Abstract
Large portions of the world’s fishery resources are overexploited. Life history traits of fish species are important indicators to reveal different life history strategies and to indicate population responses to fishing pressures. For this study, empirical data on fishing grounds located in the coastal area between Fujian Coast and Taiwan Island were collected. These areas have experienced severe overfishing in the past 30 years, leading to changes in the structure and function of the fish communities. Fifty-one commercial fish species in this fishing ground were selected to study the life history traits. Using the life history traits, all the species were grouped into five different life history strategies by principle component analysis. More than 60% of the species were categorized in Group 5 that was similar to r-strategists. Twenty-five commercial species were selected for further analysis of changes in life history variables, and to discuss the population responses to exploitation. Results showed that most of the species appeared to become smaller size, shorter life, earlier maturation and faster growing under long-term exploitation. The exploitation rate of each species was also calculated to further discuss the impacts of fishing pressures to fish populations. Four species were found with the severest changes on life history traits indicating some of the species might be more susceptible to exploitation. This study on fish life history traits and their long-term variations under fishing pressures could provide important scientific implications for fishery management and conservation.
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References
Adams P B. 1980. Life history patterns in marine fishes and their consequences for fisheries management. Fishery Bulletin, 78(1): 1–12
Brochier T, Echevin V, Tam J, et al. 2013. Climate change scenarios experiments predict a future reduction in small pelagic fish recruitment in the Humboldt Current system. Global Change Biology, 19(6): 1841–1853
Chen Mingru, Lu Zhenbin, Du Jianguo, et al. 2010. Changes in ecological parameters of small yellow croaker, Pseudosciaena polyactis, in Eastern Fujian fishing ground. Journal of Xiamen University (Natural Science) (in Chinese), 49(2): 260–265
Chen Zuozhi, Qiu Yongsong, Xu Shannan, et al. 2012. Evolution of biological characteristics of Saurida undosquamis (Richardson) in the Beibu Gulf, South China Sea. Journal of Fishery Sciences of China (in Chinese), 19(2): 321–328
Claudet J, Osenberg C W, Domenici P, et al. 2010. Marine reserves: fish life history and ecological traits matter. Ecological Applications, 20(3): 830–839
Denney N H, Jennings S, Reynolds J D. 2002. Life-history correlates of maximum population growth rates in marine fishes. Proceedings of the Royal Society of London, B269(1506): 2229–2237
Du Jianguo, Lu Zhenbin, Chen Mingru. 2008. Changes in ecological parameters of Parargyrops edita population in southern Taiwan Strait. Journal of Oceanography in Taiwan Strait (in Chinese), 27(2): 193–198
Du Jianguo, Lu Zhenbin, Chen Mingru, et al. 2010. Changes in ecological parameters and resources of Japanese butterfish, Psenopsis anomala, in the middle and northern Taiwan Strait. Journal of Oceanography in Taiwan Strait (in Chinese), 29(2): 234–239
Du Jianguo, Lu Zhenbin, Yang Shengyun, et al. 2011. Studies on ecological characteristics variation and population dynamics of four lizardfishes in the southern Taiwan Straits. Acta Oceanologica Sinica, 30(6): 72–81
FAO. 2012. The State of World Fisheries and Aquaculture (SOFIA) 2012. Rome, Italy: Food and Agriculture Organization, 197
Fujian Provincial Bureau of Statistics. 2012. 2012 National Economic and Social Development Statistics for Fujian Province. Fujian: Fujian Provincial Bureau of Statistics
Gulland J A. 1971. The Fish Resources of the Ocean West Poly Fleet, Survey Fishing News (Books) Ltd. FAO Tech Paper, (97): 15–16
Gulland J A. 1979. Report of the FAO/IOP workshop on the fishery resources of the western Indian Ocean South of the Equator. Rome: FAO, 1–37
Hutchings J A, Myers R A, García V B, et al. 2012. Life-history correlates of extinction risk and recovery potential. Ecological Applications, 22(4): 1061–1067
Jennings S, Greenstreet S P R, Reynolds J D. 1999. Structural change in an exploited fish community: a consequence of differential fishing effects on species with contrasting life histories. Journal of Animal Ecology, 68(3): 617–627
Jennings S, Reynolds J D, Mills S C. 1998. Life history correlates of responses to fisheries exploitation. Proceedings of the Royal Society B: Biological Sciences, 265(1393): 333–339
Kawasaki T. 1983. Why do some pelagic fishes have wide fluctuation in their numbers? Biological basis of fluctuations from the viewpoint of evolutionary ecology. In: Sharp G D, Csirke J, eds. Proceedings of the Expert Consultation to examine changes in abundance and species composition of neritic fish resources. FAO Fisheries Report, 291(3): 557–1224
King J R, McFarlane G A. 2003. Marine fish life history strategies: applications to fishery management. Fisheries Management and Ecology, 10(4): 249–264
Leaman B M, Beamish R J. 1984. Ecological and management implications of longevity in some northeast Pacific groundfishes. International North Pacific Fisheries Commission Bulletin, 42: 85–97
Li Xueding, Lu Zhenbin. 2008. The productivity of fishery resources and the maximum sustained yield in Fujian coastal water. Journal of Xiamen University (Natural Science) (in Chinese), 47(4): 596–601
