Litcius/Paper detail

Popular extreme sea level metrics can better communicate impacts

D. J. Rasmussen, Scott Kulp, Robert E. Kopp, Michael Oppenheimer, Benjamin Strauss

2022Climatic Change31 citationsDOIOpen Access PDF

Abstract

Estimates of changes in the frequency or height of contemporary extreme sea levels (ESLs) under various climate change scenarios are often used by climate and sea level scientists to help communicate the physical basis for societal concern regarding sea level rise. Changes in ESLs (i.e., the hazard) are often represented using various metrics and indicators that, when anchored to salient impacts on human systems and the natural environment, provide useful information to policy makers, stakeholders, and the general public. While changes in hazards are often anchored to impacts at local scales, aggregate global summary metrics generally lack the context of local exposure and vulnerability that facilitates translating hazards into impacts. Contextualizing changes in hazards is also needed when communicating the timing of when projected ESL frequencies cross critical thresholds, such as the year in which ESLs higher than the design height benchmark of protective infrastructure (e.g., the 100-year water level) are expected to occur within the lifetime of that infrastructure. We present specific examples demonstrating the need for such contextualization using a simple flood exposure model, local sea level rise projections, and population exposure estimates for 414 global cities. We suggest regional and global climate assessment reports integrate global, regional, and local perspectives on coastal risk to address hazard, vulnerability and exposure simultaneously. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s10584-021-03288-6.

Topics & Concepts

Natural hazardVulnerability (computing)Environmental resource managementEnvironmental scienceHazardContext (archaeology)Climate changeSalientRepresentativeness heuristicFlood mythCoastal hazardsVulnerability assessmentCoastal floodComputer scienceEnvironmental planningGeographyMeteorologyPsychological resilienceSea level riseStatisticsOceanographyPsychologyMathematicsPsychotherapistOrganic chemistryChemistryComputer securityArchaeologyGeologyArtificial intelligenceTropical and Extratropical Cyclones ResearchGeophysics and Gravity MeasurementsCoastal wetland ecosystem dynamics