5 PSU higher than at station B7 as a result of mixing, except und

5 PSU higher than at station B7 as a result of mixing, except under extreme conditions. In July 1999, there is an almost 0.5 PSU salinity difference between two stations as an indication of this mixing. In 2000, the tongue-shaped CIW is clearly identified in

Figure 6. The distribution of the cold intermediate water from north to south gives an idea of the dynamics of the strait. The difference in upper layer temperature at the strait ends is 3.5 °C (24.5 °C at K0 and 21 °C at B2). Because of the mixing between the upper and CIW layers, the upper layer temperature decreases in the south of the strait. The extent of this decrease depends on the upper layer current velocity see more and the thickness of CIW. On the other hand, the amount

of CIW entering the strait from the Black Sea is under the influence of Danubian water, as observed in 1999. In order to examine the annual and seasonal variation of cold water in the Strait of Istanbul and in both exit regions, the minimum and average temperatures were recorded at stations M23, M8, B2, B7, Antidiabetic Compound Library research buy B13, K0 and K2 during the period 1996–2000. The temperature transects for July reveal the need for a new definition of cold intermediate water in the strait. The Black Sea CIW entering the strait is exposed to mixing because of the strait dynamics. This mixing occurs between (CIW)8 and the upper layer, as well as between (CIW)8 and the Mediterranean water. Consequently this water mass has different properties than (CIW)8. It is better to characterize this mixed water by its temperature. Although there is some disadvantage, the choice of 14 °C appears suitable to distinguish it from Mediterranean water, the temperature of which is usually > 14 °C. When the surface temperature Bcl-w is > 14 °C, the thickness and average temperature of the cold layer are calculated from the temperature profiles. This cold layer is defined as modified CIW or (CIW)14. The results are given in Table 1. Figure 3 shows (CIW)8 at stations K2 and K0 and

(CIW)14 at stations B2, B7, M8 and M23. In addition to the parameters in Table 1, the salinity at the minimum temperature depth is given in Figure 3. The variation of (CIW)14 at the Marmara Sea exit of the strait has characteristics similar to those of the variation of (CIW)8 at the Black Sea exit of the strait. On the other hand, the characteristics of (CIW)14 at stations B7, B2 are different at both exits due to dynamic conditions along the strait. In 1996, modified CIW is observed in June at stations B2, B7, B13 and K0. In July, it is found only at stations B13 and K0 because of the mixing of the layers in the strait. In August, modified CIW is observed at stations M8, B2 and K2, but in September only at station K0. In 1997, (CIW)14 is observed at stations B7, B13, K0 and K2 from May to September, but at station B2 only in June and July. In the Sea of Marmara (station M8), it is observed from June to September.

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