Letture consigliate

Allen, J. T. et al. (2020). Understanding hail in the earth system. Reviews of Geophysics, 58(1), e2019RG000665. Kumjian, M.R.,et al. (2024). Radar and hail: Advances in scattering, detection, and sizing. In Precipitation Science, Scattering and Processing Algorithms Vol. 2. Institution of Engineering and Technology. Kumjian, M. R., & Lombardo, K. (2020). A hail growth trajectory model for exploring the environmental controls on hail size: Model physics and idealized tests. Journal of the Atmospheric Sciences, 77(8). Taszarek, M., Brooks, H. E., & Czernecki, B. (2017). Sounding-derived parameters associated with convective hazards in Europe. Monthly Weather Review, 145(4). Kunz, M., et al. (2020). Ambient conditions prevailing during hail events in central Europe. Natural Hazards and Earth System Sciences, 20(6). Lombardo, K., & Kading, T. (2018). The behavior of squall lines in horizontally heterogeneous coastal environments. Journal of the Atmospheric Sciences, 75(4). Wu, F., and K. Lombardo (2021). Precipitation Enhancement in Squall Lines Moving over Mountainous Coastal Regions. Journal of the Atmospheric Sciences, 78. Manzato, A., Riva, V., Tiesi, A., & Marcello Miglietta, M. (2020). Observational analysis and simulations of a severe hailstorm in northeastern Italy. Quarterly Journal of the Royal Meteorological Society, 146(732). Raupach, T. H., et al. (2021). The effects of climate change on hailstorms. Nature reviews earth & environment, 2(3). Pilguj, N.,et al. (2022). Are trends in convective parameters over the United States and Europe consistent between reanalyses and observations?. Journal of Climate, 35(12). Manzato, A., et al. (2025). Relationships between Environmental Parameters and Storm Observations in Po Valley: Are They Climate Change Invariant?. Journal of Applied Meteorology and Climatology, 64(3).