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Evaluating reanalysis-driven CORDEX regional climate models over Australia: model performance and errors.

Authors :
Di Virgilio, Giovanni
Evans, Jason P.
Di Luca, Alejandro
Olson, Roman
Argüeso, Daniel
Kala, Jatin
Andrys, Julia
Hoffmann, Peter
Katzfey, Jack J.
Rockel, Burkhardt
Source :
Climate Dynamics; Sep2019, Vol. 53 Issue 5/6, p2985-3005, 21p
Publication Year :
2019

Abstract

The ability of regional climate models (RCMs) to accurately simulate current and future climate is increasingly important for impact assessment. This is the first evaluation of all reanalysis-driven RCMs within the CORDEX Australasia framework [four configurations of the Weather Forecasting and Research (WRF) model, and single configurations of COSMO-CLM (CCLM) and the Conformal-Cubic Atmospheric Model (CCAM)] to simulate the historical climate of Australia (1981–2010) at 50 km resolution. Simulations of near-surface maximum and minimum temperature and precipitation were compared with gridded observations at annual, seasonal, and daily time scales. The spatial extent, sign, and statistical significance of biases varied markedly between the RCMs. However, all RCMs showed widespread, statistically significant cold biases in maximum temperature which were the largest during winter. This bias exceeded − 5 K for some WRF configurations, and was the lowest for CCLM at ± 2 K. Most WRF configurations and CCAM simulated minimum temperatures more accurately than maximum temperatures, with biases in the range of ± 1.5 K. RCMs overestimated precipitation, especially over Australia's populous eastern seaboard. Strong negative correlations between mean monthly biases in precipitation and maximum temperature suggest that the maximum temperature cold bias is linked to precipitation overestimation. This analysis shows that the CORDEX Australasia ensemble is a valuable dataset for future impact studies, but improving the representation of land surface processes, and subsequently of surface temperatures, will improve RCM performance. The varying RCM capabilities identified here serve as a foundation for the development of future regional climate projections and impact assessments for Australia. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09307575
Volume :
53
Issue :
5/6
Database :
Complementary Index
Journal :
Climate Dynamics
Publication Type :
Academic Journal
Accession number :
138255114
Full Text :
https://doi.org/10.1007/s00382-019-04672-w