Blasts from the past: Reimagining historical storms with model simulations to modernize dam safety and flood risk assessment

Author:

Mahoney Kelly1,McColl Chesley12,Hultstrand Douglas M.3,Kappel William D.3,McCormick Bill4,Compo Gilbert P.12

Affiliation:

1. a NOAA Physical Sciences Laboratory, Boulder, CO

2. b Cooperative Institute for Research in the Environmental Sciences (CIRES)/University of Colorado, Boulder, CO

3. c Applied Weather Associates, Monument, CO

4. d Colorado Division of Water Resources, Denver, CO

Abstract

AbstractAccurate estimation of the potential “upper limit” for extreme precipitation is critical for dam safety and water resources management, as dam failures pose significant risks to life and property. Methods used to estimate the theoretical “upper limit” of precipitation are often outdated and in need of updating. The rarity of extreme events means that old storms with limited observational data are often used to define the upper bound of precipitation. Observations of many important old storms are limited in spatial and temporal coverage, and sometimes of dubious quality. This reduces confidence in flood hazard assessments used in dam safety evaluations and leads to unknown or uncertain societal risk.This paper describes a method for generating and applying ensembles of high-resolution, state-of-the-art numerical model simulations of historical past extreme precipitation events to meet contemporary stakeholder needs. The method was designed as part of a research-to-application-focused partnership project to update state dam safety rules in Colorado and New Mexico. The results demonstrated multiple stakeholder and user benefits which were applied directly into storm analyses utilized for extreme rainfall estimation, and diagnostics were developed and ultimately used to update Colorado state dam safety rules, officially passed in January 2020. We discuss how what started as a prototype research foray to meet a specific user need may ultimately inform wider adoption of numerical simulations for water resources risk assessment, and how the historical event downscaling method performed offers near-term, implementable improvements to current dam safety flood risk estimates that can better serve society today.

Publisher

American Meteorological Society

Subject

Atmospheric Science

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