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Development of mariculture and its impacts in Chinese coastal waters

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Abstract

China has a long history of aquaculture. Since the 1980s, mariculture has been considered by the government as an increasingly important sub-sector of aquaculture. Mariculture provides nutritional and economic benefits, and decreases the intensity of exploitation on declining wild living resources. China now has the highest mariculture production in the world. Kelp made up 50–60% the total Chinese mariculture production in 1967–1980. Production of Laminaria japonicaAresch, the leading species, reached 252, 907 t (dry wet) in 1980. The percentage of kelp production decreased after 1981 because of proportionally greater production of molluscs, shrimps and finfish. Marine finfish and mollusc production increased sharply after 1990. In 2001, the total mariculture production reached 11,315,000 t from a production area of 1,286,000 ha. The rapid development and changes in mariculture species have aroused increasing concern about mariculture’s impact on the coastal environment. The impact of coastal aquaculture, such as water quality deterioration and contaminants, will have a significant bearing on the expansion of mariculture. The key of improving and maintaining the long-term health of mariculture zones lies in adopting sustainable culture systems. It is imperative that the density of stocking fish and other economically important organisms such as oysters, and scallops, be controlled, in addition to restricting the total number of net-cages in the mariculture zones. The authors suggest moving rafts (cages) periodically and to development of a fallow system in which area fish culture will be suspended for 1–2 years to facilitate recovery of the polluted sediment. Moving fish culture offshore into deeper waters is also suggested. The authors also believe that large-scale seaweed cultivation will reduce eutrophication in coastal culture zones in China.

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References

  • J.F. Caddy (1999) ArticleTitleFisheries management in the twenty-first century: will new paradigms apply? Rev. Fish Bio. Fisheries 9 1–43

    Google Scholar 

  • R.N.B. Campbell (1994) Managing burns to improve trout stocks P. Hutchinson A. Walker (Eds) The Loch Leven trout fishery–its future Peter Lloyd Design Consultancy Edinburgh 39–43

    Google Scholar 

  • T. Chopin C. Yarish (1999) ArticleTitleSeaweeds must be a significant component of aquaculture for an integrated ecosystem approach Bull. Aquacult. Assoc. Can. 99 35–37

    Google Scholar 

  • I.K. Chung Y.H. Kang C. Yarish G.P. Kraemer J.A. Lee (2002) ArticleTitleApplication of seaweed cultivation to the bioremediation of nutrient-rich effluent Algae 17 187–194

    Google Scholar 

  • J.G. Fang Ø. Strand X.M. Liang J.H. Zhang (2001) ArticleTitleCarrying capacity and optimizing measures for mariculture in Sungo Bay Mar. Fish. Res. 22 57–63

    Google Scholar 

  • X.G. Fei Y. Bao S. Lu (1999) ArticleTitleSeaweed cultivation: traditional way and its reformation Chin. J. Oceanol. Limnol. 7 193–199

    Google Scholar 

  • J.L. Gan Q. Lin C.H. Li X.P. Jia Y.T. Lin M.L. Yang X.P. Wang W.G. Cai Z.H. Wang X.Y. Yu (2000) ArticleTitleStrength variation of environmental factors in different cage culture area of Zhelin Bay J. Zhejiang Ocean U. 20 18–22

    Google Scholar 

  • P.K. Hansen K. Pitman A. Ervik (1990) Effects of organic waste from marine fish farms on the sea bottom beneath the cages ICES Copenhagen-Denmark 14

    Google Scholar 

  • Ke, C.H., Lin, Y.S., Chen, G., Chen, X., Li, S.J., Lin, R. C and Zheng, M.S. (2002) Preliminary investigation on heavy metals, oils and Enterobacter in seawater and farmed animals in West Xiamen Sea Area. Mar. Sci. Bull. 21, 57–62 (in Chinese with English abstract).

    Google Scholar 

  • C.W.Y. Lam (1990) ArticleTitlePollution effects of marine fish culture in Hongkong Asian Mar. Bio. 7 1–7

    Google Scholar 

  • Liu, C.L. and Liu, S.L. (2001) Mariculture development situations and sustainable development problems in China. J. Oceanogr. Huanghai Bohai Seas. 19, 100–105 (in Chinese with English abstract).

