Model intercomparison in the Mediterranean: MEDMEX simulations of the seasonal cycle

J. M. Beckers; M. Rixen; P. Brasseur; J. M. Brankart; A. Elmoussaoui; M. Crépon; Ch Herbaut; F. Martel; F. Van den Berghe; L. Mortier; A. Lascaratos; P. Drakopoulos; G. Korres; K. Nittis; N. Pinardi; E. Masetti; S. Castellari; P. Carini; J. Tintore; A. Alvarez; S. Monserrat; D. Parrilla; R. Vautard; S. Speich

doi:10.1016/S0924-7963(02)00060-X

Model intercomparison in the Mediterranean: MEDMEX simulations of the seasonal cycle

J. M. Beckers, M. Rixen, P. Brasseur, J. M. Brankart, A. Elmoussaoui, M. Crépon, Ch Herbaut, F. Martel, F. Van den Berghe, L. Mortier, A. Lascaratos, P. Drakopoulos, G. Korres, K. Nittis, N. Pinardi, E. Masetti, S. Castellari, P. Carini, J. Tintore, A. AlvarezS. Monserrat, D. Parrilla, R. Vautard, S. Speich

Research output: Contribution to journal › Article › peer-review

Abstract

The simulation of the seasonal cycle in the Mediterranean by several primitive equation models is presented. All models were forced with the same atmospheric data, which consists in either a monthly averaged wind-stress with sea surface relaxation towards monthly mean sea surface temperature and salinity fields, or by daily variable European Centre for Medium Range Weather Forecast (ECMWF) reanalysed wind-stress and heat fluxes. In both situations models used the same grid resolution. Results of the modelling show that the model behaviour is similar when the most sensitive parameter, vertical diffusion, is calibrated properly. It is shown that an unrealistic climatic drift must be expected when using monthly averaged forcing functions. When using daily forcings, drifts are modified and more variability observed, but when performing an EOF analysis of the sea surface temperature, it is shown that the basic cycle, represented similarly by the models, consists of the seasonal cycle which accounts for more than 90% of its variability.

Original language	English
Pages (from-to)	215-251
Number of pages	37
Journal	Journal of Marine Systems
Volume	33-34
DOIs	https://doi.org/10.1016/S0924-7963(02)00060-X
Publication status	Published - 1 Jun 2002
Externally published	Yes

Keywords

MEDMEX
Mediterranean
Seasonal cycle

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10.1016/S0924-7963(02)00060-X

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Beckers, J. M., Rixen, M., Brasseur, P., Brankart, J. M., Elmoussaoui, A., Crépon, M., Herbaut, C., Martel, F., Van den Berghe, F., Mortier, L., Lascaratos, A., Drakopoulos, P., Korres, G., Nittis, K., Pinardi, N., Masetti, E., Castellari, S., Carini, P., Tintore, J., ... Speich, S. (2002). Model intercomparison in the Mediterranean: MEDMEX simulations of the seasonal cycle. Journal of Marine Systems, 33-34, 215-251. https://doi.org/10.1016/S0924-7963(02)00060-X

@article{b3df355f2a1442818a62e66c3c7437b9,

title = "Model intercomparison in the Mediterranean: MEDMEX simulations of the seasonal cycle",

abstract = "The simulation of the seasonal cycle in the Mediterranean by several primitive equation models is presented. All models were forced with the same atmospheric data, which consists in either a monthly averaged wind-stress with sea surface relaxation towards monthly mean sea surface temperature and salinity fields, or by daily variable European Centre for Medium Range Weather Forecast (ECMWF) reanalysed wind-stress and heat fluxes. In both situations models used the same grid resolution. Results of the modelling show that the model behaviour is similar when the most sensitive parameter, vertical diffusion, is calibrated properly. It is shown that an unrealistic climatic drift must be expected when using monthly averaged forcing functions. When using daily forcings, drifts are modified and more variability observed, but when performing an EOF analysis of the sea surface temperature, it is shown that the basic cycle, represented similarly by the models, consists of the seasonal cycle which accounts for more than 90\% of its variability.",

