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Environmental Issues and the South-North Water Transfer Scheme

Published online by Cambridge University Press:  12 February 2009

Extract

China has good resources of land and water. The problem is that they are often not in the same place. The south, which is water-rich, is too hilly for extensive farming. The North China Plain is flat, like France or the Ukraine, but lacks water. It produces 27 per cent of China's grain, but at the cost of serious stresses on its water resource. Deficits in the surface water supply have led to intensified use of the groundwater well beyond the “safe yield” where recharge balances withdrawal. Hence the water table has fallen greatly under both rural and urban areas ever since electric- or diesel-powered tubewells became widespread in the early 1970s. In addition to increased pumping costs and the need to bore ever deeper wells, consequences have included land subsidence, compressing the emptied aquifer in a number of areas and salt water intrusion in coastal areas.

Type
China's Environment
Copyright
Copyright © The China Quarterly 1998

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References

1. Yang, Chaofei, “Huanghe duanliu di shengtai sikao” (“Ecological considerations of water stoppages in the Huang River”), in Yang, Chaofeiet al. (eds.), Huanghe duanliu yu liuyu kechixu fazhan (Water Stoppages in the Yellow River and Sustainabie Development in the Basin) (Beijing: Huanjing kexue chubanshe, 1997), pp. 19.Google Scholar

2. Yao, Bangyi and Chen, Qinglian, “South-to-north water transfer project plans,” in Biswas, Asit K., Dakang, Zuo, Nickum, James E. and Changming, Liu (eds.), Long-Distance Water Transfer: A Chinese Case Study and International Experiences (Dublin: Tycooly, 1983), pp. 127150.Google Scholar

3. Xiande, Chen, “Water transfer along the western route,” Chinese Environment and Development, Vol. 5, No. 2 (1994), pp. 7585.Google Scholar

4. Weiya, Ge, Xueqi, Luo and Peiwen, Tang, “Changjiang kualiuyu gongshui di shui ziyuan chubu fenxi pingjia” (“Assessment of the Water Resources Supplied by the Chang River in Inter-basin Transfers”), Dili yanjiu (Geographical Research), Vol. 2, No. 3 (1983), pp. 8795.Google Scholar

5. Chunhuai, Chen, “Major characteristics and problems of the south-to-north water-transfer,” Chinese Environment and Development, Vol. 5, No. 2 (1994), pp. 20–41.Google Scholar

7. Biswas, Asit K., “A global perspective: water for sustainable development in the twenty-first century,” in Biswas, Asit K.et al. (eds.), Water for Sustainable Development in the Twenty-First Century (Delhi: Oxford University Press, 1993), pp. 717.Google Scholar

8. Chen Chunhuai, “Major characteristics and problems of the south-to-north water-transfer,” pp. 2041.Google Scholar

9. Changming, Liu and Xiwu, He, Zhongguo 21 shiji shui wenti fanglüe (Strategies for China's Water Problems in the 21st Century) (Beijing: Kexue chubanshe, 1996), pp. 6070.Google Scholar