| [1] | WANG Bin, WAN Hui, JI Zhong-zhen, et al. Design of anew dynamical core for global atmospheric models based onsome efficient numerical methods [J]. Science in China, 2004,47(Supp.): 4-21. |
| [2] | KUO H L, NORDO J. Integration of four-level prognosticequations over the hemisphere [J]. Tellus, 1959, 11: 412-424. |
| [3] | GATES W L, RIEGEL C A. A study of numerical errors in the integration of barotropic flow on a spherical grid [J].Journal of geophysical research, 1962, 67: 773-784. |
| [4] | KURIHARA Y. Numerical integration of the primitiveequations on a spherical grid [J]. Monthly Weather Review,1965, 93: 399-415. |
| [5] | RASCH P J. Conservative shape-preserving twodimensionaltransport on a spherical reduced grid [J]. MonthlyWeather Review, 1994, 122: 1337-1350. |
| [6] | WICKETT M E, DUFFY P B, RODRIGUE G.. A reducedgrid for a parallel global ocean general circulation model [J].Ocean Modelling, 2000, 2: 85-107. |
| [7] | JIN Xiang-ze, ZHANG Xue-hong, ZHOU Tian-jun.Fundamental framework and experiments of the thirdgeneration of IAP/LASG world ocean general circulation model[J]. Advances in Atmospheric Sciences, 1999, 16: |
| [8] | LIU Hai-long. Improvements on an OGCM and simulationof ocean surface flow [D]. Beijing: Institute of AtmosphericPhysics, Chinese Academy of Sciences, 2002. |
| [9] | ZHANG Xue-hong, LIANG Xin-zhong. A numerical worldocean general circulation model [J]. Advances in AtmosphericSciences, 1989, 6: 43-61. |
| [10] | CHEN Ke-ming. Improvement on IAP coupled oceanatmospheregeneral circulation model and simulation ofgradually increasing CO2 induced climate change [D]. Beijing:Institute of Atmospheric Physics, Chinese Academy of Sciences,1994.197-215. |
| [11] | ZHANG Xue-hong, CHEN Ke-ming, JIN Xiang-ze, et al.Simulation of thermohaline circulation with a twenty-layeroceanic general circulation model [J]. Theoretical and AppliedClimatology, 1996, 55: 65-87. |
| [12] | YU Yong-qiang. Design of ocean-sea ice-atmospherecoupling scheme and numerical simulation of interdecadalclimate variability [D]. Beijing: Institute of AtmosphericPhysics, Chinese Academy of Sciences, 1997. |
| [13] | YU Yong-qiang, ZHANG Xue-hong. Acoupling scheme ofair-sea anomaly flux [M]// Study and Design of OperationalDynamic Model for Short-Range Climate Prediction System.Beijing: China Meteorological Press, 2000. 201-207. |
| [14] | YU Yong-qiang, LIU Xi-ying. ENSO and Indian Oceandipole mode in three coupled GCMs [J]. Acta OceanologicaSinica, 2004, 23:581-595. |
| [15] | LIU Xi-ying. Simulation of sea-sea ice-air interaction inhigh northern latitudes [D]. Beijing: Institute of AtmosphericPhysics, Chinese Academy of Sciences, 2001. |
| [16] | ZHANG Xue-hong, YU Yong-qiang, LIU Hai-long. TheDevelopment and Application of the Oceanic GeneralCirculation Model in LASG/IAP: I. the Global OceanicGeneral Circulation Model [J]. Chinese Journal ofAtmospheric Sciences, 2003, 27: 607-617. |
| [17] | LIU Hai-long, YU Yong-qiang, LI Wei, et al. ReferenceManual of LASG/IAP Climate System Ocean Model(LICOM1.0) [M]// Special technical report of State KeyLaboratory of Numerical Modelling for Atmospheric Sciencesand Geophysical Fluid Dynamics, Beijing: Science Press, 2004.1-7. |
| [18] | STEELE M, MORLEY R, ERMOLD W. PHC: A globalocean hydrography with a high quality Arctic Ocean [J].Journal of Climate, 2001, 14: 2079-2087. |