    Google Scholar 

  • J.P. McVey R.R. Stickney C. Yarish T. Chopin (2002) Aquatic polyculture and balanced ecosystem management: New paradigms for seaweed production R. R. Stickney J. P. McVey (Eds) Responsible Marine Aquaculture CABI Publishing New York 91–104

    Google Scholar 

  • A. Nishimura (1982) ArticleTitleEffects of organic matters produced in fish farms on the growth of red tide algae Gymnodinium type ‘65 and Chattonella antiqua Bull. Plankton. Soc. Japan 29 1–7

    Google Scholar 

  • R.M. Peterman B. de Young A.R. Dobell E. Pinkerton Y. Breton A.T. Charles M.J. Fogarty G.R. Munro C. Taggart (1999) Canadian marine fisheries in a changing and uncertain world. Ecosystem Approaches for Fisheries Management. Alaska Sea Grant College Program AK-SG-99-01 Alaska Seapp. 387–389

    Google Scholar 

  • Z.L. Qian (1994) The development of the Chinese fisheries and manpower in aquaculture Agriculture Press China Beijing 212

    Google Scholar 

  • P.Y. Qian M.C.S. Wu I.H. Ni (2001) ArticleTitleComparison of nutrients release among some maricultured animals Aquaculture 200 305–316

    Google Scholar 

  • SOA (State Oceanic Administration, People’s Republic of China) (2002) China Marine Statistical Yearbook 2002. China Ocean Press, pp. 61-80.

  • Sun, Y., Zhao, J., Zhou, S.L., Song, Y.L. and Chen, J.F. (1998) Environmental features of cultural waters in Sanggou Bay. J. Fish. Sci. China 5, 69-75 (in Chinese with English abstract).

    Google Scholar 

  • M. Troell C. Halling A. Nilsson A.H. Buschmann N. Nautsky L. kautsy (1997) ArticleTitleIntegrated marine cultivation of Gracilaria chilensis (Gracilariales Rhodophyta) and salmon cages for reduced environmental impact and increased economic output Aquaculture 156 45–61

    Google Scholar 

  • M. Troell P. Ronnback C. Halling N. Kautsky A. Buschmann (1999) ArticleTitleEcological engineering in aquaculture: use of seaweeds for removing nutrients from intensive mariculture J. Appl. Phycol. 11 89–97

    Google Scholar 

  • M. Troell C. Halling A. Neori T. Chopin A.H. Buschmann N. Kautsky C. Yarish (2003) ArticleTitleIntegrated mariculture: asking the right questions Aquaculture 226 69–90

    Google Scholar 

  • C.K. Tseng (2001) ArticleTitleAlgal biotechnology industries and research activities in China J. Appl. Phycol. 13 375–380

    Google Scholar 

  • C.K. Tseng X.G. Fei (1987) ArticleTitleMacroalgal commercialization in the Orient Hydrobiologia 151/152 167–172

    Google Scholar 

  • R.S.S. Wu (1995) ArticleTitleThe environmental impact of marine fish culture: towards a sustainable future Mar. Pollut. Bull. 31 195–166

    Google Scholar 

  • R.S.S. Wu K.S. Lam D.W. Mackay T.C. Lau V. Yam (1994) ArticleTitleImpact of marine fish farming on water quality and bottom sediment: a case study of the sub-tropical environment Mar. Environ. Res. 38 115–145

    Google Scholar 

  • Yang, Y. F and Fei, X.G. (2003) Prospects for bioremediation of cultivation of large-sized seaweed in eutrophic mariculture areas. J. Ocean U. Qingdao 33, 53–57 (in Chinese with English abstract).

    Google Scholar 

  • Zhang, J., Wu, A.Y. and Shi, Q.S. (2003) Mariculture and its environment effects in the Xiangshan Bay. Donghai Mar. Sci. 21(4), 54–59 (in Chinese with English abstract).

    Google Scholar 

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Authors and Affiliations

  1. Institute of Hydrobiology, Jinan University, 510632, P.R. China, Guangzhou

    Yang Yu Feng, Nie Xiang Ping & Tang Dan Ling

  2. South China Sea Fishery Research Institute, Chinese Academy of Fishery Sciences, 510300, Guangzhou, P.R. China

    Li Chun Hou

  3. LED, South China Institute of Oceanology,, Chinese Academy of Sciences, 510301, Guangzhou, P.R. China

    Tang Dan Ling

  4. Department of Marine Science, Pusan National University, 609-735, Busan, Korea

    Chung Ik Kyo

Authors
  1. Yang Yu Feng
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  2. Li Chun Hou
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  3. Nie Xiang Ping
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  4. Tang Dan Ling
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  5. Chung Ik Kyo
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Correspondence to Yang Yu Feng.

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Feng, Y.Y., Hou, L.C., Ping, N.X. et al. Development of mariculture and its impacts in Chinese coastal waters. Rev Fish Biol Fisheries 14, 1–10 (2004). https://doi.org/10.1007/s11160-004-3539-7

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