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The impact of the assimilation of scatterometer winds on surface wind and wave forecasts
Authors:Diana J. M. Greenslade   Eric W. Schulz  Jeff D. Kepert  Graham R. Warren
Affiliation: a Bureau of Meteorology Research Centre, Melbourne, Victoria 3001, Australiab National Meteorological and Oceanographic Centre, Melbourne, Victoria 3001, Australia
Abstract:Recent work has demonstrated that surface marine winds from the Bureau of Meteorology's operational Numerical Weather Prediction (NWP) systems are typically underestimated by 5 to 10%. This is likely to cause significant bias in modelled wave fields that are forced by these winds. A simple statistical adjustment of the wind components is shown to reduce the observed bias in Significant Wave Height considerably. The impact of increasing the vertical resolution of the NWP model and assimilating scatterometer data into the model is assessed by comparing the resulting forecast wind and waves to observations. It is found that, in general, the inclusion of scatterometer observations improves the accuracy of the surface wind forecasts. However, most of the improvement is shown to arise from the increased number of vertical levels in the atmospheric model, rather than directly from the use of the observations. When the wave model is forced with surface winds from the NWP model that includes scatterometer data, it is found that the scatterometer assimilation does not reduce the systematic bias in surface wave forecasts, but that the random errors are reduced.
Keywords:Scatterometer  Waves  Forecasting
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