Griffiths, & M. Miller. (2009). Sustainability assessment for fishing effects (SAFE) on highly diverse and data-limited fish bycatch in a tropical prawn trawl fishery. Marine and Freshwater Research, 60(6), 563-570. Zischke, M. T. (2012). A review of the biology, stock structure, fisheries and status of wahoo (Acanthocybium solandri), with reference to the Pacific Ocean. Fisheries Research, 119-120, 13-22. Zischke, M. T., J. H. Farley, S. P. Griffiths, & I. R. Tibbetts. (2013a). Reproductive biology of wahoo, Acanthocybium solandri, off eastern Australia. Reviews in Fish Biology and Fisheries, 23(4), 491-506. Zischke, M. T., S. P. Griffiths, & I. R. Tibbetts. (2013b). Rapid growth of wahoo (Acanthocybium solandri) in the Coral Sea, based on length-at-age estimates using annual and daily increments on sagittal otoliths. ICES Journal of Marine Science, 70(6), 1128-1139. 方惠平 (2008)。臺灣東部海域白皮旗魚生活史參數與生物參考點之估計及相關未確定分析。國立臺灣大學碩士論文。81pp。 李倉名 (2008)。臺灣東部海域竹節鰆生活史參數與生物參考點之估計及相關未確定分析。國立臺灣大學碩士論文。75pp。 林富家 (2004)。台灣東部海域與中西太平洋正鰹之年齡與成長研究。國立臺灣大學碩士論文。79pp。 邵廣昭 (1998)。海洋生態學。國立編譯館主編。476pp。 許文聲 (2010)。台灣海域紅肉旗魚之年齡與成長研究。國立臺灣大學碩士論文。104pp。 張筱筠 (2011)。台灣海域紅肉旗魚之生殖生物學研究。國立臺灣大學碩士論文。108pp。 張芸甄 (2013)。利用穩定性同位素分析探討臺灣東部海域旗魚之食物階層動態。國立臺灣大學碩士論文。66pp。 陳國書 (2000)。西南北太平洋產黑鮪之生殖生物學研究。國立臺灣大學碩士論文。64pp。 陳郁凱、陳文義、江偉全、林富家、許紅虹、蘇偉成 (2006)。以多體長頻度分析法(MULTIFAN)估計台灣東部海域鬼頭刀之年齡、成長及死亡率。水產研究,14(1): 37-48。 連永祥 (2013)。中西北太平洋紅肉旗魚時空分布與資源評估。國立臺灣大學博士論文。87pp。 黃隆鑫 (2013)。以整合性生態風險評估探討臺灣近海延繩釣漁業對西北太平洋大型表層魚類之影響。國立臺灣海洋大學碩士論文。69pp。 詹欣蓉 (2011)。以整合性生態風險評估探討台灣延繩釣漁業對西北太平洋表層鯊魚之影響。國立臺灣海洋大學碩士論文。90pp。 劉建賢 (2006)。台灣東部海域白皮旗魚之年齡與成長研究。國立臺灣大學碩士論文。88pp。 劉宗昀 (2007)。台灣海域與南中國海之白皮旗魚生殖生物學研究。國立臺灣大學碩士論文。112pp。 | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/56592 | - |
dc.description.abstract | 本研究採用生產力與敏感性分析(Productivity and Susceptibility Analysis, PSA)評估中西太平洋主要大型表層洄游魚類之生態風險,包括長鰭鮪、大目鮪、黃鰭鮪、太平洋黑鮪、長腰鮪、正鰹、劍旗魚、紅肉旗魚、黑皮旗魚、白皮旗魚、雨傘旗魚、鬼頭刀及竹節鰆;其中劍旗魚、紅肉旗魚和長鰭鮪分為南、北兩系群予以評估。評估生態風險包含兩大指標:生產力指標及敏感性指標,生產力為受到漁業或自然因子影響時,資源所能復育的能力,其因子包括各項生活史參數,如成長係數、自然死亡率、最大年齡、營養位階、50%成熟年齡與年孕卵數;敏感性用以評估漁業對資源的影響程度,包括區域重疊、垂直重疊、漁獲死亡率與自然死亡率的比值、市場魚價、群游行為及歷年漁獲量趨勢。本研究將生產力與敏感性以高、中、低三種等級估計各魚種之脆弱性(Vulnerability),以作為生態風險之評估標準。研究結果顯示太平洋黑鮪、白皮旗魚、大目鮪、中西北太平洋紅肉旗魚的生態風險較高,應密切監控並評估其資源現況,尤其白皮旗魚尚未有過完整資源評估,應優先蒐集評估所需的漁業與生物資料;中度生態風險之魚種包括西南太平洋劍旗魚、黑皮旗魚、南北太平洋長鰭鮪、長腰鮪、雨傘旗魚、西南太平洋紅肉旗魚及黃鰭鮪,應持續蒐集評估所需資料;生態風險較低之魚種,如中西北太平洋劍旗魚、正鰹、鬼頭刀及竹節鰆,則應持續監視其漁業的變化。各因子影響分析結果顯示,群游行為和最大年齡對生態風險評估的結果影響較大,營養位階及市場魚價影響程度相對較小。資料品質分析結果建議應加強長腰鮪、鬼頭刀及竹節鰆之漁業生物學(如生殖生物學)及營養位階的研究,另外需進一步蒐集長腰鮪的漁業資料。 | zh_TW |
dc.description.abstract | Productivity and susceptibility analysis (PSA) was used to assess the ecological risk of large migratory species in the western and central Pacific Ocean (WCPO), including albacore, bigeye tuna, yellowfin tuna, Pacific bluefin tuna, longtail tuna, skipjack tuna, swordfish, striped marlin, blue marlin, black marlin, sailfish, common dolphinfish and wahoo. Information from tuna longline (LL), tuna purse seine (PS) and pole and line (PL) fisheries was also used in the analysis. The risk for swordfish, striped marlin, and albacore was assessed by putative stock boundaries (northern and southern) in the WCPO. The productivity index represents the capacity of the stock to recover and was estimated based on biological parameters of the species, including