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Evaluation of regional climate model simulations versus gridded observed and regional reanalysis products using a combined weighting scheme |
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| Authors: | Hyung-Il Eum Philippe Gachon René Laprise Taha Ouarda |
| Affiliation: | 1. ESCER (étude et Simulation du Climat à l’échelle Régionale), University of Québec at Montreal, 201 Avenue Président-Kennedy, Montreal, QC, H2X 3Y7, Canada 2. Adaptation and Impacts Research Section, Climate Research Division, Environment Canada, Place Bonaventure, Portail Nord-Est, 800 rue de la Gauchetière Ouest, Bureau 7810, Montreal, QC, H5A 1L9, Canada 3. INRS-ETE (Institut National de la Recherche Scientifique, Centre Eau-Terre-Environnement), University of Québec, 490, de la Couronne, Quebec, QC, G1K 9A9, Canada |
| Abstract: | This study presents a combined weighting scheme which contains five attributes that reflect accuracy of climate data, i.e. short-term (daily), mid-term (annual), and long-term (decadal) timescales, as well as spatial pattern, and extreme values, as simulated from Regional Climate Models (RCMs) with respect to observed and regional reanalysis products. Southern areas of Quebec and Ontario provinces in Canada are used for the study area. Three series of simulation from two different versions of the Canadian RCM (CRCM4.1.1, and CRCM4.2.3) are employed over 23?years from 1979 to 2001, driven by both NCEP and ERA40 global reanalysis products. One series of regional reanalysis dataset (i.e. NARR) over North America is also used as reference for comparison and validation purpose, as well as gridded historical observed daily data of precipitation and temperatures, both series have been beforehand interpolated on the CRCM 45-km grid resolution. Monthly weighting factors are calculated and then combined into four seasons to reflect seasonal variability of climate data accuracy. In addition, this study generates weight averaged references (WARs) with different weighting factors and ensemble size as new reference climate data set. The simulation results indicate that the NARR is in general superior to the CRCM simulated precipitation values, but the CRCM4.1.1 provides the highest weighting factors during the winter season. For minimum and maximum temperature, both the CRCM4.1.1 and the NARR products provide the highest weighting factors, respectively. The NARR provides more accurate short- and mid-term climate data, but the two versions of the CRCM provide more precise long-term data, spatial pattern and extreme events. Or study confirms also that the global reanalysis data (i.e. NCEP vs. ERA40) used as boundary conditions in the CRCM runs has non-negligible effects on the accuracy of CRCM simulated precipitation and temperature values. In addition, this study demonstrates that the proposed weighting factors reflect well all five attributes and the performances of weighted averaged references are better than that of the best single model. This study also found that the improvement of WARs’ performance is due to the reliability (accuracy) of RCMs rather than the ensemble size. |
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