A Significant Tornado Event near a Dryline Bulge in Northern Italy

A multiscale observational analysis of a 1.5-km-wide IF3 (International Fujita scale) tornado in northern Italy is conducted using radar and sounding data, ground weather stations, and damage surveys. The tornado occurred close to Alfonsine, along the Adriatic coast, on 22 July 2023, in one of the most tornado-prone regions of Europe. An initially hail-bearing supercell (which produced hailstones up to 10 cm in diameter) became tornadic as it approached a dryline bulge and a maritime air mass with very high-Q_e values. Before the tornadogenesis occurrence, the supercell significantly turned right and generated a damaging rear-flank downdraft (RFD) surge, with unusually cold wind gusts reaching 40 m s^-1. A dry and hot air mass from the southwest was partially ingested by the mesocyclone just before the tornado developed. A seamless wind damage pattern, transitioning from damage caused by straight-line wind gusts to tornadic damage, suggests that the tornado may have developed from the stretching of small-scale pretornadic vertical vorticity maxima within the RFD. Numerical simulations indicate that the long-lived supercell was predictable since they consistently simulated updraft helicity tracks in the area for 3 consecutive days ahead of the event. The tornado resulted in only 14 injuries, likely because it impacted a sparsely populated area. Considering that past significant tornadoes in the region affected much more densely populated areas, and since no tornado warnings or shelters are currently in place, there are growing concerns about the potential catastrophic consequences of a future significant tornado in northeastern Italy.