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Eutrophication of Lake Waters in China: Cost, Causes, and Control

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Abstract

Lake water eutrophication has become one of the most important factors impeding sustainable economic development in China. Knowledge of the current status of lake water eutrophicatoin and determination of its mechanism are prerequisites to devising a sound solution to the problem. Based on reviewing the literature, this paper elaborates on the evolutional process and current state of shallow inland lake water eutrophication in China. The mechanism of lake water eutrophication is explored from nutrient sources. In light of the identified mechanism strategies are proposed to control and tackle lake water eutrophication. This review reveals that water eutrophication in most lakes was initiated in the 1980s when the national economy underwent rapid development. At present, the problem of water eutrophication is still serious, with frequent occurrence of damaging algal blooms, which have disrupted the normal supply of drinking water in shore cities. Each destructive bloom caused a direct economic loss valued at billions of yuan. Nonpoint pollution sources, namely, waste discharge from agricultural fields and nutrients released from floor deposits, are identified as the two major sources of nitrogen and phosphorus. Therefore, all control and rehabilitation measures of lake water eutrophication should target these nutrient sources. Biological measures are recommended to rehabilitate eutrophied lake waters and restore the lake ecosystem in order to bring the problem under control.

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References

  • Budhendra B, Harbor J, Engel B, Grove M (2003) Assessing watershed-scale, long-term hydrologic impacts of land-use change using a GIS-NPS model. Environmental Management 26(6):643–651

    Google Scholar 

  • Drenner RW, Day DJ, Basham SJ, Simth DJ, Jensen SI (1997) Ecological water treatment system for removal of phosphorus and nitrogen from polluted water. Biological Application 7(2):381–391

    Article  Google Scholar 

  • Gao LQ, Yan WJ (2002) Eutrophication of China’s three lakes: current situation and countermeasures. Resources Science 24(3):19–25

    CAS  Google Scholar 

  • Gao C, Zhu JG, Dou YJ (2002) Contribution of agricultural non-point source pollution to water quality deterioration in Tai lake watershed: recent trends and research priorities. Resources and Environment in the Yangtze Basin 11(3):260–263

    CAS  Google Scholar 

  • Gao L, Yang HM, Zhou JM, Chen J (2004) Sediment burden and release potential of phosphor to water in Dianchi Lake, China. Acta Scientiae Circumstantiae 25(4):776–781

    Google Scholar 

  • Guo HC, Sun YF (2002) Characteristic analysis and control strategies for the eutrophicated problem of Lake Dianchi. Progress in Geography 21(5):500–506

    Google Scholar 

  • He KL (2002) Study of eutrophication control in Chao Lake. Nature Ecological Conservation 4:22–24

    Google Scholar 

  • Hu BB (2003) Analysis on effect of water pollution in Lake Taihu basin on water quality of Lake Taihu. Shanghai Environment Sciences 22(12):1017–1025

    Google Scholar 

  • Hu J, Liu YD, Liu JT (2005) Studying on the form and the relativity of nitrogen and phosphorus in the pore water of sediment in Dianchi Lake. Acta Scientiae Circumstantiae 25(10):1391–1396

    CAS  Google Scholar 

  • Jin XC (1990) Eutrophication of lakes in China. China Environmental Science Press, Beijing

    Google Scholar 

  • Jin XC (2001) Control and management technology of eutrophication lake. Chemistry Industry Press, Beijing

    Google Scholar 

  • Jin XL, Gao JF, Zhao GJ (2006) Impacts of 20-year socio-economic development on the trend of aquatic environment of the Taihu basin. Resources and Environment in the Yangtze Basin 15(3):298–302

    Google Scholar 

  • Jobgen AM, Palm A, Melkonian M (2004) Phosphorus removal from eutrophic lakes using periphyton on submerged artificial substrata. Hydrobiologia 528(1–3):123–142

    Article  Google Scholar 

  • Li SJ (2006) An approach to accelerating innovative development of the lake science. Bulletin of the Chinese Academy of Sciences 21(5):399–405

    Google Scholar 

  • Li HP, Yang GS, Li Y (2006) Simulation of nutrient fluxes response of land use change in Taihu Basin. Journal of Soil and Water Conservation 20(4):179–182

    Google Scholar 

  • Li M, Liu DQ, Shen SD, Yuan W, Jiang HY, Cai H (2007) The researching process of ecological restoration of eutrophication lake in China. Research of Soil and Water Conservation 14(5):352–530

    Google Scholar 

  • Lin ZX (2002) Analysis of water environmental change in Taihu Watershed. Journal of Lake Sciences 14(2):97–103

