Abstract
A nested regional climate model has been experimentally used in the seasonal prediction at the China National Climate Center (NCC) since 2001. The NCC/IAP (Institute of Atmospheric Physics) T63 coupled GCM (CGCM) provides the boundary and initial conditions for driving the regional climate model (RegCM_NCC). The latter has a 60-km horizontal resolution and improved physical parameterization schemes including the mass flux cumulus parameterization scheme, the turbulent kinetic energy closure scheme (TKE) and an improved land process model (LPM). The large-scale terrain features such as the Tibetan Plateau are included in the larger domain to produce the topographic forcing on the rain-producing systems. A sensitivity study of the East Asian climate with regard to the above physical processes has been presented in the first part of the present paper. This is the second part, as a continuation of Part I. In order to verify the performance of the nested regional climate model, a ten-year simulation driven by NCEP reanalysis datasets has been made to explore the performance of the East Asian climate simulation and to identify the model’s systematic errors. At the same time, comparative simulation experiments for 5 years between the RegCM2 and RegCM_NCC have been done to further understand their differences in simulation performance. Also, a ten-year hindcast (1991–2000) for summer (June–August), the rainy season in China, has been undertaken. The preliminary results have shown that the RegCM_NCC is capable of predicting the major seasonal rain belts. The best predicted regions with high anomaly correlation coefficient (ACC) are located in the eastern part of West China, in Northeast China and in North China, where the CGCM has maximum prediction skill as well. This fact may reflect the importance of the largescale forcing. One significant improvement of the prediction derived from RegCM_NCC is the increase of ACC in the Yangtze River valley where the CGCM has a very low, even a negative, ACC. The reason behind this improvements is likely to be related to the more realistic representation of the large-scale terrain features of the Tibetan Plateau. Presumably, many rain-producing systems may be generated over or near the Tibetan Plateau and may then move eastward along the Yangtze River basin steered by upper-level westerly airflow, thus leading to enhancement of rainfalls in the mid and lower basins of the Yangtze River. The real-time experimental predictions for summer in 2001, 2002, 2003 and 2004 by using this nested RegCM_NCC were made. The results are basically reasonable compared with the observations.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Chang, W. L., 2001: Implementation of a regional climate model at the Hong Kong observatory, research activities in atmospheric and oceanic modeling-report No. 31, CAS/JSC Working Group on Numerical Experimentation, H. Ritchie., Ed., WMO/TD No. 1064, World Meteorological Organization, Geneva, Switzerland.
Chang, W. L., and K. H. Yeung, 2003: Seasonal forecasting for Hong Kong—A pilot study. Technical Note No. 104, Hong Kong Observatory, 87pp.
Cocke, S., and T. E. LaRow, 2000: Seasonal predictions using a regional spectral model embedded within a coupled ocean-atmosphere model. Mon. Wea. Rev., 128, 689–708.
Ding Yihui, 1994: Monsoons over China. Kluwer Academic Publishers, 419pp.
Ding Yihui, and Coauthors, 1998: Improvement of high-resolution regional climate model and its application to numerical simulation of prolonged heavy rainfalls in East Asia. Development of Operational Short-term Climate Model, Series. 2, Ding Yihui, Ed., China Meteorological Press, Beijing, 217–231. (in Chinese)
Ding Yihui, Liu Yiming, Song Yongjia, and Li Qingquan, 2002: Research and experiments of the short-term climate dynamical prediction model system in China. Climatic and Environmental Research, 7, 236–246. (in Chinese)
Ding Yihui, Liu Yiming, Song Yongjia, and Li Qingquan, 2003: The experimental use of the regional climate model in the seasonal prediction in China National Climate Center. Proc. 2nd Workshop on Regional Climate Model, 2003, Yokohama, Japan, organized by Frontier Research System for Global Change (FRSGC) and GAME, 9–14.
Dutton, J. F., and E. J. Barron, 2000: Intra-annual and interannual ensemble forcing of a regional climate model. J. Geophys. Res., 105, 29253–29538.
Feddersen, H., A. Navarra, and M. N. Ward, 1999: Reduction of model systematic error by statistical correction for dynamical seasonal predictions. J. Climate, 12, 1974–1989.
Gates, W. L., and Coauthors, 1999: An overview of the results of the Atmospheric Model Intercomparison Project (AMIP 1). Bull. Amer. Meteor. Soc., 80, 29–55.
Giorgi, F., and L. O. Mearns, 1999: Introduction to special section: Regional climate modeling revisited. J. Geophys. Res., 104, 6335–6352.
Giorgi, F., and B. Hewitson, 2001: Regional climate information—Evaluation and Projection. Climate Change 2001: The Scientific Basis, Houghton et al., Eds., Cambridge University Press, Cambridge, UK, 585–638.
Goddard, L., S. J. Mason, S. E. Zebiak, C. F. Ropelewski, R. Basher, and M. A. Cane, 2001: Current approaches to seasonal-to-interannual climate predictions. International Journal of Climatology, 21, 1111–1152.
Hoffman, R. N., and E. Kalnay, 1983: Lagged average forecasting, alternative to Monte Carlo forecasting. Tellus, 35A, 100–118.
Hong, S.-Y., and A. Leetmaa, 1999: An evaluation of the NCEP RSM for regional climate modeling. J. Climate, 12, 592–609.
Hui, T. W., K. H. Yeung, and W. L. Chang, 2001: Adaptation of NCEP RSM model for seasonal forecasting. Third RSM International Conference, Taipei, 23–27 July 2001, Reprint No. 436, Hong Kong Observatory.
