Abstract
Based on the simulation with the Ocean-Atmosphere Coupled Model CCSM and Ocean Model POP under the greenhouse gas emission scenario of the IPCC SRES A2 (IPCC, 2001), and on the earth crust subsidence and glacier melting data, the relative sea level change is obtained along the coast of China in the 21st century. Using the SRTM elevation data the submergence of coastal low land is calculated under the extreme water level with a 100-year return period. The total flooding areas are 98.3×103 and 104.9×103 km2 for 2050 and 2080, respectively. For the three regions most vulnerable to extreme sea level rise, i.e., the coast of Bohai Bay, the Yangtze River Delta together with neighboring Jiangsu Province and northern Zhejiang Province, and the Pearl River Delta, the flooded areas are 5.0×103, 64.1×103 and 15.3×103 km2 in 2050 and 5.2×103, 67.8×103 and 17.2×103 km2 in 2080, respectively.
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Chen, C. L., Zuo, J. C., Du, L., and He, Q. Q., 2012. Long term trends in global sea level under IPPCC SRES A2 scenario. Acta Oceanologica Sinica, 34(1): 29–38 (in Chinese with English abstract).
Chen, M. C., Zuo, J. C., Chen, M. X., Zhang, J. L., and Du, L., 2008. Spatial distribution of sea level trend and annual range in the China Seas from 50 long terms tidal gauge station data. ISOPE Symposium, 583–587.
Chen, Z. Y., Zhou, T. H., Yu, Y. F., Tang, E. X., and Huang, Y. F., 1988. A study on the 1985 national datum level of altitude. Journal of Ocean University of Qingdao, 18(1): 9–13 (in Chinese).
Church, J. A., Gregory, J. M., Huybrechts, P., Kuhn, M., Lambeck, K., Nhuan, M. T., Qin, D., and Woodworth, P. L., 2001. Changes in sea level. Climate Change, 639–694.
Dong, K. G., Xu, M., Yu, Q., and Wang, W., 2010. Threshold of groundwater over-exploitation and conservation-restortion in Tianjin land subsidence area. Ground Water, 32(1): 30–33 (in Chinese with English abstract).
Du, B. L., 1993. The preliminary vulnerability assessment of the Chinese coastal zone due of sea level rise. Marine Forecasts, 10(4): 1–8 (in Chinese).
Du, B. L., Tian, S. Z., and Yu, J., 1995. Impacts of sea level rise on Pearl River Delta and response strategies. Marine Forecasts, 12(4): 1–8 (in Chinese).
Du, B. L., Tian, S. Z., Shen, W. Z., Gui, Z. Q., Jiang, J. T., and Wang, D. H., 1997. Impacts of Sea Level Rise on Major Fragile Regions and Response Strategies. China Ocean Press, Beijing, 47–49 (in Chinese).
Gumbel, E. J., 1941. The return period of flood flows. The Annals of Mathematical Statistics, 12: 163–190.
Guo, H. R., Jiao, H. W., and Yang, Y. X., 2004. The systematic difference and its distribution between the 1985 National Height Datum and global quasigeoid. Acta Geodaetica et Cartographic Sinica, 33(2): 100–104 (in Chinese with English abstract).
Han, M. K., Mimura, N., Hosokawa, Y., Machida, S., Yamada, K., Wu, L., and Li, J., 1994. Vulnerability assessment of coastal plain west of Bohai Sea, north China, to sea level rise. Acta Geographica Sinica, 49(2): 107–116 (in Chinese).
Huang, L. R., Yang, G. H., and Hu, H. M., 1991. Isostatic datum of sea level change in China’s coastal area. Seismology and Geology, 13(1): 1–7 (in Chinese).
IPCC, 2001. Climate Change 2001: The Scientific Basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Houghton, J. T. et al., eds., Cambridge University Press, Cambridge, United Kingdom and New York, NY, 881.
IPCC, 2007. Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Solomon, S., et al., eds., Cambridge University Press, Cambridge, United Kingdom and New York, NY, 996.
Ji, Z. X., Jiang, Z. X., Zhu, J. W., and Yang, G. H., 1994. Impacts of sea level rise on tidal flat and coastal wetland in the Changjiang River Delta and its adjacent area. Oceanologia et Limnologia Sinica, 25(6): 582–590 (in Chinese).
Li, J. L., Wang, Y. H., Zhang, R. S., Ge, Y. J., Qi, D. L., and Zhang, D. F., 2006. Disaster effects of sea level rise-A case of Jiangsu coastal lowland. Scientia Geographica Sinica, 26(1): 87–93 (in Chinese with English abstract).
Mitrovica, J. X., Tamisiea, M. E., Davis, J. L., and Milne, G. A., 2001. Recent mass balance of polar ice sheets inferred from patterns of global sea-level change. Nature, 409: 1026–1029.
Ren, M., 1996. The present status and solution of the development and utilization of tidal flat in China. Bulletin of the Chinese Academy of Sciences, 6: 440–443 (in Chinese).
Yan, M., 2008. The study of termodynamic mechanism of global sea level variation. PhD thesis, Ocean University of China (in Chinese).
Yang, H. T., 1998. Sustainable development and reduction oceanic disasters in the coast of China. Marine Forecasts, 15(3): 12–20 (in Chinese).
Yu, Y. F., 2004. Advance of the researches of on the variations of mean-sea-level in the coastal waters of China. Journal of Ocean University of Qingdao, 34(2): 713–719 (in Chinese with English abstract).
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Zuo, J., Yang, Y., Zhang, J. et al. Prediction of china’s submerged coastal areas by sea level rise due to climate change. J. Ocean Univ. China 12, 327–334 (2013). https://doi.org/10.1007/s11802-013-1908-3
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DOI: https://doi.org/10.1007/s11802-013-1908-3