    Google Scholar 

  • Liu RZ, Zhu JY, Zhang JX (2001) Perspective of resources and environment in the process of economical sustainable development in Suzhou. Resources and Environment in Yangtze Basin 10(4):289–295

    Google Scholar 

  • OECD (1982) Eutrophication of waters: monitoring, assessment and control. Final Report. OECD Cooperative Program on Monitoring of Inland Waters (Eutrophication Control, Environment Directorate), OECD, Paris

  • Padisak J, Reynolds CS (1998) Selection of phytoplankton associations in Lake Balaton, Hungary, in response to eutrophication and restoration measures, with special reference to cyanoprokaryotes. Hydrobiologia 384:41–53

    Article  Google Scholar 

  • Qin BQ (2002) Approaches to mechanisms and control of eutrophication of shallow lakes in the middle and lower reaches of the Yangze River. Journal of Lake Science 14(3):193–202

    CAS  Google Scholar 

  • Qin BQ (2007) The causes and management of eutrophic of Taihu Lake. Report at the Annual Conference of Chinese Association of Geography

  • Qin BQ, Fan CX (2002) Exploration of conceptual model of nutrient release from inner source in large shallow lake. China Environmental Science 22(2):150–153

    CAS  Google Scholar 

  • Qin BQ, Zhu GW (2005) Characteristic of water and suspend sediment nutrition exist, cycle and exchange of lake in the middle and lower reaches of the Yangze River. Science in China Series D Earth Sciences 35(Suppl. II):1–10

    Google Scholar 

  • Qin BQ, Zhu GW, Zhang L, Luo LC, Gao G, Gu BH (2005) Exploration conceptual model and estimate method of nutrient release from inner source in large shallow lake—take Taihu lake as example. Science in China Series D Earth Sciences 35(Suppl. II):33–44

    Google Scholar 

  • Qin BQ, Yang LY, Chen FZ (2006) Mechanism and control of lake eutrophication. Chinese Science Bulletin 51(19):2401–2412

    Article  CAS  Google Scholar 

  • Shu JH, Huang WY (1996) Studies on the classification of trophic types of China’s lakes. Journal of Lake Sciences 8(3):193–200

    Google Scholar 

  • Wan L, Hu QL, Lin X, Qiu ZL (2007) Land use planning based on control of non-point source pollution in reservoir watersheds. Water Resources Protection 23(5):71–74

    Google Scholar 

  • Wang SP (1997) The management of ecological economy facing 21st century. Environment Science of China, Beijing

    Google Scholar 

  • Wang SM, Dou HS (1998) Lake records of China. Science Press, Beijing, pp 3–21

    Google Scholar 

  • Wang JQ, Sun YM, Qian JZ (2002) Simulated study on phosphorus release of Chao Lake sediment. Acta Scientiae Circumstantiae 22(6):738–742

    CAS  Google Scholar 

  • Xie L, Xie P (2002) Long-term (1956 1999) dynamics of phosphorus in a shallow, subtropical Chinese lake with the possible effects of cyanobacterial blooms. Water Research 36:343–349

    Article  CAS  Google Scholar 

  • Yan WJ, Bao X (2001) Study on agricultural movement of Chaohu Lake Basin and nonpoint source pollution. Journal of Soil and Water Conservation 15(4):129–132

    Google Scholar 

  • Yang M, Wu XG, Zhuang WH, Fang T (2007) Application of aquatic plant in ecological restoration of eutrophic water. Environmental Science and Technology 30(7):98–101

    Google Scholar 

  • Yu XG, Nipper J, Yan NL (2002) Recommendations of eutrophication control of Taihu Lake from an international view. Acta Geographyica Sinica 62(9):899–906

    Google Scholar 

  • Zhang ZY, Wang PH, Zhang CD (1999) Study on the eutrophication in Chaohu Lake and its remediation. Research of Environmental Sciences 12(5):45–48

    Google Scholar 

Download references

Acknowledgments

This work was financially supported by the Research Plan Foundation of the Ministry of Science and Technology of China (No. 2008BAC34B05); the Scientific Research Foundation for Returned Overseas Chinese Scholars, State Education Ministry (No. [2007]1108) and Nanjing Normal University (No. 2007105XLH0039); and the Scientific Research Foundation for Outstanding Doctoral Thesis of Nanjing Normal University (No. 181200000223).

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Le, C., Zha, Y., Li, Y. et al. Eutrophication of Lake Waters in China: Cost, Causes, and Control. Environmental Management 45, 662–668 (2010). https://doi.org/10.1007/s00267-010-9440-3

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  • DOI: https://doi.org/10.1007/s00267-010-9440-3

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