Abstract
Levantine Intermediate Water (LIW) is a warm salty water formed in one out of four main zones of dense water formation in the Mediterranean Sea. LIW spreads as a density current and first appears on a ϴ-S diagram as a sharp peak that then smoothens out, often leading to the so-called “scorpion-tail” image with a ϴ (S) maximum above (below) the expected core. Both maxima have always been considered, somewhat fuzzily (even by us), as LIW characteristics without having ever been analysed theoretically. We question neither the “scorpion-tail” image nor the “core-method” nor qualitative analyses of either LIW or other waters characterized by similar extrema. But data from the Strait of Gibraltar demonstrate that characterizing and/or delimiting LIW by these maxima gives LIW a much greater importance than it actually merits so all quantitative analyses of LIW musts be reconsidered. Calculations made as simple as possible to simulate a warm salty layer of intermediate water (IW) mixing with waters lying above and below suggest that these maxima i) can be understood only when all three waters are considered together, ii) can evolve in different ways, iii) generally tend to move from the core of the IW layer outwards, and hence iv) can neither characterize nor delimit the IW in any way. Actual simulations with more sophisticated parameterizations are obviously needed. In addition, we suggest that what has to date been called LIW in the western basin in fact represents all intermediate waters formed in all zones of dense water formation in the eastern basin, i.e. not only Levantine waters but also, in particular, Aegean/Cretan waters. To provide a logical counterpart to WIW (Western Intermediate Water), we therefore suggest that, from the Channel of Sicily downstream, LIW should be renamed Eastern Intermediate Water (EIW).
Highlights
LIW spreads as a density current and first appears on a q-S diagram as a sharp peak that smoothens out, often leading to the so-called “scorpion-tail” image with a q (S) maximum above the expected core
We suggest that what has to date been called LIW in the western basin represents all intermediate waters formed in all zones of dense water formation in the eastern basin, i.e. Levantine waters and, in particular, Aegean/Cretan waters
The major aim of this paper is to present a simple proposal about the characteristics of so-called “Levantine Intermediate Water” (LIW), which are a relative maximum in potential temperature (q) and an absolute maximum in salinity (S) that generally appear respectively above and below the expected core of LIW
Summary
The major aim of this paper is to present a simple proposal about the characteristics of so-called “Levantine Intermediate Water” (LIW), which are a relative maximum in potential temperature (q) and an absolute maximum in salinity (S) that generally appear respectively above and below the expected core of LIW. Our primary focus will remain on LIW because, to our knowledge, it is the sole water mass that has been characterized and delimited using these q and S maxima, even if in a somewhat fuzzy way (and even in our own papers!), which is something we wish to comment upon and criticize. In this analysis we do not deal with the q and S values, nor do we address the circulation of LIW that we have already specified using the so-called “core method”. Because our work may be defined as being atypical and because the number of works dealing with the quantification of LIW is so large, we believe it is both useless and unfair to cite only some of them in this paper
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