“…The study of precipitation and its characteristics at a sub‐daily scale is crucial for understanding water cycle dynamics (Mandal et al, 2013; Messakh et al, 2015). At these short timescales, precipitation events (rainfall or storms) can influence several environmental variables (e.g., soil and air moisture, temperature) and be linked to a range of processes (e.g., evapotranspiration, aquifer recharge, landslides, flooding, river erosion‐transport‐sedimentation, canopy interception), as well as various socioeconomic activities (e.g., crop growth, livestock farming, and power generation) (Dunkerley, 2008a; Dunkerley, 2019; Rozante et al, 2018; Souza et al, 2012). Therefore, in the context of the climate changes potentially leading to strong spatiotemporal changes in precipitation events (Hajani, 2020; Tamm et al, 2023), the assessment and understanding of the spatiotemporal variability and trends of precipitation indicators are crucial for socio‐environmental (e.g., water resource management), ecological (e.g., ecosystem health), agronomic (e.g., agrosystem productivity), and risk assessment (e.g., vulnerability to flooding, drought, and landslide hazards) studies.…”