Abstract
This paper shows the performance of an operational forecasting system, based on the regional atmospheric modeling system (RAMS), at 3 km horizontal resolution over southern Italy. The model is initialized from the 12 UTC operational analysis/forecasting cycle of the European Centre for Medium range Weather Forecasts (ECMWF). The forecast is issued for the following three days. The performance is evaluated for a whole year for the surface parameters: temperature, relative humidity, wind speed and direction, and precipitation. The verification has been performed against SYNOP stations over southern Italy. A dense non-GTS network over Calabria is used for precipitation. Results show that RMSE is about 2-3 K for temperature, 12–16% for relative humidity, 2.0–2.8 m/s for wind speed, and 55–75° for wind direction, the performance varying with the season and with the forecasting time. The error increases between the first and third forecast days. The verification of the rainfall forecast shows that the model underestimates the area of the precipitation. The model output statistics (MOS) is applied to all parameters but precipitation. Results show that the MOS reduces the RMSE by 0–30%, depending on the forecasting time, on the season and on the meteorological parameter.
Highlights
This paper shows the performance of an operational forecasting system in Southern Italy
The paper is organized as follows: in Section 2 we present the regional atmospheric modeling system (RAMS) model configuration, the observational dataset used for the verification, and the statistical scores used for the forecast evaluation; the scores are shown in Section 3 as well as the impact of the model output statistics (MOS) on the forecast statistics
The RAMS model is operational in southern Italy [24], and the results of this paper show an upgrade of that model setting
Summary
This paper shows the performance of an operational forecasting system in Southern Italy. The forecast is made for the following three days at 3 km horizontal resolution and is based on the regional atmospheric modeling system (RAMS). Southern Italy is at the centre of the Mediterranean Basin and shows a typical Mediterranean climate [1]. This climate has a strong seasonal dependence caused by the influence of the planetary-scale pressure patterns acting on the area [2,3,4]. The Azores anticyclone extends over the Mediterranean Basin and Southern Italy and favours the development of a dry and temperate climate. Breeze circulations develop along the coast (sea-land breezes) and inland (mountain-valley circulations) [5,6,7]
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