Litcius/Paper detail

Metrics for evaluating tropical cyclones in climate data

Colin M. Zarzycki, Paul Ullrich, Kevin A. Reed

2021Journal of Applied Meteorology and Climatology73 citationsDOIOpen Access PDF

Abstract

Abstract This manuscript describes a software suite that can be used for objective evaluation of tropical cyclones (TCs) in gridded climate data. Using cyclone trajectories derived from 6-hourly data, a comprehensive set of metrics is defined to systematically compare and contrast products to one another. In addition to annual TC climatologies, attention is paid to spatial and temporal patterns of storm occurrence and intensity. Assessment can be performed either on the global scale or regional domains. Simple to visualize ‘scorecards’ allow for rapid credibility assessment. We showcase three key findings enabled by this suite. First, we compare the representation of TCs in seven current-generation global reanalyses and conclude that higher resolution models and those with TC-specific assimilation contain more accurate storm climatologies. Second, using a free-running Earth system model (ESM) we find that full basin refinement is required in variable-resolution configurations to adequately simulate North Atlantic TC frequency. Upstream refinement over northern Africa offers little benefit in simulating storm occurrence but spatial genesis patterns are improved. Finally, we show that TCs simulated by ESMs can be highly sensitive to individual parameterizations in climate models, with North Atlantic TC metrics varying greatly depending on version of the Morrison-Gettelman microphysics package.

Topics & Concepts

ClimatologyTropical cycloneStormEnvironmental scienceAtlantic hurricaneMeteorologyClimate modelSuiteData assimilationComputer scienceClimate changeGeographyGeologyArchaeologyOceanographyTropical and Extratropical Cyclones ResearchClimate variability and modelsOcean Waves and Remote Sensing