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The effect of the NAO on sea level and on mass changes in the Mediterranean Sea

The effect of the NAO on sea level and on mass changes in the Mediterranean Sea
The effect of the NAO on sea level and on mass changes in the Mediterranean Sea
Sea level in the Mediterranean Sea over the period 1993–2011 is studied on the basis of altimetry, temperature, and salinity data and gravity measurements from Gravity Recovery and Climate Experiment (GRACE) (2002–2010). An observed increase in sea level corresponds to a linear sea level trend of 3.0?±?0.5?mm/yr dominated by the increase in the oceanic mass in the basin. The increase in sea level does not, however, take place linearly but over two 2–3?year periods, each contributing 2–3?cm of sea level. Variability in the basin sea level and its mass component is dominated by the winter North Atlantic Oscillation (NAO). The NAO influence on sea level is primarily linked with atmospheric pressure changes and local wind field changes. However, neither the inverse barometer correction nor a barotropic sea level model forced by atmospheric pressure and wind can remove fully the NAO influence on the basin sea level. Thus, a third contributing mechanism linked with the NAO is suggested. During winter 2010, a low NAO index caused a basin sea level increase of 12?cm which was almost wholly due to mass changes and is evidenced by GRACE. About 8?cm of the observed sea level change can be accounted for as due to atmospheric pressure and wind changes. The residual 4?cm of sea level change is caused by the newly identified contribution. The physical mechanisms that may be responsible for this additional contribution are discussed.
sea level, North Atlantic Oscillation, Mediterranean Sea, mass addition
2169-9275
944-952
Tsimplis, M.N.
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Calafat, F.M.
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Marcos, M.
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Jordà, G.
b115333d-2852-49d8-bfc2-f42827580201
Gomis, D.
ef896bf2-de1e-48b2-8faa-c66f3f439f3c
Fenoglio-Marc, L.
25b35821-95ba-43bc-a5cd-6a027de36b6b
Struglia, M.V.
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Josey, S.A.
2252ab7f-5cd2-49fd-a951-aece44553d93
Chambers, D.P.
a27129a4-fcbb-4b56-96d4-a285ac7a23f6
Tsimplis, M.N.
df6dd749-cda4-46ec-983c-bf022d737031
Calafat, F.M.
7c43d62a-c376-446c-93b4-87d4c1bd9d05
Marcos, M.
3cd7a6cd-def3-47a9-a7c4-7ef305fc0bf1
Jordà, G.
b115333d-2852-49d8-bfc2-f42827580201
Gomis, D.
ef896bf2-de1e-48b2-8faa-c66f3f439f3c
Fenoglio-Marc, L.
25b35821-95ba-43bc-a5cd-6a027de36b6b
Struglia, M.V.
9b727bab-860b-46c5-842c-c634bf2dfc17
Josey, S.A.
2252ab7f-5cd2-49fd-a951-aece44553d93
Chambers, D.P.
a27129a4-fcbb-4b56-96d4-a285ac7a23f6

Tsimplis, M.N., Calafat, F.M., Marcos, M., Jordà, G., Gomis, D., Fenoglio-Marc, L., Struglia, M.V., Josey, S.A. and Chambers, D.P. (2013) The effect of the NAO on sea level and on mass changes in the Mediterranean Sea. Journal of Geophysical Research: Oceans, 118 (2), 944-952. (doi:10.1002/jgrc.20078).

Record type: Article

Abstract

Sea level in the Mediterranean Sea over the period 1993–2011 is studied on the basis of altimetry, temperature, and salinity data and gravity measurements from Gravity Recovery and Climate Experiment (GRACE) (2002–2010). An observed increase in sea level corresponds to a linear sea level trend of 3.0?±?0.5?mm/yr dominated by the increase in the oceanic mass in the basin. The increase in sea level does not, however, take place linearly but over two 2–3?year periods, each contributing 2–3?cm of sea level. Variability in the basin sea level and its mass component is dominated by the winter North Atlantic Oscillation (NAO). The NAO influence on sea level is primarily linked with atmospheric pressure changes and local wind field changes. However, neither the inverse barometer correction nor a barotropic sea level model forced by atmospheric pressure and wind can remove fully the NAO influence on the basin sea level. Thus, a third contributing mechanism linked with the NAO is suggested. During winter 2010, a low NAO index caused a basin sea level increase of 12?cm which was almost wholly due to mass changes and is evidenced by GRACE. About 8?cm of the observed sea level change can be accounted for as due to atmospheric pressure and wind changes. The residual 4?cm of sea level change is caused by the newly identified contribution. The physical mechanisms that may be responsible for this additional contribution are discussed.

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Published date: February 2013
Keywords: sea level, North Atlantic Oscillation, Mediterranean Sea, mass addition
Organisations: Marine Systems Modelling, Marine Physics and Ocean Climate

Identifiers

Local EPrints ID: 353608
URI: http://eprints.soton.ac.uk/id/eprint/353608
DOI: doi:10.1002/jgrc.20078
ISSN: 2169-9275
PURE UUID: 8bf87a3b-052b-4f25-a033-2db4f88c2a29

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Date deposited: 11 Jun 2013 13:13
Last modified: 14 Mar 2024 14:07

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Contributors

Author: M.N. Tsimplis
Author: F.M. Calafat
Author: M. Marcos
Author: G. Jordà
Author: D. Gomis
Author: L. Fenoglio-Marc
Author: M.V. Struglia
Author: S.A. Josey
Author: D.P. Chambers

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