Abstract
Abstract. The Liguria coastal region in Italy was affected by two heavy rainfall episodes and subsequent severe flooding that occurred at the end of October and the beginning of November 2011. In both cases, the very large accumulated precipitation maxima were associated with intense and quasi-stationary convective systems that developed near the coast, both related to orographic lift and similar low-level mesoscale flow patterns over the Ligurian Sea, giving rise to pronounced convergence lines. This study aims at analysing the main dynamical processes responsible for the onset, lifecycle, intensity and localisation/propagation of the precipitating systems, using the ISAC convection-permitting model MOLOCH applied at different spatial resolutions and comparing model output fields with available observations. The ability of the model in quantitative precipitation forecasting (QPF) is tested with respect to initial conditions and model horizontal resolution. Although precipitation maxima remain underestimated in the model experiments, it is shown that errors in QPF in both amount and position tend to decrease with increasing grid resolution. It is shown that model accuracy in forecasting rainfall amounts and localisation of the precipitating systems critically depends on the ability to represent the cold air outflow from the Po Valley to the Ligurian Sea, which determines the position and intensity of the mesoscale convergence lines over the sea. Such convergence lines controls, together with the lifting produced by the Apennines chain surrounding the coast, the onset of the severe convection.
Highlights
Flood forecasting remains a very difficult task, depending on many factors that pertain to meteorological and hydrological sciences and practices
Before analysing the results of explicit convection in the context of non-hydrostatic simulations, it is interesting to consider briefly what the BOLAM model would predict in terms of quantitative precipitation forecasting (QPF) and the partition of stratiform versus convective precipitation
The northerly outbreak of cold air towards the Ligurian Sea is generally associated with the thickening of low-level cold air in the western part of the Po Valley, due to an easterly flow impinging from the eastern outlet of the valley
Summary
Flood forecasting remains a very difficult task, depending on many factors that pertain to meteorological and hydrological sciences and practices. Flood episodes are associated with a number of topographical (relatively steep though not high slopes, a concave arc-shaped coastline, and short torrents/rivers having very small catchments, of the order of 102 km or even smaller) and meteorological–climatological factors, namely a coastal slope exposed to moist southerly flows having the character of “warm conveyor belts” (Carlson, 1980; Bertò et al, 2005) or “atmospheric rivers” (Ralph and Dettinger, 2011), important sensible and latent fluxes from the sea (Turato et al, 2004) and the formation of convective systems.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
