Compound Climate Risk: Diagnosing Clustered Regional Flooding at Inter-Annual and Longer Time Scales

Abstract: The potential for extreme climate events to cluster in space and time has driven increased interest in understanding and predicting compound climate risks. Through a case study on floods in the Ohio River Basin, we demonstrated that low-frequency climate variability could drive spatial and temporal clustering of the risk of regional climate extremes. Long records of annual maximum streamflow from 24 USGS gauges were used to explore the regional spatiotemporal patterns of flooding and their associated large-sca… Show more

“…Recent trends in precipitation extremes and climate-induced dam failure potential across the CONUS Our exploration of the precipitation records confirmed evidence [28][29][30] of decadal variability in precipitation extremes over the CONUS. The most recent trends for increases in precipitation extremes were often noted post-1975.…”

Increasing risk of dam failures in the United States due to compound risk of rainfall clusters as climate changes

“…Recent trends in precipitation extremes and climate-induced dam failure potential across the CONUS Our exploration of the precipitation records confirmed evidence [28][29][30] of decadal variability in precipitation extremes over the CONUS. The most recent trends for increases in precipitation extremes were often noted post-1975.…”

Increasing risk of dam failures in the United States due to compound risk of rainfall clusters as climate changes