Deconstructing the spatiotemporal characteristics of extreme precipitation events from multiple data products during Indian summer monsoon

Deconstructing the spatiotemporal characteristics of extreme precipitation events from multiple data products during Indian summer monsoon

Study Region: India Study Focus: The rising frequency of extreme precipitation events (EPEs) alters Earth systems processes and poses growing risks to socio-economic stability, intensified by climate change. This study analyzes the spatiotemporal characteristics of EPEs across the Indian subcontinen...

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Bibliographic Details
Main Authors: Sandipan Paul, Priyank J. Sharma, Ramesh S.V. Teegavarapu
Format: Article
Language:English
Published: Elsevier 2025-10-01
Series:Journal of Hydrology: Regional Studies
Subjects:
Extreme Precipitation Indices
Transitional Probabilities
Indian Summer Monsoon
Composite Performance Score
Categorical Metrics
Continuous Measures
Online Access:http://www.sciencedirect.com/science/article/pii/S2214581825004963
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Summary:Study Region: India Study Focus: The rising frequency of extreme precipitation events (EPEs) alters Earth systems processes and poses growing risks to socio-economic stability, intensified by climate change. This study analyzes the spatiotemporal characteristics of EPEs across the Indian subcontinent during the monsoon season, critical for the region’s water resources and agriculture. Using observational (IMD, APHRODITE), reanalysis (IMDAA, GLDAS, ERA5-Land), satellite (CHIRPS, PERSIANN-CDR), and hybrid (MSWEP) datasets, we assess their ability to reproduce EPE intensity, detectability, timing, trends, and statistical properties. Results identify MSWEP as the most reliable alternative to IMD in data-scarce regions, providing valuable insights for hydrologic studies, climate impact assessments, disaster risk management and enhancing socio-economic resilience. New Hydrological Insights for the Region: The study reveals that EPE intensity and frequency are highest along India’s western coast and northeast, moderate in central regions, and lowest in arid western and peninsular areas. Wet-to-wet, dry-to-dry, and wet-to-dry transitions follow similar regional patterns. Satellite datasets generally underestimate, while reanalysis datasets overestimate EPE intensities, introducing wet and dry biases in moderate-intensity event frequencies, respectively. In contrast, both datasets report an overestimation of low-intensity event frequencies. MSWEP shows the best performance with the lowest bias and highest detectability, while MSWEP and APHRODITE best preserve spatial patterns of median EPEs. No consistent EPE trend clusters are found. These findings support adaptive hydrologic design and disaster risk mitigation to combat climate change.
ISSN:2214-5818

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