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Abstract
Regional climate change in China under the IPCC A2 Scenario, was simulated for continuous 10-yr period by the MM5V3, using the output of an IPCC A2 run from CISRO Mark 3 climate system model as lateral and surface boundary conditions. The regional climate change of surface air temperature, precipitation,and circulation were analyzed. The results showed that (1) the distribution of mean circulation, surface air temperature, and precipitation was reproduced by the MM5V3. The regional climate model was capable to improve the regional climate simulation driven by GCM. (2) The climate change simulation under the IPCC A2 Scenario indicated that the surface air temperature in China would increase in the future, with a stronger trend in winter and the increasing magnitude from the south to the north. The precipitation distribution would appear a distinct change as well. Annual mean precipitation would remarkably increase in Northeast China, Yangtze and Huaihe River Valley, and the south area of the valley. Meanwhile, rainfall would show a decreasing trend in partial areas of North China, and many regions of Southwest and Northwest China.
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Citation
TANG Jianping, CHEN Xing, ZHAO Ming, SU Bingkai. 2009: Numerical Simulation of Regional Climate Change under IPCC A2 Scenario in China. Journal of Meteorological Research, 23(1): 29-42.
TANG Jianping, CHEN Xing, ZHAO Ming, SU Bingkai. 2009: Numerical Simulation of Regional Climate Change under IPCC A2 Scenario in China. Journal of Meteorological Research, 23(1): 29-42.
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TANG Jianping, CHEN Xing, ZHAO Ming, SU Bingkai. 2009: Numerical Simulation of Regional Climate Change under IPCC A2 Scenario in China. Journal of Meteorological Research, 23(1): 29-42.
TANG Jianping, CHEN Xing, ZHAO Ming, SU Bingkai. 2009: Numerical Simulation of Regional Climate Change under IPCC A2 Scenario in China. Journal of Meteorological Research, 23(1): 29-42.
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