367543 AQPI: RAP/HRRR Model Forecasts of Atmospheric River Events Over the San Francisco Bay Area

Wednesday, 15 January 2020
Jason M. English, Cooperative Institute for Research in Environmental Sciences, Boulder, CO; NOAA, Boulder, CO; and D. D. Turner, M. Marquis, E. P. James, T. Alcott, W. R. Moninger, J. L. Bytheway, and H. Wang

Atmospheric river events can cause flooding and deaths and are responsible for nearly half of California's annual precipitation. We evaluate forecasts of numerous heavy rain events that have occurred over the past few years by running retrospective simulations and downloading existing output of the RAP/HRRR mesoscale weather model, and compare quantitative precipitation forecast (QPF) and other model parameters to available observations. We evaluate multiple versions of the RAP/HRRR model (HRRR versions 2, 3, and 4) as well as simulations of HRRRv4 with and without X-band radar data included in the data simulation. Model forecasts are compared to widely-used quantitative precipitation estimation (QPE) products such as the Stage IV analysis, rain gauges, and radars, as well as other parameters such as temperature and winds. While the HRRR model versions have some differences in spatial/temporal QPF accuracy, all model versions predict QPF reasonably well, but have some consistent spatial biases, such as overprediction of rainfall in the Sierra Nevadas, and underprediction of rainfall in the Bay Area, based on the few cases studied.
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