Hui, T. W., W. L. Chang, and K. K. Y. Shum, 2002: Seasonal forecasting for Hong Kong with ensembles from a regional model—Some preliminary results. 2nd APCN Working Group Meeting, 11–13 June, 2002, Seoul, Republic of Korea, Reprint No. 480, Hong Kong Observatory.
Jin Xiangze, Zhang Xuehong, and Zhou Tianjun, 1999: Fundamental framework and experiments of the third generation of IAP/LASG World Ocean General Circulation Model. Adv. Atmos. Sci., 16, 197–215.
Juang, H.-M. II, S.-Y. Hong, and M. Kanamitsu, 1997: The NCEP regional spectral model: An update. Bull. Amer. Meteor. Soc., 28, 2125–2143.
Kang, I.-S., and Coauthors, 2002: Intercomparsion of the climatological variations of Asian summer monsoon precipitation simulated by 10 GCMs. Climate Dyn., 19, 383–395.
Kato, H., H. Hirakuchi, K. Nishizawa, and F. Giorgi, 1999: Performance of NCAR RegCM2 in the simulation of June and January climate over eastern Asia and high-resolution effect of the model. J. Geophys. Res., 104, 6455–6476.
Lee, D.-K., and M.-S. Suh, 2000: Ten-year Asian summer monsoon simulation using a regional climate model (RegCM2). J. Geophys. Res., 105, 29565–29577.
Lee, D.-K., D. H. Cha, and H.-S. Kang, 2003: The 10-year regional climate simulation over Asia from 1989 to 1998 using the SNURCM. Proc. Second Workshop on Regional Climate Models, Yokohama, Japan, organized by Frontier Research system for Global Change (FRSGC) and GAME, 39–44.
Leung, L. R., S. J. Ghan, Z. C. Zhao, Y. Luo, W.-C. Wang, and H. L. Wei, 1999: Inter-comparison of regional climate simulations of 1991 summer monsoon in eastern Asia. J. Geophys. Res., 104, 6425–6454.
Leung, L. R., L. O. Mearns, F. Giorgi, and R. L. Wilby, 2003: Regional climate research-needs and opportunity. Bull. Amer. Meteor. Soc., 84, 89–95.
Liu Yiming, and Ding Yihui, 2002a: Modified mass flux cumulus convective parameterization scheme and its simulation experiment—Part I: Mass flux scheme and its simulation of the 1991 flood event. Acta Meteorologica Sinica, 16, 37–49.
Liu Yiming, and Ding Yihui, 2002b: Simulation of heavy rainfall in the summer of 1998 over China with regional climate model. Acta Meteorologica, Sinica, 16, 346–362.
Luo Yong, Zhao Zongci, and Ding Yihui, 2002: Ability of NCAR RegCM2 in reproducing the dominant physical processes during the anomalous rainfall episodes in the summer of 1991 over the Yangtze-Huaihe valley. Adv. Atmos. Sci., 19, 236–254.
McGregor, J. L., 1997: Regional climate modeling. Meteor. Atmos. Phys., 63, 106–117.
Mearns, L. O., F. Giorgi, P. Whetton, D. Pabon, M. Hulme, and M. Lal, 2003: Guidelines for use of climate scenarios developed from regional climate model experiments. The 5th IPCC/TGCIA Meeting, Barbados, 38pp.
Noguer, M., R. G. Jones, and J. M. Murphy, 1998: Sources of systematic errors in climatology of a nested regional climate model (RCM) over Europe. Climate Dyn., 14, 691–712.
Pan, Z., J. H. Christensen, R. W. Arritt, W. J. Gutowski Jr., E. S. Takle, and F. Otieno, 2001: Evaluation of uncertainties in regional climate change simulations. J. Geophys. Res., 106, 17735–17751.
Sasaki, H., Y. Sato, K. Adachi, and H. Kida, 2000: Performance and evaluation of the MRI regional climate model with the spectral boundary coupling method. J. Meteor. Soc. Japan, 78, 477–489.
Small, E. E., F. Giorgi, and L. C. Sloan, 1999: Regional climate model simulation of precipitation in Central Asia: Mean and interannual variability. J. Geophys. Res., 104, 6563–6582.
Sperber, K. R., and Coauthors, 2001: Dynamic seasonal predictability of the Asian summer monsoon. Mon. Wea. Rev., 129, 2226–2248.
Wang Huijun, Zhou Guangqin, and Zho Yan, 2000a: An effective method for correcting the seasonal—interannual prediction of summer climate anomaly. Adv. Atmos. Sci., 17, 234–240.
Wang, W.-C., W. Gong, and H. L. Wei, 2000b: A regional model simulation of the 1991 severe precipitation event over the Yangtze-Huai River Valley. Part I: Precipitation and circulation statistics. J. Climate, 13, 74–92.
Wang, Y. Q., O. L. Sen, and B. Wang, 2003: A higher resolved regional climate model (IPRC-RegCM) and its simulation of the 1998 severe precipitation event in China. Part I: Model description and verification of simulation. J. Climate, 16, 1721–1738.
Zeng Qingcun, Zhang Banglin, Yuan Chongguang, Lu Peisheng, Yang Fanglin, Li Xu, and Wang Huijun, 1994: A note on some methods suitable for verifying and correcting the prediction of climate anomaly. Adv. Atmos. Sci., 11, 121–127.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Ding, Y., Liu, Y., Shi, X. et al. Multi-year simulations and experimental seasonal predictions for rainy seasons in China by using a nested regional climate model (RegCM_NCC) Part II: The experimental seasonal prediction. Adv. Atmos. Sci. 23, 487–503 (2006). https://doi.org/10.1007/s00376-006-0487-2
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/s00376-006-0487-2