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Hydrological changes in the Mediterranean Sea in relation to changes in the freshwater budget: A numerical modelling study

Hydrological changes in the Mediterranean Sea in relation to changes in the freshwater budget: A numerical modelling study
Hydrological changes in the Mediterranean Sea in relation to changes in the freshwater budget: A numerical modelling study
The response of the Mediterranean Sea and the various sub-basins to changes in the freshwater budget are investigated in a process-oriented study, using the POM model. The model is first integrated using values of the Nile and Ebro rivers runoff, as well as of the Dardanelles freshwater input, typical of the fifties. The model reaches a steady state representative of that existing in the Mediterranean prior to the major damming period after 90 years of integration. Then the model is integrated using the reduced river runoff values typical of the after-damming period. The additional impact of decadal scale trends in the precipitation rate as well as of intense surface cooling periods/events on the thermohaline circulation during the last 40 years were also examined. The model results show that the dramatic reduction of the Nile freshwater input and to a lesser extent the reduction of the freshwater input from the Dardanelles Straits induced a large increase in the sea surface salinity in the Aegean and Levantine basins in the late sixties/early seventies, in agreement with observations. Furthermore, the Ebro runoff reduction during the same period further enhanced the salinity increase in the Levantine basin as higher salinity surface waters of the western basin reached the eastern basin via the Atlantic Water circulation. This saltier surface layer in the vicinity of the Rhodes Gyre favoured the preconditioning for the formation of the Levantine Intermediate Water, resulting in about 40% increase of its formation rate. This in turn resulted in the production of saltier and larger amounts of deep waters in the various deep-water formation sites. According to the model, the river damming and decreased precipitation since the eighties explain about 95% of the observed salinity increase in the Western Mediterranean Deep Water over the last 40 years. The major contributor to this increase was proved to be the Nile damming. The salt increase in the surface layer is proved to be insufficient to produce alone the two climatic transient events in the deep waters of the Eastern Mediterranean in the late sixties and early nineties, respectively. Surface cooling was found to be important, resulting in large deep water formation and thus allowing the propagation of the increased surface salinity signal to the deep layers. However, model results demonstrate that the river damming played an important role in the long-term salt preconditioning of the surface/intermediate layers, thus contributing in triggering the two events.
Mediterranean Sea, Modelling, River discharge, Freshwater budget, Thermohaline circulation, Deep water formation
0924-7963
400-416
Skliris, N.
07af7484-2e14-49aa-9cd3-1979ea9b064e
Sofianos, S.
815ee3cd-92b0-4975-a312-6ca783dc2e6b
Lascaratos, A.
168181e0-1bce-4123-be04-853e59b69ed7
Skliris, N.
07af7484-2e14-49aa-9cd3-1979ea9b064e
Sofianos, S.
815ee3cd-92b0-4975-a312-6ca783dc2e6b
Lascaratos, A.
168181e0-1bce-4123-be04-853e59b69ed7

Skliris, N., Sofianos, S. and Lascaratos, A. (2007) Hydrological changes in the Mediterranean Sea in relation to changes in the freshwater budget: A numerical modelling study. Journal of Marine Systems, 65 (1-4), 400-416. (doi:10.1016/j.jmarsys.2006.01.015).

Record type: Article

Abstract

The response of the Mediterranean Sea and the various sub-basins to changes in the freshwater budget are investigated in a process-oriented study, using the POM model. The model is first integrated using values of the Nile and Ebro rivers runoff, as well as of the Dardanelles freshwater input, typical of the fifties. The model reaches a steady state representative of that existing in the Mediterranean prior to the major damming period after 90 years of integration. Then the model is integrated using the reduced river runoff values typical of the after-damming period. The additional impact of decadal scale trends in the precipitation rate as well as of intense surface cooling periods/events on the thermohaline circulation during the last 40 years were also examined. The model results show that the dramatic reduction of the Nile freshwater input and to a lesser extent the reduction of the freshwater input from the Dardanelles Straits induced a large increase in the sea surface salinity in the Aegean and Levantine basins in the late sixties/early seventies, in agreement with observations. Furthermore, the Ebro runoff reduction during the same period further enhanced the salinity increase in the Levantine basin as higher salinity surface waters of the western basin reached the eastern basin via the Atlantic Water circulation. This saltier surface layer in the vicinity of the Rhodes Gyre favoured the preconditioning for the formation of the Levantine Intermediate Water, resulting in about 40% increase of its formation rate. This in turn resulted in the production of saltier and larger amounts of deep waters in the various deep-water formation sites. According to the model, the river damming and decreased precipitation since the eighties explain about 95% of the observed salinity increase in the Western Mediterranean Deep Water over the last 40 years. The major contributor to this increase was proved to be the Nile damming. The salt increase in the surface layer is proved to be insufficient to produce alone the two climatic transient events in the deep waters of the Eastern Mediterranean in the late sixties and early nineties, respectively. Surface cooling was found to be important, resulting in large deep water formation and thus allowing the propagation of the increased surface salinity signal to the deep layers. However, model results demonstrate that the river damming played an important role in the long-term salt preconditioning of the surface/intermediate layers, thus contributing in triggering the two events.

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More information

Published date: March 2007
Keywords: Mediterranean Sea, Modelling, River discharge, Freshwater budget, Thermohaline circulation, Deep water formation
Organisations: Physical Oceanography

Identifiers

Local EPrints ID: 365216
URI: http://eprints.soton.ac.uk/id/eprint/365216
ISSN: 0924-7963
PURE UUID: 6ee996c2-0cbd-40db-8da5-48697b96c826
ORCID for N. Skliris: ORCID iD orcid.org/0000-0002-2473-2586

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Date deposited: 28 May 2014 09:09
Last modified: 15 Mar 2024 03:39

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Contributors

Author: N. Skliris ORCID iD
Author: S. Sofianos
Author: A. Lascaratos

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