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Weather forecasts started from realistic initial conditions are used to diagnose the large warm and dry bias over the United States Southern Great Plains simulated by the GFDL climate model. The forecasts exhibit biases in surface air temperature and precipitation within 3 days which appear to be similar to the climate bias. With the model simulating realistic evaporation but underestimated precipitation, a deficit in soil moisture results which amplifies the initial temperature bias through feedbacks with the land surface. The underestimate of precipitation is associated with an inability of the model to simulate the eastward propagation of convection from the front-range of the Rocky Mountains and is insensitive to an increase of horizontal resolution from 2{sup o} to 0.5{sup o} latitude.
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| Authors: |
Klein, S A;
Jiang, X;
Boyle, J;
Malyshev, S;
Xie, S
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| Publication Date: | 2006 Jul 11 |
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| OSTI Identifier: | 900082 |
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| Report Number(s): | UCRL-JRNL-222802 |
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| DOE Contract Number: | W-7405-ENG-48 |
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| Resource Type: | Journal Article |
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| Resource Relation: | Journal Name: Geophysical Research Letters, vol. 33, N/A, September 22, 2006, Geophys. Res. Lett., 33, L18805, doi:10.1029/2006GL027567 |
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| Research Org: | Lawrence Livermore National Laboratory (LLNL), Livermore, CA |
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| Sponsoring Org: | USDOE |
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| Country of Publication: | United States |
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| Language: | English |
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| Format: | Size: PDF-file: 21 pages; size: 4.9 Mbytes |
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| Other Number(s): | TRN: US200709%%374 |
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| Subject: | 54 ENVIRONMENTAL SCIENCES; CLIMATE MODELS; CLIMATES; CONVECTION; DIAGNOSIS; EVAPORATION; FORECASTING; MOISTURE; PRECIPITATION; RESOLUTION; ROCKY MOUNTAINS; SOILS; SURFACE AIR; WEATHER |
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| Update Date: | 2009 Dec 16 |
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