von Bertalanffy growth coefficient, natural mortality (M), maximum age, trophic level, age at 50% maturity and annual fecundity. Six attributes for susceptibility were calculated including (1) areal overlap of fish distribution and fisheries, (2) vertical overlap (i.e., fish depth distribution and fisheries), (3) ratio of fishing mortality (F) to M, (4) fish price, (5) schooling behavior and (6) annual catch trends that represented factors to measure the potential impact of fishing on stocks. Vulnerability for each stock was calculated based on the ranking of the productivity and susceptibility attributes, which was then used to evaluate the ecological risk of the species. Results showed that the ecological risk for Pacific bluefin tuna, black marlin, bigeye tuna and the northern stock of striped marlin were high, suggesting a critical need for detailed monitoring that would, in turn, allow for stock assessments, with special reference for black marlin that to date, has not been assessed. For species identified with medium risk (such as the southern stock of swordfish, blue marlin, both stocks of albacore, longtail tuna, sailfish, the southern stock of striped marlin and yellowfin tuna), data for stock assessments should be collected continuously. The fishery using resources with lower risk (such as the northern stock of swordfish, skipjack tuna, common dolphinfish and wahoo), should be monitored closely. As indicated by removing one variable each time in the sensitivity analysis, the impacts of schooling behavior and maximum age were highly significant in the model, but were relatively minor for trophic level and fish price. The data quality analysis indentified gaps in knowledge and suggests that further studies are warranted for longtail tuna, common dolphinfish and wahoo to obtain biological parameters, and that fishery information and data should also be collected for longtail tuna. | en |
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dc.description.tableofcontents | 口試委員會審定書 I
謝辭 II 摘要 III Abstract IV 目錄 VI 圖目錄 VIII 表目錄 IX 第一章 前言 1 一、 漁業資源動態 1 二、 中西太平洋漁業概況 2 三、 生態風險評估 4 四、 研究動機與目的 5 第二章 材料與方法 6 一、 研究範圍及魚種 6 二、 生產力與敏感性分析 6 (一) 生產力因子 7 (二) 生產力指標 10 (三) 敏感性因子 10 (四) 敏感性指標 15 (五) 脆弱性指標 15 三、 各因子影響分析 16 四、 資料品質分析 16 (一) 資料品質量化 16 (二) 生產力因子 17 (三) 敏感性因子 17 (四) 資料品質指標 18 第三章 結果 20 一、 生產力與敏感性分析 20 (一) 生產力指標 20 (二) 敏感性指標 21 (三) 脆弱性指標 23 二、 各因子影響分析 24 三、 資料品質分析 24 第四章 討論 25 一、 生產力因子探討 25 二、 敏感性因子探討 27 三、 資料蒐集與權重分析 28 四、 風險評估結果探討 29 五、 目標魚種探討 31 六、 資料品質分析 31 第五章 結論與建議 33 參考文獻 34 | |
dc.language.iso | zh-TW | |
dc.title | 中西太平洋大型洄游魚類生態風險評估 | zh_TW |
dc.title | Ecological Risk Assessment of Large Migratory Species in the Western and Central Pacific Ocean | en |
dc.type | Thesis | |
dc.date.schoolyear | 102-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 劉光明(Kuang-Ming Liu),莊守正(Shou-Jheng Joung),蘇楠傑(Nan-Jay Su) | |
dc.subject.keyword | 大型表層洄游魚類,生產力,敏感性,脆弱性,生態風險, | zh_TW |
dc.subject.keyword | productivity index,susceptibility attribute,vulnerability,ecological risk, | en |
dc.relation.page | 80 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2014-08-13 | |
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 |
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