22nd Conference on Weather Analysis and Forecasting/18th Conference on Numerical Weather Prediction

4A.6

The RTMA background - Hourly downscaling of RUC data to 5-km detail

Stan Benjamin, NOAA/ESRL, Boulder, CO; and J. M. Brown, G. S. Manikin, and G. Mann

The Real-Time Mesoscale Analysis is designed to provide the best 5-km gridded estimate of current surface and near-surface conditions on an hourly basis in support of National Weather Service operational activities and the NWS National Digital Forecast Database (NDFD). Even with availability of increasingly dense mesonet observations, the RTMA must incorporate a 3-d atmospheric/land-surface model to ensure some measure of physical consistency with land-surface conditions, land-water contrasts, terrain elevation, as well as with the 3-d effects of realistic thermal stability, boundary-layer structure, and local circulations. Therefore, the RTMA relies on a background field fully consistent with these 3-d model-based effects by using the previous 1-h forecast from the Rapid Update Cycle (RUC). The RUC, with its detailed hourly assimilation of 3-d atmospheric observations and special emphasis on 3-d variational assimilation of METAR and mesonet data, is appropriate for providing the RTMA background field for a subsequent GSI-2dVAR enhancement.

As part of the hourly post-processing in the NCEP-operational 13-km RUC, a downscaling technique was developed to produce 5-km gridded fields from the full-resolution native (hybrid sigma-isentropic) RUC coordinate data to calculate values consistent with the higher-resolution 5-km RTMA terrain elevation field. The RUC-RTMA downscaling technique includes both horizontal and vertical components. The vertical component uses near-surface stability from the RUC native data to adjust to the RTMA 5-km terrain. In the horizontal, for example, coastline definition is enhanced as part of this RUC-RTMA downscaling using a 5-km roughness length field used to distinguish land-water boundaries on the 5-km RTMA grid. The fields downscaled to the 5-km grid include o 2-m temperature o 2-m dewpoint o surface pressure o 10-m wind components o 2-m specific humidity o gust wind speed o cloud base height (ceiling) o visibility

Ceiling and visibility (not yet required for RTMA) are defined with some accuracy due to RUC hourly assimilation of METAR cloud and visibility observations.

RTMA downscaling for temperature uses virtual potential temperature, the related prognostic/analysis variable in the RUC model/assimilation system, an advantage for interpolation in irregular terrain in mixed layer conditions. Different techniques were developed for these different variables, including special approaches for vertical extrapolation vs. interpolation dependent on whether RTMA terrain elevation is higher or lower than RUC terrain. The accuracy of the RTMA fields is dependent on this RUC-RTMA downscaling, and therefore, of considerable interest to NWS RTMA users.

Further improvements were implemented operationally into the RUC post-processing in December 2006. The latest RUC-RTMA downscaling techniques will be presented, including unique treatments for vertical extrapolation vs. interpolation and coastline sharpening.

extended abstract  Extended Abstract (476K)

Session 4A, Analysis Systems
Tuesday, 26 June 2007, 4:15 PM-6:00 PM, Summit A

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