The Eastern Mediterranean in the 80s and in the 90s: The big transition in the intermediate and deep circulations

Paola Malanotte-Rizzoli, Beniamino B. Manca, Maurizio Ribera D'Alcala, Alexander Theocharis, Stephen Brenner, Giorgio Budillon, Emin Ozsoy

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259 Scopus citations

Abstract

We present definitive observational evidence that the starling change of the Eastern Mediterranean deep circulation observed in winter 1995 and documented by [Roether, W., Manca, B.B., Klein, B., Bregant, D., Georgopoulos, D., Beitzel, V., Kovacevich, V., Luchetta, A., 1996. Recent changes in the Eastern Mediterranean deep water. Science 271, 333-335.] actually started before October 1991. This change involved not only the deep water mass pathways but also the origin and pathways of the water mass spreading in the intermediate layer. We carry out the first unified analysis of the POEMBC-O91 data set, which shows that, differently from the previous decade of the 80s, the Cretan/Aegean Sea was in 1991 the 'driving' engine of the intermediate, transitional and deep layer circulations, with Cretan Intermediate Water (CIW), transitional water and Cretan Deep Water (CDW) spreading out from the Cretan Sea into the basin interior. The most important new results are: (a) the Levantine Intermediate Water (LIW) formed inside or at the periphery of the Rhodes gyre is blocked in its traditional westbound route on its density horizons σ(θ) = 29.05 and 29.10 kg/m3 by a three-lobe strong anticyclonic structure in the Southern Levantine, which induces a substantial LIW recirculation in the Levantine basin itself; (b) the CIW exiting from the Western Cretan Arc Straits spreads into the Ionian interior on the σ(θ) = 29.05-29.10 kg/m3 isopycnal surfaces, thus replacing the LIW confined in the Levantine basin. A branch of CIW flows eastward in the Cretan passage and is entrained by the Ierapetra anticyclone to flow again into the Cretan Sea through the Eastern Cretan Arc Straits; (c) on the horizons σ(θ) = 29.15 and 29.18 kg/m3 a transitional water mass of Cretan origin, denser than CIW, and CDW are observed to spread out massively from the Cretan Arc Straits both into the Ionian and Levantine interiors. These isopycnal surfaces rise to much shallower depths in 1991 than in 1987, increasing the salt content of the intermediate, transitional and deep layers. This leads to a massive salt increase in the Ionian below 1200 m, clearly related to lateral advection of the new denser waters of Cretan/Aegean origin, thus contradicting the hypothesis of a vertical salt redistribution proposed by Roether et al.

Original languageEnglish
Pages (from-to)365-395
Number of pages31
JournalDynamics of Atmospheres and Oceans
Volume29
Issue number2-4
DOIs
StatePublished - Jul 1999
Externally publishedYes

Bibliographical note

Funding Information:
This work was carried out with the support of the US National Science Foundation, contract to Paola Malanotte-Rizzoli, MIT, OCE-9633145; of Consiglio Nazionale Richerche, Rome, Italy, to Beniamino Manca, grant no. 93.01306.02, of Short Term Mobility to Maurizio Ribera d'Alcala, grant no. 143 3.9716. We acknowledge funding by the governments, national agencies and institutions which made instruments and ships available to the POEM-BC Programme. The officers and crews of the R/V of Greece, Israel, Italy and Turkey provided their skillful work during the surveys. We thank Mr. C. Fragiacomo for assistance in computer operations producing figures and Ms. Dorothy Frank for carefully typing the many versions of the manuscript. Finally, we acknowledge the anonymous reviewers for their constructive criticisms on the previous version of the manuscript.

Funding

This work was carried out with the support of the US National Science Foundation, contract to Paola Malanotte-Rizzoli, MIT, OCE-9633145; of Consiglio Nazionale Richerche, Rome, Italy, to Beniamino Manca, grant no. 93.01306.02, of Short Term Mobility to Maurizio Ribera d'Alcala, grant no. 143 3.9716. We acknowledge funding by the governments, national agencies and institutions which made instruments and ships available to the POEM-BC Programme. The officers and crews of the R/V of Greece, Israel, Italy and Turkey provided their skillful work during the surveys. We thank Mr. C. Fragiacomo for assistance in computer operations producing figures and Ms. Dorothy Frank for carefully typing the many versions of the manuscript. Finally, we acknowledge the anonymous reviewers for their constructive criticisms on the previous version of the manuscript.

FundersFunder number
Consiglio Nazionale Richerche93.01306.02, 143 3.9716
National Science FoundationOCE-9633145

    Keywords

    • Circulation
    • Eastern Mediterranean
    • Transition

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