Title of article
An integrated high-resolution hydrometeorological modeling testbed using LIS and WRF
Author/Authors
Sujay V. Kumar a، نويسنده , , *، نويسنده , , Christa D. Peters-Lidard b، نويسنده , , Joseph L. Eastman، نويسنده , , Wei-Kuo Tao c، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2008
Pages
13
From page
169
To page
181
Abstract
Interactions between the atmosphere and the land surface have considerable influences on weather and climate. Coupled landeatmosphere
systems that can realistically represent these interactions are thus critical for improving our understanding of the atmosphere-biosphere
exchanges of energy, water, and their associated feedbacks. NASA’s Land Information System (LIS) is a high-resolution land data assimilation
system that integrates advanced land surface models, high-resolution satellite and observational data, data assimilation techniques, and high
performance computing tools. LIS has been coupled to the Weather Research and Forecasting (WRF) model, enabling a high-resolution
landeatmosphere modeling system. Synthetic simulations using the coupled LISeWRF system demonstrates the interoperable use of land surface
models, high-resolution land surface data and other land surface modeling tools through LIS. Real case study simulations for a June 2002
International H2O Project (IHOP) day is conducted by executing LIS first in an uncoupled manner to generate high-resolution soil moisture and
soil temperature initial conditions. During the case study period, the land surface (LIS) and the atmospheric (WRF) models are executed in
a coupled manner using the LISeWRF system. The results from the simulations illustrate the impact of accurate, high-resolution land surface
conditions on improving the prediction of clouds and precipitation. Thus, the coupled LISeWRF system provides a testbed to enable studies in
improving our understanding and predictability of regional and global water and energy cycles.
Keywords
Mesoscale modeling , Landeatmosphere interaction , Earth system modeling , hydrologic prediction
Journal title
Environmental Modelling and Software
Serial Year
2008
Journal title
Environmental Modelling and Software
Record number
958823
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