2024
DOI: 10.3390/jmse12020221
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Dense Water Formation in the North–Central Aegean Sea during Winter 2021–2022

Manos Potiris,
Ioannis G. Mamoutos,
Elina Tragou
et al.

Abstract: The evolution and drivers of dense water formation (DWF) in the North–Central Aegean Sea (NCAeg) during winter 2021–2022 are studied using observations from two Argo floats and the output of an operational data-assimilating model. Dense water with σθ>29.1 kgm−3 was produced over most of the NCAeg, except for the northeastern part covered by Black Sea water (BSW), where the maximum surface density was <29 kgm−3. The highest density waters were produced over the central and southern parts of the Lemnos Pla… Show more

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Cited by 6 publications
(2 citation statements)
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“…Long records of Sea Surface Salinity (SSS) from the Marmara Sea (Beşiktepe et al, 1994) suggest that the reduction in buoyancy input could also be attributed to more salty BSW being exported through the Dardanelles in winter 1987. Observational evidence (Beşiktepe et al, 1994;Potiris et al, 2024;Sayin et al, 2011), as well as numerical simulations (Potiris et al, 2024;Vervatis et al, 2013), clearly suggest that the areas of the Central and North Aegean most prone to deep-water production are those areas lacking the surface BSW layer at the surface, that is, areas of high SSS. The surface BSW not only hinders dense water formation by isolating the intermediate and deeper layers, but also reduces heat-losses to the atmosphere (as a cooler surface water mass) and thus controls the magnitude and sign of buoyancy fluxes, as recently clarified by Tragou et al (2022).…”
Section: Introductionmentioning
confidence: 96%
“…Long records of Sea Surface Salinity (SSS) from the Marmara Sea (Beşiktepe et al, 1994) suggest that the reduction in buoyancy input could also be attributed to more salty BSW being exported through the Dardanelles in winter 1987. Observational evidence (Beşiktepe et al, 1994;Potiris et al, 2024;Sayin et al, 2011), as well as numerical simulations (Potiris et al, 2024;Vervatis et al, 2013), clearly suggest that the areas of the Central and North Aegean most prone to deep-water production are those areas lacking the surface BSW layer at the surface, that is, areas of high SSS. The surface BSW not only hinders dense water formation by isolating the intermediate and deeper layers, but also reduces heat-losses to the atmosphere (as a cooler surface water mass) and thus controls the magnitude and sign of buoyancy fluxes, as recently clarified by Tragou et al (2022).…”
Section: Introductionmentioning
confidence: 96%
“…The introduction of the Argo program, coupled with rapid advancements in underwater exploration technology, has created an enabling environment for the advancement of exploration buoys [1]. Currently, there are over 3000 profiling buoys actively operating in the ocean, making significant contributions to marine environmental observation, weather forecasting, and monitoring atmospheric changes, among other critical areas [2,3]. Conventional buoys rely on batteries for power, which cease functioning once their power is depleted.…”
Section: Introductionmentioning
confidence: 99%