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Overestimated Groundwater 14C Ages Triggered an Inexpediency of Water Policy in China
Northern China has been facing a serious problem of groundwater scarcity. The government developed restrictive policies on groundwater extraction, and designed the South–North Water Transfer Project (SNWTP) to transfer water from the Yangtze River in southern China to the arid region in the north. However, contrary to expectation, groundwater levels in northern China have been rising significantly before completion of the project. Due to misapplication of the 14C dating method, the age of deep confined groundwater in arid northern China has been overestimated. This classifies the groundwater as palaeo-groundwater with little recharge, which results in the prohibition of groundwater extraction and SNWTP. Significant tritium concentrations recently reported in the so-called palaeo-groundwater, along with rising groundwater levels, imply recent groundwater recharge in arid northern China.
Keywords
Groundwater, 14C Dating Method, Northern China, South–North Water Transfer Project.
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- Qiu, J., China faces up to groundwater crisis. Nature, 2010, 466, 308.
- Zhang, L., Jun, X. and Hu, Z., Situation and problem analysis of water resource security in China. Resour. Environ. Yangtze Basin, 2009, 18, 116–120.
- Famiglietti, J. S., The global groundwater crisis. Nat. Clim. Change, 2014, 4, 945–948.
- Ren, G. Z. and Cao, X. Z., Several problems caused by over-exploitation of groundwater. Water Resour. Hydr. Eng., 1986, 6, 26–29.
- He, C., He, X. and Fu, L., China’s south-to-north water transfer project: is it needed?. Geography Compass, 2010, 4, 1312–132.
- Feng, W., Zhong, M., Lemoine, J., Biancale, R., Hsu, H. and Xia, J., Evaluation of groundwater depletion in North China using the Gravity Recovery and Climate Experiment (GRACE) and ground-based measurements. EGU General Assembly Conference, 2013, 15, 1796.
- Berkoff, J., China: the south-north water transfer project – is it justified? Water Policy, 2003, 5, 1–28.
- Yang, H. and Zehnder, A. J. B., The south-north water transfer project in China. Water Int., 2009, 30, 339–349.
- Zehnder, A. J. B., The south-north water transfer project in China. Water Int., 2005, 30, 339–349.
- Chen, J. and Wang, Q., A discussion of groundwater recharge sources in arid areas of North China. Water Resour. Protection, 2012, 28, 1–8.
- Chen, J. S. and Wang, C., Rising springs along the Silk Road. Geology, 2009, 37, 243–246.
- Chen, J., Wang, C. Y., Tan, H., Rao, W., Liu, X. and Sun, X., New lakes in the Taklamakan Desert. Geophys. Res. Lett., 2012, 39, 22402–22405.
- Chen, J. et al., Isotopic constraints on the origin of groundwater in the Ordos Basin of northern China. Environ. Earth Sci., 2012, 66, 505–517.
- Ge, J., Chen, J., Ge, L., Wang, T., Wang, C. and Chen, Y., Isotopic and hydrochemical evidence of groundwater recharge in the Hopq Desert, NW China. J. Radioanal. Nucl. Ch., 2016, 310, 761–775.
- Yan, X., Groundwater level rising for the first time in 16 years in Beijing city. Beijing Daily, 9 September 2015.
- Ying, X. and Zhang, F., Experimental study of wastewater treatment with heavy metal chelating agents. J. Hohai University (Natural Sciences), 2005, 33, 153–156.
- Pang, Z., Chang, H., Li, Y., Zhang, N., Du, R. and Hu, L., Analytical hierarchy process (AHP) evaluation of water quality in Danjiangkou reservoir-source of the middle line project to transfer water from south to north China. Acta. Ecol. Sin., 2008, 28, 1810–1819.
- Li, S. and Zhang, Q., Assessing the water quality in the water source area of the middle route of the south to north water transfer project (Danjiangkou Reservoir) using a water quality index method. Res. Environ. Sci., 2008, 21, 61–68.
- Gates, J. B., Edmunds, W. M., Darling, W. G., Ma, J., Pang, Z. and Young, A. A., Conceptual model of recharge to southeastern Badain Jaran Desert groundwater and lakes from environmental tracers. Appl. Geochem., 2008, 23, 3519–3534.
- Chen, Z., Qi, J., Xu, J., Xu, J., Ye, H. and Nan, Y., Paleoclimatic interpretation of the past 30 ka from isotopic studies of the deep confined aquifer of the North China plain. Appl. Geochem., 2003, 18, 997–1009.
- Chen, Z., Nie, Z., Zhang, Z., Qi, J. and Nan, Y., Isotopes and sustainability of ground water resources, North China Plain. Ground Water, 2005, 43, 485–493.
- Kreuzer, A. M., Rohden, C. V., Friedrich, R., Chen, Z., Shi, J., Hajdas, I., Kipferd, R. and Aeschbach-Hertiga, W., A record of temperature and monsoon intensity over the past 40 kyr from groundwater in the North China Plain. Chem. Geol., 2009, 259, 168–180.
- Rohden, C. V., Kreuzer, A., Chen, Z., Kipfer, R. and Aeschbach‐Hertig, W., Characterizing the recharge regime of the strongly exploited aquifers of the North China Plain by environmental tracers. Water Resour. Res., 2010, 46, 2621–2628.
- Geyh, M. A., An overview of 14C analysis in the study of groundwater. Radiocarbon, 2000, 42, 99–114.
- Geyh, M. A., Dating of old groundwater – history, potential, limits and future. Isotopes Water Cycle, 2005, 273, 221–241.
- Bethke, C. M. and Johnson, T. M., Groundwater age and groundwater age dating. Annu. Rev. Earth Planet. Sci., 2008, 36, 121–152.
- Guan, X., Genesis of caron dioxide with high purity in East China. Petrol. Geol. Exper., 1990, 12, 248–258.
- Chen, X., Chen, J. and Wang, T., A discussion of groundwater dating in northern china. Water Resources Protection, 2014, 30, 1–5.
- Gleeson, T., Befus, K. M., Jasechko, S., Luijendijk, E. and Cardenas, M. B., The global volume and distribution of modern groundwater. Nat. Geosci., 2016, 9, 161–167.
- Wei, M., ‘South water’ profiting Beijing: groundwater level increasing by 62 cm in average in Beijing plain area. Xinhua News Agency, 26 August 2016.
- Beijing Water Resources Bulletin. Beijing water authority (1999–2014).
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