Since the impacts of climate change on the environment have been constantly rising over the lastdecades, scientists have paid much attention to understanding the effects of this phenomenon.Climate change leads to different kinds of extremes, such as heavy rainfall events, characterizedby short duration and high intensity, and drought, which can cause the problem of water scarcityover a certain area. These types of extreme events cause several damages for the affected areassince they can result in loss of human lives and economic damages. In particular, heavy rainfallevents, which are often associated with convective precipitation because of their characteristics,may result in flash floods, especially when they hit small catchments with low times ofconcentration, thus causing economic damages and, more relevantly, human lives losses.The increasing occurrence of heavy rainfall events in many areas of Europe, also in Italy, over thelast few years, has contributed to raising the importance of understanding which factors could berecognized as drivers of these events. In this perspective, it is possible to identify in atmosphericcirculation one of the causes of severe rainfall events occurrence since some air fluxes, generatedfrom certain schemes of atmospheric circulation, could lead to the accumulation of moisturewithin a certain volume of the atmosphere, hence to the occurrence of rainfall.Since even the Sicily (Italy) has been experimenting heavy rainfall events and consequent flashfloods and urban floods in the last years, this work aims to find out a relationship between someweather circulation patterns, developed by the UK Met Office, and the rainfall Annual MAXima(AMAX) for the Sicily, recorded by the rain gauge network of Autorità di Bacino - Regione Siciliana.The possible connection between AMAX and WPs has been investigated in order to define somespecific schemes of atmospheric circulation that are responsible for leading to the occurrence ofAMAX in Sicily. In order to do this, a database containing the AMAX of all the available gauges forthe Sicily has been used. A distinction between AMAX occurred in summer and winter season andtheir related WPs has been performed as well, with the goal to understand the possible influenceof WPs on the summer and winter AMAX. Furthermore, in order to distinguish convective fromstratiform AMAX, some analyses on reanalysis data, namely the CAPE and the Vertical Integral ofDivergence of Moisture Flux (VIDMF), have been done.
|Title of host publication||EGU General Assembly 2020|
|Number of pages||1|
|Publication status||Published - 2020|