Litcius/Paper detail

Representation of Climate in Reanalyses: An Intercomparison for Europe and North America

Jan D. Keller, Sabrina Wahl

2020Journal of Climate46 citationsDOIOpen Access PDF

Abstract

AbstracT Atmospheric reanalysis datasets are a major tool to assess climate and its variability for past decades in a broad spectrum of applications. Nowadays, global reanalysis systems are available in third- and fourth-generation versions. They benefit from continuous improvements of numerical models and data assimilation schemes thus utilizing a growing number of observing systems. In the past decade, global reanalyses have been complemented by several regional reanalyses with enhanced horizontal resolution and appropriate model physics. Due to the considerable technical overhead associated with the comparison of reanalyses, it is difficult for users to identify an optimal dataset for their needs. Therefore, this study strives to provide a comprehensive intercomparison of the representation of climate in various reanalyses. The study compares four global reanalyses and three regional reanalyses over Europe and North America with in situ observations. The focus lies on the representation of near-surface temperature and precipitation expressed through various climate indices. The comparison shows that performances of the different reanalyses vary considerably depending on the parameter(s) of interest, the region, and the type of aggregation. The main findings are that regional reanalyses provide added value especially with regard to precipitation. While ECMWF’s newest reanalysis ERA5 is in better agreement with observations compared to the other global reanalyses for most climate indices over Europe, it is still outperformed by its predecessor ERA-Interim over North America. To support users in identifying an appropriate reanalysis for their needs, the study is complemented by comprehensive supplemental material.

Topics & Concepts

ClimatologyEnvironmental scienceData assimilationClimate modelPrecipitationMeteorologyClimate changeGeographyGeologyOceanographyClimate variability and modelsMeteorological Phenomena and SimulationsAtmospheric and Environmental Gas Dynamics