Lu Zhenbin, Chen Xiao, Du Jianguo. 2008. The population dynamics and parameter of growth and mortality of Sillago sihama in the Minnan-Taiwan fishing grounds. Marine Fisheries Research (in Chinese), 29(5): 47–53
Lu Zhenbin, Dai Quanshui, Xiao Fangsen. 2005. Capacity of fish resources in Southern Fujian-Taiwan shoal sea area. Journal of Tropical Oceanography (in Chinese), 24(1): 60–66
Lu Zhenbin, Dai Quanshui, Xiao Fangsen, et al. 2006. The resources production of fish and its different ecological type in Minnan-Taiwan Bank fishing grounds. Journal of Fisheries of China (in Chinese), 30(3): 360–366
Lu Zhenbin, Dai Quanshui, Yan Youming. 1999a. The studies on the ecology of twenty species fishes in Fujian coastal waters. Journal of Fujian Fisheries (in Chinese), 9(2): 20–27
Lu Zhenbin, Dai Quanshui, Yan Youming. 1999b. Change in structure of the fisheries resources and ecology of the major population in Fujian offshore waters. Journal of Fujian Fisheries (in Chinese), 9(3): 1–7
Lu Zhenbin, Du Jianguo. 2008. Variational characteristics of ecological parameters of Upeneus bensasi in southern Taiwan Strait. Journal of Fisheries of China (in Chinese), 32(3): 362–368
Luo Binzheng. 1992. Life history patterns and geographical variation of ecological parameters for marine fishes in the coastal waters of China. Oceanologia et Limnologia Sinica (in Chinese), 23(1): 63–73
Luo Binzheng, Lu Jiwu, Lan Yonglun, et al. 1993. Population dynamics and life history patterns for main marine fishes in the coastal waters of China. Studia Marina Sinica (in Chinese), 34: 123–137
MacArthur R H, Wilson E O. 1967. The Theory of Island Biogeography. Princeton, New Jersey, USA: Princeton University Press
McCann K, Shuter B. 1997. Bioenergetics of life history strategies and the comparative allometry of reproduction. Canadian Journal of Fisheries and Aquatic Sciences, (54): 1289–1298
McFarlane G A, Beamish R J. 2001. The reoccurrence of sardines off British Columbia characterises the dynamic nature of regimes. Progress in Oceanography, 49(1–4): 151–165
Palumbi S R. 2004. Marine reserves and ocean neighborhoods: the spatial scale of marine populations and their management. Annual Review of Environment and Resources, 29: 31–68
Pauly D. 1984. Fish Population Dynamics in Tropical Waters: a Manual for Use with Programmable Calculators. ICLARM Studies and Reviews 8. Manila, Philippnies: International Center for Living Aquatic Resources Management, 325
Pauly D, Christensen V, Guénette S, et al. 2002. Towards sustainability in world fisheries. Nature, 418(6898): 689–695
Pianka E R. 1979. Citation classic: on r- and K selection. Current Contents, 10: 10
Pikitch E K, Santora E A, Babcock A, et al. 2004. Ecosystem-based fishery management. Science, 305(5682): 346–347
Reynolds J D, Webb T J, Hawkins L A. 2005. Life history and ecological correlates of extinction risk in European freshwater fishes. Canadian Journal of Fisheries and Aquatic Sciences, 62(4): 854–862
Robson D S, Chapman D G. 1961. Catch curves and mortality rates. Transactions of the American Fisheries Society, 90(2): 181–189
Rochet M J. 1998. Short-term effects of fishing on life history traits of fishes. ICES Journal of Marine Science, (55): 371–391
Roff D A. 1984. The evolution of life history parameters in teleosts. Canadian Journal of Fisheries and Aquatic Sciences, (41): 898–1000
Sharpe D M, Hendry A P. 2009. SYNTHESIS: life history change in commercially exploited fish stocks: an analysis of trends across studies. Evolutionary Applications, 2(3): 260–275
Smith S E, Au D W, Show C. 1998. Intrinsic rebound potentials of 26 species of Pacific sharks. Marine and Freshwater Research, 49(7): 663–678
Stevens J D, Bonfil R, Dulvy N K, et al. 2000. The effects of fishing on sharks, rays, and chimaeras (chondrichthyans), and the implications for marine ecosystems. ICES Journal of Marine Science, 57(3): 476–494
Unwin M J, Kinnison M T, Quinn T P. 1999. Exceptions to semelparity: postmaturation survival, morphology, and energetics of male chinook salmon (Oncorhynchus tshawytscha). Canadian Journal of Fisheries and Aquatic Sciences, (56): 1172–1181
Ward P, Myers RA. 2005. Shifts in open-ocean fish communities coinciding with the commencement of commercial fishing. Ecology, 86(4): 835–847
Winemiller K O, Rose K A. 1992. Reproductive constraints and the evolution of life histories with indeterminate growth. Canadian Journal of Fisheries and Aquatic Sciences, (49): 2196–2218
Yan Youming. 2006. Study on the relationship between the sea surface temperature (SST) in NINO region and the yield of pelagic fish in Minnan-Taiwan Bank fishing ground. Journal of Fujian Fisheries (in Chinese), (4): 11–15
Zhou S J, Smith A D, Punt A E, et al. 2010. Ecosystem-based fisheries management requires a change to the selective fishing philosophy. Proceedings of the National Academy of Sciences of the United States of America, 107(21): 9485–9489
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Foundation item: the Project of Fishery Resources Protection from the Ministry of Agriculture of China; the National Natural Science Foundation of China (NSFC) under contract No. 31101902.
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Hu, W., Ye, G., Lu, Z. et al. Study on fish life history traits and variation in the Taiwan Strait and its adjacent waters. Acta Oceanol. Sin. 34, 45–54 (2015). https://doi.org/10.1007/s13131-015-0625-8
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DOI: https://doi.org/10.1007/s13131-015-0625-8