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Abstract
This study addresses the importance of systematic biases in regional and global climate models. Simulations for the central Mediterranean region show that, unless a bias-correction method is applied, individual models significantly overestimate regional amplification of global warming. How anthropogenic climate change will affect the climate in dry and semi-arid regions has important implications for the course of regional development. It has become increasingly common to use high-resolution regional climate models (RCMs) nested within coarser-resolution global climate models to downscale climate change projections. The aim is to obtain physically consistent information about future climate with enhanced geographical detail1,2,3. Recently, it has been demonstrated4,5 that RCMs share systematic temperature-dependent biases, which affect their ability to capture accurately certain observable climate conditions. Here, we show that owing to a broad tendency for climate models (regional and global) to show systematic biases in warm, dry climates, it is likely that, at present, many climate models overestimate regional amplification of global warming. We study Europe using the central Mediterranean as an example. To correct for individual model deficiencies, we apply a bias correction conditioned on temperature. The results demonstrate that projections of intense mean summer warming partly result from model deficiencies, and when corrected for, the Mediterranean summer temperature projections are reduced by up to one degree, on average by 10–20%. Individual models may be overestimating warming by several degrees.Cite this article
Boberg, F., Christensen, J. Overestimation of Mediterranean summer temperature projections due to model deficiencies. Nature Clim Change 2, 433–436 (2012). https://doi.org/10.1038/nclimate1454 