Modeling non-stationarity in intensity, duration and frequency of extreme rainfall over India

•Non-stationarity in extreme rainfall characteristics over India modeled.•Drivers of intensity, duration and frequency of extreme rainfall identified.•Local temperature significantly affects extreme rainfall intensity and frequency. Significant changes are reported in extreme rainfall characteristic...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2015-02, Vol.521, p.217-231
Main Authors: Mondal, Arpita, Mujumdar, P.P.
Format: Article
Language:English
Subjects:
Extreme rainfall
Extreme Value Theory
Extreme values
Global warming
Hydrology
India
Indicators
Local temperature changes
Longitude
Mathematical models
Monsoons
Natural variability
Non-stationarity
Rainfall
Risk
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Summary:•Non-stationarity in extreme rainfall characteristics over India modeled.•Drivers of intensity, duration and frequency of extreme rainfall identified.•Local temperature significantly affects extreme rainfall intensity and frequency. Significant changes are reported in extreme rainfall characteristics over India in recent studies though there are disagreements on the spatial uniformity and causes of trends. Based on recent theoretical advancements in the Extreme Value Theory (EVT), we analyze changes in extreme rainfall characteristics over India using a high-resolution daily gridded (1° latitude×1° longitude) dataset. Intensity, duration and frequency of excess rain over a high threshold in the summer monsoon season are modeled by non-stationary distributions whose parameters vary with physical covariates like the El-Nino Southern Oscillation index (ENSO-index) which is an indicator of large-scale natural variability, global average temperature which is an indicator of human-induced global warming and local mean temperatures which possibly indicate more localized changes. Each non-stationary model considers one physical covariate and the best chosen statistical model at each rainfall grid gives the most significant physical driver for each extreme rainfall characteristic at that grid. Intensity, duration and frequency of extreme rainfall exhibit non-stationarity due to different drivers and no spatially uniform pattern is observed in the changes in them across the country. At most of the locations, duration of extreme rainfall spells is found to be stationary, while non-stationary associations between intensity and frequency and local changes in temperature are detected at a large number of locations. This study presents the first application of non-stationary statistical modeling of intensity, duration and frequency of extreme rainfall over India. The developed models are further used for rainfall frequency analysis to show changes in the 100-year extreme rainfall event. Our findings indicate the varying nature of each extreme rainfall characteristic and their drivers and emphasize the necessity of a comprehensive framework to assess resulting risks of precipitation induced flooding.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2014.11.071