The Met Office Global Coupled model 2.0 (GC2) configuration

The latest coupled configuration of the Met Office Unified Model (Global Coupled configuration 2, GC2) is presented. This paper documents the model components which make up the configuration (although the scientific description of these components is detailed elsewhere) and provides a description of...

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Published in:Geoscientific Model Development 2015-05, Vol.8 (5), p.1509-1524
Main Authors: Williams, K. D, Harris, C. M, Bodas-Salcedo, A, Camp, J, Comer, R. E, Copsey, D, Fereday, D, Graham, T, Hill, R, Hinton, T, Hyder, P, Ineson, S, Masato, G, Milton, S. F, Roberts, M. J, Rowell, D. P, Sanchez, C, Shelly, A, Sinha, B, Walters, D. N, West, A, Woollings, T, Xavier, P. K
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Language:English
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Summary:The latest coupled configuration of the Met Office Unified Model (Global Coupled configuration 2, GC2) is presented. This paper documents the model components which make up the configuration (although the scientific description of these components is detailed elsewhere) and provides a description of the coupling between the components. The performance of GC2 in terms of its systematic errors is assessed using a variety of diagnostic techniques. The configuration is intended to be used by the Met Office and collaborating institutes across a range of timescales, with the seasonal forecast system (GloSea5) and climate projection system (HadGEM) being the initial users. In this paper GC2 is compared against the model currently used operationally in those two systems. Overall GC2 is shown to be an improvement on the configurations used currently, particularly in terms of modes of variability (e.g. mid-latitude and tropical cyclone intensities, the Madden–Julian Oscillation and El Niño Southern Oscillation). A number of outstanding errors are identified with the most significant being a considerable warm bias over the Southern Ocean and a dry precipitation bias in the Indian and West African summer monsoons. Research to address these is ongoing.
ISSN:1991-9603
1991-959X
1991-962X
1991-9603
1991-962X
DOI:10.5194/gmd-8-1509-2015