Influences of Urbanization on an Afternoon Heavy Rainfall Event over the Yangtze River Delta Region

An afternoon heavy rainfall event occurred over coastal Nantong, an area of 70–100 km downstream from the Shanghai–Suzhou–Wuxi–Changzhou city belt over the Yangtze River Delta, under the influences of weak southwesterly monsoonal flows and lake/sea breezes on 26 July 2018. An observational analysis...

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Bibliographic Details
Published in:Monthly weather review 2023-03, Vol.151 (3), p.815-832
Main Authors: Jiang, Xiaoling, Zhang, Da-Lin, Luo, Yali
Format: Article
Language:English
Subjects:
Advection
Anomalies
Belts
Boundary layers
Breezes
Case studies
Cities
Clusters
Convection
Convective cells
Convective storms
Deltas
Downstream
Extreme weather
Heavy rainfall effects
Lake breezes
Lakes
Planetary boundary layer
Precipitation
Propagation
Rainfall
Regions
Rivers
Sea breezes
Simulation
Storms
Topography
Urban heat islands
Urbanization
Wind
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Summary:An afternoon heavy rainfall event occurred over coastal Nantong, an area of 70–100 km downstream from the Shanghai–Suzhou–Wuxi–Changzhou city belt over the Yangtze River Delta, under the influences of weak southwesterly monsoonal flows and lake/sea breezes on 26 July 2018. An observational analysis shows the emergence of pronounced urban heat island (UHI) effects along the city belt during the late morning hours. A series of nested-grid cloud-permitting model simulations with the finest grid spacing of 1 km are performed to examine the impacts of urbanization on convection initiation (CI) and the subsequent heavy rainfall event. Results reveal the generation of lake breezes and warm anomalies in the planetary boundary layer along the city belt and low-level convergence, thereby inducing upward motion for CI. The southwesterly flows of the monsoonal warm–moist air, enhanced by the UHI effects along the city belt, allow the development of convective cells along the city belt, some of which merge with convective clusters during their downstream propagation, and the ultimate generation of several distinct heavy rainfall centers by local convective clusters over coastal Nantong where atmospheric columns are more moist and potentially unstable under the influences of sea breezes. Sensitivity simulations show small contribution of Nantong’s UHI effects to the heavy rainfall event. The above findings help elucidate how the UHI effects could assist the CI in a weak-gradient environment, and explain why urbanization can contribute to increased downwind mean and extreme precipitation under the influences of favorable regional forcing conditions.
ISSN:0027-0644
1520-0493
DOI:10.1175/MWR-D-22-0165.1