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The Ongoing Need for High-Resolution Regional Climate Models: Process Understanding and Stakeholder Information

William J. Gutowski, Paul Ullrich, Alex Hall, L. Ruby Leung, Travis O’Brien, Christina M. Patricola, Raymond W. Arritt, Melissa Bukovsky, Katherine Calvin, Zhe Feng, Andrew D. Jones, Gabriel J. Kooperman, Erwan Monier, Michael S. Pritchard, S. C. Pryor, Yun Qian, Alan M. Rhoades, Andrew Roberts, Kôichi Sakaguchi, Nathan M. Urban, Colin M. Zarzycki

2020Bulletin of the American Meteorological Society214 citationsDOIOpen Access PDF

Abstract

ABSTRACT Regional climate modeling addresses our need to understand and simulate climatic processes and phenomena unresolved in global models. This paper highlights examples of current approaches to and innovative uses of regional climate modeling that deepen understanding of the climate system. High-resolution models are generally more skillful in simulating extremes, such as heavy precipitation, strong winds, and severe storms. In addition, research has shown that fine-scale features such as mountains, coastlines, lakes, irrigation, land use, and urban heat islands can substantially influence a region’s climate and its response to changing forcings. Regional climate simulations explicitly simulating convection are now being performed, providing an opportunity to illuminate new physical behavior that previously was represented by parameterizations with large uncertainties. Regional and global models are both advancing toward higher resolution, as computational capacity increases. However, the resolution and ensemble size necessary to produce a sufficient statistical sample of these processes in global models has proven too costly for contemporary supercomputing systems. Regional climate models are thus indispensable tools that complement global models for understanding physical processes governing regional climate variability and change. The deeper understanding of regional climate processes also benefits stakeholders and policymakers who need physically robust, high-resolution climate information to guide societal responses to changing climate. Key scientific questions that will continue to require regional climate models, and opportunities are emerging for addressing those questions.

Topics & Concepts

Climate modelClimate changeStakeholderDownscalingEnvironmental scienceClimatologyPrecipitationProcess (computing)General Circulation ModelEnvironmental resource managementComputer scienceMeteorologyGeographyPolitical scienceGeologyOperating systemPublic relationsOceanographyMeteorological Phenomena and SimulationsClimate variability and modelsAtmospheric and Environmental Gas Dynamics