Assimilation of wind data from airborne Doppler cloud-profiling radar in a kilometre-scale NWP system
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Published:2019-04-17
Issue:4
Volume:19
Page:821-835
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ISSN:1684-9981
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Container-title:Natural Hazards and Earth System Sciences
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language:en
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Short-container-title:Nat. Hazards Earth Syst. Sci.
Author:
Borderies Mary, Caumont OlivierORCID, Delanoë Julien, Ducrocq VéroniqueORCID, Fourrié NadiaORCID
Abstract
Abstract. The article reports on the impact of the assimilation of wind vertical
profile data in a kilometre-scale NWP system on predicting heavy
precipitation events in the north-western Mediterranean area. The data
collected in diverse conditions by the airborne W-band radar RASTA (Radar
Airborne System Tool for Atmosphere) during a 45-day period are assimilated
in the 3 h 3DVAR assimilation system of AROME. The impact of the length of
the assimilation window is investigated. The data assimilation experiments
are performed for a heavy rainfall event, which occurred over south-eastern
France on 26 September 2012 (IOP7a) and over a 45-day cycled period. Results
indicate that the quality of the rainfall accumulation forecasts increases
with the length of the assimilation window, which recommends using
observations with a large period centred on the assimilation time. The
positive impact of the assimilation of RASTA wind data is particularly
evidenced for the IOP7a case since results indicate an improvement in the
predicted wind at short-term ranges (2 and 3 h) and in the 11 h
precipitation forecasts. However, in the 45-day cycled period, the comparison
against other assimilated observations shows an overall neutral impact.
Results are still encouraging since a slight positive improvement in the 5,
8 and 11 h precipitation forecasts was demonstrated.
Publisher
Copernicus GmbH
Subject
General Earth and Planetary Sciences
Reference41 articles.
1. Baker, W. E., Atlas, R., Cardinali, C., Clement, A., Emmitt, G. D., Gentry,
B. M., Hardesty, R. M., Källén, E., Kavaya, M. J., Langland, R., Ma,
Z., Masutani, M., McCarty, W., Pierce, R. B., Pu, Z., Riishojgaard, L. P.,
Ryan, J., Tucker, S., Weissmann, M., and Yoe, J. G.: Lidar-Measured Wind
Profiles: The Missing Link in the Global Observing System, B.
Am. Meteorol. Soc., 95, 543–564,
https://doi.org/10.1175/BAMS-D-12-00164.1, 2014. a 2. Benjamin, S. G., Schwartz, B. E., Szoke, E. J., and Koch, S. E.: The Value
of
Wind Profiler Data in U.S. Weather Forecasting, B. Am.
Meteorol. Soc., 85, 1871–1886, https://doi.org/10.1175/BAMS-85-12-1871,
2004. a 3. Borderies, M., Caumont, O., Augros, C., Bresson, É., Delanoë, J.,
Ducrocq, V., Fourrié, N., Le Bastard, T., and Nuret, M.: Simulation of
W-band radar reflectivity for model validation and data assimilation,
Q. J. Roy. Meteor. Soc., 144, 391–403,
https://doi.org/10.1002/qj.3210, 2018. a 4. Bosart, B. L., Lee, W.-C., and Wakimoto, R. M.: Procedures to improve the
accuracy of airborne Doppler radar data, J. Atmos. Ocean.
Tech., 19, 322–339, https://doi.org/10.1175/1520-0426-19.3.322, 2002. a 5. Bouniol, D., Protat, A., Plana-Fattori, A., Giraud, M., Vinson, J.-P., and
Grand, N.: Comparison of Airborne and Spaceborne 95-GHz Radar
Reflectivities and Evaluation of Multiple Scattering Effects in
Spaceborne Measurements, J. Atmos. Ocean. Tech.,
25, 1983–1995, https://doi.org/10.1175/2008jtecha1011.1, 2008. a
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