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Optimization and impact assessment of Aeolus HLOS wind assimilation in NOAA's global forecast system
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2022
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Source: Quarterly Journal of the Royal Meteorological Society, 148(747), 2703-2716
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Journal Title:Quarterly Journal of the Royal Meteorological Society
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Description:The European Space Agency Aeolus mission launched the first-of-its-kind space-borne Doppler wind lidar in August 2018. The Aeolus Level-2B (L2B) Horizontal Line-of-Sight (HLOS) wind observations are integrated into the NOAA Finite-Volume Cubed-Sphere Global Forecast System (FV3GFS). Components of the data assimilation system are optimized to increase the forecast impact from these Aeolus observations. Three observing-system experiments (OSEs) are performed using the Aeolus L2B HLOS winds for the period of August 2–September 16, 2019: a baseline experiment assimilating all observations that are operationally assimilated in NOAA's FV3GFS but without Aeolus; an experiment adding the Aeolus L2B HLOS winds on top of the baseline configuration; and an experiment adding the Aeolus L2B HLOS winds on top of the baseline but also including a total least-squares (TLS) regression bias correction applied to the HLOS winds. The variances of the Aeolus HLOS wind random errors (i.e., observation errors) are estimated using the Hollingsworth–Lonnberg (HL) method. Results from both OSEs demonstrate positive impact of Aeolus L2B HLOS winds on the NOAA global forecast. The largest impact is seen in the tropical upper troposphere and lower stratosphere where the Day 1–3 wind vector forecast root-mean-square error (RMSE) is reduced by up to 4%. Additionally, the assimilation of Aeolus impacts the steering currents ambient to tropical cyclones, resulting in a 15% reduction in track forecast error in the Eastern Pacific basin Day 2–5 forecasts, and a 5% and 20% reduction in track forecast error in the Atlantic basin at Day 2 and Day 5, respectively. In most cases, the additional TLS bias correction increases the positive impact of Aeolus data assimilation in the NOAA global numerical weather prediction (NWP) system when compared to the assimilation of Aeolus without bias correction.
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Source:Quarterly Journal of the Royal Meteorological Society, 148(747), 2703-2716
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Rights Information:Public Domain
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Compliance:Submitted
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