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Drinking Water Utility-Level Understanding of Climate Change Effects to System Reliability

Zia Lyle, Jeanne M. VanBriesen, Constantine Samaras

2023ACS ES&T Water23 citationsDOIOpen Access PDF

Abstract

Climate change hazards, including increased temperatures, drought, sea level rise, extreme precipitation, wildfires, and changes in freeze-thaw cycles, are expected to degrade drinking water utility system infrastructure and decrease the reliability of water provision. To assess how drinking water utility manager perceptions of these risks affect utility planning, 60 semistructured interviews were conducted with utilities of various sizes, source water supplies, and United States geographical regions. This study analyzes these interviews (1) to evaluate which climate hazards are of primary concern to drinking water managers, (2) to develop a mental model framework for assessing utility-level understanding of climate change risks to system reliability, and (3) to examine the status of current water utility adaptation planning. The results show that concern and awareness of climate hazard risks vary geographically and are grounded in historical exposure; some participants do not believe climate change will influence their system's overall reliability. When considering climate change risks, utility managers tend to focus on effects to water supply and infrastructure, as opposed to changes in operations and maintenance, water quality, or business functions. Most surveyed utilities do not have comprehensive climate adaptation plans despite federal and professional recommendations. The range of beliefs and actions concerning climate adaptation planning indicates that utilities need directed guidance, and policymakers should consider including climate hazards and projections as part of required utility risk and resilience assessments.

Topics & Concepts

Climate changeEnvironmental resource managementWater supplyHazardAdaptation (eye)BusinessReliability (semiconductor)Environmental planningPsychological resilienceEnvironmental scienceRisk assessmentResilience (materials science)Environmental economicsRisk analysis (engineering)Computer scienceEnvironmental engineeringEconomicsPsychologyComputer securityPhysicsChemistryThermodynamicsOrganic chemistryPower (physics)BiologyQuantum mechanicsNeuroscienceEcologyPsychotherapistWater resources management and optimizationFlood Risk Assessment and ManagementWater Systems and Optimization
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