Litcius/Paper detail

Increasing probability of extreme rainfall preconditioned by humid heatwaves in global coastal megacities

Poulomi Ganguli, Bruno Merz

2025npj Climate and Atmospheric Science17 citationsDOIOpen Access PDF

Abstract

Hot–wet compound events, the sequential occurrence of humid hot days followed by extreme rainfall, can cause catastrophic consequences, often exceeding the impacts of the isolated occurrence of each event. The urban-coastal microclimate is confounded by complex interactions of land–sea breeze circulations, urban effects of convection and rainfall, and horizontal advection of moisture, which can favor the hot–wet compound occurrence. We present the first observational assessment (1951–2022) of summertime hot–wet compound events across global coastal megacities. We find a significant ( P < 0.001) increase in the frequency of hot–wet compound events in both hemispheres: on average, ~3 events in the 1950s to 43 events in the 2020s. Cities with upward trends in the frequency of hot–wet compound events are situated < 30 km from coasts, with cities in the southern hemisphere showing faster hot-to-wet transition times (<3 days) than cities in the northern hemisphere. Further, 26 out of 29 sites show increased extreme precipitation, reaching 153%, when humid heat amplitude rises from the 50th to 90th percentiles. Understanding hot–wet compound interactions over the world’s coasts is highly relevant for climate change impact assessment and informing climate adaptation.

Topics & Concepts

MegacityClimatologyEnvironmental scienceGeologyEconomicsEconomyClimate variability and modelsMeteorological Phenomena and SimulationsGeophysics and Gravity Measurements