A New Methodology for Detecting Deep Diurnal Convection Initiations in Summer: Application to the Eastern Pyrenees

Every year, thunderstorms initiating in the eastern Pyrenees cause a wide range of adverse phenomena, not only in the mountainous areas but also in the surrounding regions. Events such as heavy rainfall leading to flash floods, large or giant hail, and strong winds are common in this area. These phenomena cause significant damage and have major impacts on the population. We've used remote sensing data, specifically weather radar, to identify areas that are more prone to convection initiation. This initial analysis covers the period from 2022 to 2024 and is intended to serve as the foundation for a more extensive study. The aim of this future study will be to characterize the diurnal convection cycle over the Pyrenees. Additionally, we plan to develop a technique that can be applied to other mountainous regions where similar data are available. The steps are: 1) identifying events with precipitation over the area; 2) selecting cases associated with diurnal convection; 3) applying algorithms to determine the tracks of convective cells; and finally, 4) selecting the initial points of these trajectories. The result is a map highlighting these "hotspot" areas, which will allow us to incorporate other variables in the future, both meteorological and non-meteorological, to identify the main factors influencing the characteristics of each event.