Global-to-Regional Nested Grid Climate Simulations in the GFDL High Resolution Atmospheric Model

被引:52
作者
Harris, Lucas M. [1 ]
Lin, Shian-Jiann [1 ]
机构
[1] Princeton Univ, NOAA, Geophys Fluid Dynam Lab, Princeton, NJ 08540 USA
关键词
PART I; PRECIPITATION; PARAMETERIZATION; TEMPERATURE; MULTIYEAR; TRANSPORT;
D O I
10.1175/JCLI-D-13-00596.1
中图分类号
P4 [大气科学(气象学)];
学科分类号
0706 ; 070601 ;
摘要
A two-way nested grid version of the Geophysical Fluid Dynamics Laboratory High Resolution Atmosphere Model (HiRAM) has been developed that uses simple methods for providing nested grid boundary conditions and mass-conserving nested-to-global communication. Nested grid simulations over the Maritime Continent and over North America were performed, each at two different resolutions: a 110-km mean grid cell width refined by a factor of 3, and a 50-km mean grid cell width refined by a factor of 2. Nested grid simulations were compared against uniform-resolution simulations, and against reanalyses, to determine the effect of grid nesting on both the modeled global climate and the simulation of small-scale features. Orographically forced precipitation was robustly found to be simulated with more detail and greater realism in a nested grid simulation compared with when only the coarse grids were simulated alone. Tropical precipitation biases were reduced in the Maritime Continent region when a nested grid was introduced. Both results were robust to changes in the nested grid parameterization tunings. In North America, cold-season orographic precipitation was improved by nesting, but precipitation biases in the central and eastern United States were little changed. Improving the resolution through nesting also allowed for more intense rainfall events, greater Kelvin wave activity, and stronger tropical cyclones. Nested grid boundary artifacts were more pronounced when a one-way, noninteractive nested grid was used.
引用
收藏
页码:4890 / 4910
页数:21
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