Discussion on Role of Forest to Control Agricultural Non-Point Source Pollution in Taihu Lake Basin-Based on Source-Sink Analysis

Jianfeng  ZHANG; Jingmin  JIANG; Zhijian  ZHANG; Qihua  SHAN; Guangcai  CHEN; Ying  WANG; Yonghui  XU; Harry  WU; Aljoy  ABARQUEZ

doi:10.4236/jwarp.2009.15041

Jianfeng ZHANG, Jingmin JIANG, Zhijian ZHANG, Qihua SHAN, Guangcai CHEN, Ying WANG, Yonghui XU, Harry WU, Aljoy ABARQUEZ

Abstract: Taihu Lake is located at the center of Changjiang delta region, the Lake and its effluent rivers are important water sources for 40 million around inhabitants and rapidly increasing industrial factories in Shanghai, Ji-angsu and Zhejiang. The pollutants originate mainly from acidy rain, home sewage of the vast number of inhabitants, livestock manure, agricultural fertilizers & pesticides applied over fields in the drainage basin, and the industrial sewage. Due to the kinds of pollutants, the Lake water is getting highly eutrophic, with frequent blooms of blue-green algae. Compared with point-source pollutants, diffuse pollution is much com-plicated and difficult to control. Thus combating non-point pollution (NPP) is paid much great attention. Based on analysis on source-sink of NPP in Taihu Lake basin, it is concluded that the function of forests on NPP control is multiple and important by both source reduction and sink expansion. The primary objective of planting trees through constructing forested wetlands and establishing riparian forest buffers is to control soil & water erosion, decrease agrochemicals application, and improve farming conditions in the region of Taihu Lake basin. Moreover forests help to intercept acidy rain, protect streambanks, uptake nutrients, hold up pollutants and provide habitat for wildlife.

Keywords: Non-Point Source Pollution, Riparian Forest Buffer Zone, Source-Sink, Taihu Lake

Cite this paper: nullJ. ZHANG, J. JIANG, Z. ZHANG, Q. SHAN, G. CHEN, Y. WANG, Y. XU, H. WU and A. ABARQUEZ, "Discussion on Role of Forest to Control Agricultural Non-Point Source Pollution in Taihu Lake Basin-Based on Source-Sink Analysis," Journal of Water Resource and Protection, Vol. 1 No. 5, 2009, pp. 345-350. doi: 10.4236/jwarp.2009.15041.

References

[1] B. Q. Qin, “Hydrodynamics on Lake Taihu, China,” Am-bio, Vol. 26, No. 8, pp. 45?48, 1999.

[2] S. W. Chai, X. M. Pei, Y. L. Zhang, J. H. Li, and J. F. Zhao, “Research on agricultural diffuse pollution and controlling technology,” Journal of Soil and Water Con-servation, Vol. 20, No. 6, pp. 191?194, 2006.

[3] J. F. Zhang, M. Y. Fang, and S. Li, “Developing agrofor-estry in slopelands to combat non-point pollution in China,” Chinese Forestry Science and Technology, Vol. 6, No. 4, pp. 67?72, 2007a.

[4] J. F. Zhang, “Agroforestry and its application in amelio-ration of saline soils in eastern China coastal region,” Forestry Study in China, Vol. 6, No. 2, pp. 27?33, 2004.

[5] T. C. Daniel, A. N. Sharpley, and J. L. Lemunyou, “Ag-ricultural phosphorus and eutrophication: A symposium overview,” Journal of Environmental Quality, Vol. 27, No. 1, pp. 251?257, 1998.

[6] C, Gao, “Environmental management options practiced in Europe to mitigate agricultural nutrient pollution of ground and surface water,” Agricultural Eco-environment, Vol. 51, No. 2, pp. 50?53, 1999.

[7] M. A. Altieri, “The ecological role of biodiversity in agroecosystems,” Agriculture, Ecosystems and Environ-ment, No. 74, pp. 19?31, 1999.

[8] J. Baudry, R. G. H. Bunce, and F. Burel, “Hedgerows: An international perspective on their origin, function and management,” Journal of Environmental Management, No. 60, pp. 7?22, 2000.

[9] B. Deckers, M. Hermy, and B. Muys, “Factors affecting plant species composition of hedgerows: Relative impor-tance and hierarchy,” Acta Oecologica, No. 26, pp. 23?37, 2004.

[10] J. R. Archer and M. J. Marks, “Control of nutrient losses to water from agriculture in Europe,” Proceeding of Fer-tilizer Society, Vol. 6, No. 5, pp. 405?409, 1997.

[11] J. F. Zhang and Q. X. Sun, “Review on agroforestry sys-tems in China,” Chinese Forestry Science and Technol-ogy, Vol. 4, No. 3, pp. 80?84, 2005.

[12] W. L. Zhang, S. X. Wu, H. J. Ji, and H. Kolbe, “Estima-tion of agricultural non-point source pollution in China and the alleviating strategies I: Estimation of agricultural non-point source pollution in China in early 21 century,” Chinese Science of Agriculture, Vol. 37, No. 7, pp. 1008?1017, 2004.

[13] R. C. Schultz, “Agroforestry opportunities for the United States of America,” Agroforestry Systems, No. 31, pp. 117?132, 1995.

[14] J. F. Zhang and G. H. Qin, “Poplar-based agro-forestry in China and its economic analysis,” Shandong Science and Technology Press, 2007b.

[15] R. A. Young, “A non-point source pollution model for evaluating agricultural watershed,” Journal of Soil and Water Conservation, Vol. 44, No. 2, pp. 168?173, 1989.

[16] J. L. Chen, L. L. Shi, and A. G. Zhang, “Controlling ef-fects of forest belts on non-point source pollution of ag-ricultural lands in Taihu Lake area, China,” Journal of Forestry Research, Vol. 13, No. 3, pp. 213?216, 2002.

[17] S. de Blois, G. Domon, and A. Bouchard, “Factors af-fecting plant species distribution in hedgerows of south-ern Quebec,” Biological Conservation, No. 105, pp. 355?367, 2002.

[18] D. Kleijn and M. Verbeek, “Factors affecting the species composition of arable field boundary vegetation,” Journal of Applied Ecology, No. 37, pp. 256?266, 2000.

[19] A. G. Busck, “Hedgerow planting analyzed as a social system–Interaction between farmers and other actors in Denmark,” Journal of Environmental Management, No. 68, pp. 161?171, 2003.