keywords = "MEDMEX, Mediterranean, Seasonal cycle",

author = "Beckers, \{J. M.\} and M. Rixen and P. Brasseur and Brankart, \{J. M.\} and A. Elmoussaoui and M. Cr{\'e}pon and Ch Herbaut and F. Martel and \{Van den Berghe\}, F. and L. Mortier and A. Lascaratos and P. Drakopoulos and G. Korres and K. Nittis and N. Pinardi and E. Masetti and S. Castellari and P. Carini and J. Tintore and A. Alvarez and S. Monserrat and D. Parrilla and R. Vautard and S. Speich",

year = "2002",

month = jun,

day = "1",

doi = "10.1016/S0924-7963(02)00060-X",

language = "English",

volume = "33-34",

pages = "215--251",

journal = "Journal of Marine Systems",

issn = "0924-7963",

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Beckers, JM, Rixen, M, Brasseur, P, Brankart, JM, Elmoussaoui, A, Crépon, M, Herbaut, C, Martel, F, Van den Berghe, F, Mortier, L, Lascaratos, A, Drakopoulos, P, Korres, G, Nittis, K, Pinardi, N, Masetti, E, Castellari, S, Carini, P, Tintore, J, Alvarez, A, Monserrat, S, Parrilla, D, Vautard, R & Speich, S 2002, 'Model intercomparison in the Mediterranean: MEDMEX simulations of the seasonal cycle', Journal of Marine Systems, vol. 33-34, pp. 215-251. https://doi.org/10.1016/S0924-7963(02)00060-X

TY - JOUR

T1 - Model intercomparison in the Mediterranean

T2 - MEDMEX simulations of the seasonal cycle

AU - Beckers, J. M.

AU - Rixen, M.

AU - Brasseur, P.

AU - Brankart, J. M.

AU - Elmoussaoui, A.

AU - Crépon, M.

AU - Herbaut, Ch

AU - Martel, F.

AU - Van den Berghe, F.

AU - Mortier, L.

AU - Lascaratos, A.

AU - Drakopoulos, P.

AU - Korres, G.

AU - Nittis, K.

AU - Pinardi, N.

AU - Masetti, E.

AU - Castellari, S.

AU - Carini, P.

AU - Tintore, J.

AU - Alvarez, A.

AU - Monserrat, S.

AU - Parrilla, D.

AU - Vautard, R.

AU - Speich, S.

PY - 2002/6/1

Y1 - 2002/6/1

N2 - The simulation of the seasonal cycle in the Mediterranean by several primitive equation models is presented. All models were forced with the same atmospheric data, which consists in either a monthly averaged wind-stress with sea surface relaxation towards monthly mean sea surface temperature and salinity fields, or by daily variable European Centre for Medium Range Weather Forecast (ECMWF) reanalysed wind-stress and heat fluxes. In both situations models used the same grid resolution. Results of the modelling show that the model behaviour is similar when the most sensitive parameter, vertical diffusion, is calibrated properly. It is shown that an unrealistic climatic drift must be expected when using monthly averaged forcing functions. When using daily forcings, drifts are modified and more variability observed, but when performing an EOF analysis of the sea surface temperature, it is shown that the basic cycle, represented similarly by the models, consists of the seasonal cycle which accounts for more than 90% of its variability.

AB - The simulation of the seasonal cycle in the Mediterranean by several primitive equation models is presented. All models were forced with the same atmospheric data, which consists in either a monthly averaged wind-stress with sea surface relaxation towards monthly mean sea surface temperature and salinity fields, or by daily variable European Centre for Medium Range Weather Forecast (ECMWF) reanalysed wind-stress and heat fluxes. In both situations models used the same grid resolution. Results of the modelling show that the model behaviour is similar when the most sensitive parameter, vertical diffusion, is calibrated properly. It is shown that an unrealistic climatic drift must be expected when using monthly averaged forcing functions. When using daily forcings, drifts are modified and more variability observed, but when performing an EOF analysis of the sea surface temperature, it is shown that the basic cycle, represented similarly by the models, consists of the seasonal cycle which accounts for more than 90% of its variability.

KW - MEDMEX

KW - Mediterranean

KW - Seasonal cycle

U2 - 10.1016/S0924-7963(02)00060-X

DO - 10.1016/S0924-7963(02)00060-X

M3 - Article

AN - SCOPUS:18444394310

SN - 0924-7963

VL - 33-34

SP - 215

EP - 251

JO - Journal of Marine Systems

JF - Journal of Marine Systems

ER -

Model intercomparison in the Mediterranean: MEDMEX simulations of the seasonal cycle

Abstract

Keywords

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