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Impact of dynamical regionalization on precipitation biases and teleconnections over West Africa

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Gómara Cardalliaguet, Íñigo and Mohino Harris, Elsa and Losada Doval, Teresa and Domínguez, Marta and Suárez Moreno, Roberto and Rodríguez Fonseca, María Belén (2018) Impact of dynamical regionalization on precipitation biases and teleconnections over West Africa. Climate dynamics, 50 (11). pp. 4481-4506. ISSN 0930-7575

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Official URL: http://dx.doi.org/10.1007/s00382-017-3886-4


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Abstract

West African societies are highly dependent on the West African Monsoon (WAM). Thus, a correct representation of the WAM in climate models is of paramount importance. In this article, the ability of 8 CMIP5 historical General Circulation Models (GCMs) and 4 CORDEX-Africa Regional Climate Models (RCMs) to characterize the WAM dynamics and variability is assessed for the period July-August-September 1979-2004. Simulations are compared with observations. Uncertainties in RCM performance and lateral boundary conditions are assessed individually. Results show that both GCMs and RCMs have trouble to simulate the northward migration of the Intertropical Convergence Zone in boreal summer. The greatest bias improvements are obtained after regionalization of the most inaccurate GCM simulations. To assess WAM variability, a Maximum Covariance Analysis is performed between Sea Surface Temperature and precipitation anomalies in observations, GCM and RCM simulations. The assessed variability patterns are: El Nio-Southern Oscillation (ENSO); the eastern Mediterranean (MED); and the Atlantic Equatorial Mode (EM). Evidence is given that regionalization of the ENSO-WAM teleconnection does not provide any added value. Unlike GCMs, RCMs are unable to precisely represent the ENSO impact on air subsidence over West Africa. Contrastingly, the simulation of the MED-WAM teleconnection is improved after regionalization. Humidity advection and convergence over the Sahel area are better simulated by RCMs. Finally, no robust conclusions can be determined for the EM-WAM teleconnection, which cannot be isolated for the 1979-2004 period. The novel results in this article will help to select the most appropriate RCM simulations to study WAM teleconnections.


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©2018 Springer
We thank the National Centers for Environmental Prediction (NCEP)/National Center for Atmospheric Research (NCAR) and the National Aeronautics and Space Administration (NASA) for the GPCP and MERRA datasets, respectively. We also thank the European Centre for Medium-Range Weather Forecasts and the Met Office Hadley Centre for the ERA-Interim and HadISST databases. We are indebted to the Coupled Model Inter-comparison Project Phase 5 (CMIP5), Coordinated Regional Climate Downscaling Experiment (CORDEX) and involved institutions for providing the GCM/RCM simulations used in this study. We also thank the Earth System Grid Federation (ESGF) for making these simulations available. This study has been supported by the European Commission's research project PREFACE (EU/FP7 2007-2013; ref. 603521). Inigo Gomara is also supported by the Spanish Ministry of Economy and Competitiveness ("Juan de la Cierva-Formacion" contract; FJCI-2015-23874). Finally, we would like to thank the two anonymous reviewers, whose pertinent comments and suggestions have contributed to improve this manuscript.

Uncontrolled Keywords:Era-interim reanalysis; Climate model; Equatorial Atlantic; Sahel rainfall; Interannual variability; Sst Anomalies; Heat low; Monsoon; Simulations; Temperature; Precipitation; West African monsoon; Tropical variability; Teleconnections; CMIP5; CORDEX
Subjects:Sciences > Physics > Geophysics
Sciences > Physics > Meteorology
ID Code:48459
Deposited On:03 Jul 2018 17:10
Last Modified:01 Jun 2019 23:01

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