Canan Eronat scite author profile

IntroductionThe Eastern Mediterranean Transient (EMT) is the abrupt change in the well-established Eastern Mediterranean thermohaline circulation due to the switch of the deepwater production areas in the basin from the Adriatic to the Aegean Sea that took place during the early '90s. Following the first observation of the EMT (Roether et al., 1996), a number of studies described various aspect of the EMT phenomenon (

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The impact of fish farming on the water column and marine sediments in three coastal regions from eastern Aegean coast

Küçüksezgi̇n

Pazi

Gonul

et al. 2021

Environ Sci Pollut Res

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Modeling wastewater discharge at the planning stage of a marine outfall system

Esen

Sayın

Uslu

et al. 2011

Environ Monit Assess

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The possibility of marine discharge of a negatively buoyant industrial waste was evaluated by a modeling study using Killworth 3-D, which is the first version of the Modular Ocean Model (MOM). The Model was run with the recorded wind direction and speed on the cruise dates and the circulation patterns for surface and subsurface were found to be similar with the current meter measurements. Model scenarios have been set-up in order to estimate the intensity and direction of the currents in the Nemrut Bay under the condition of wind blowing from a definite direction for a long time. MOM model has been run for four major wind directions, each having duration of 10 days and the behavior of the discharge plume in the worst case has been traced. Also, the behavior of the discharge plume in the real case has been estimated by using the wind data of the region. According to the model results, impact of trace elements that compose the discharge effluent is limited both in time and space. It is concluded that trace elements will leave the Bay in a short time due to the short residence times.

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The light transmission and seiche depth of Izmir Bay, western Turkey

2007

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Izmir Bay is one of the most polluted estuaries in the whole Mediterranean Sea. The inner part of the Bay (Inner Bay) is heavily affected by domestic and industrial discharge. As a result of these loads, strong eutrophication occurs in the Inner Bay, which is temporally anaerobic. The ecologically sensitive approach of the local authorities during the last decade has given rise to a wide variety of monitoring and research studies on this bay. On the other hand, the municipality of Izmir started to operate wastewater treatment facilities since January 2000. The Institute of Marine Sciences and Technology -Izmir (IMST) with its research vessel R/V K Piri Reis has been conducting an intensive monitoring program since 1988 and especially during the recent few years. These investigations provide an opportunity for the evaluation of the performance of the wastewater treatment plant in terms of the change in the optical properties of Izmir Bay water in a positive manner. The turbidity values measured in these monitoring studies indicate that the values have changed drastically after January 2000. Their spatial variation indicates that the values decrease from the Inner Bay towards the Aegean Sea. The turbidity (light transmission) values are measured with an automatic CTD (conductivity, temperature and depth) system during each cruise. The seiche disc depth measurement is carried out only occasionally. The accuracy of the seiche disc depth is dependent on certain daylight conditions and depends on the operator. The seiche disc depth (D s ) is an important parameter to estimate primary production of organic matter (hereafter called production). A relation between light transmission (turbidity) value and seiche disc depth (D s ) is found with very good agreement. The correlations are very high (approximately 0.94) with slight seasonal variation.

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Canan Eronat

Hydrography of the eastern part of the Aegean Sea during the Eastern Mediterranean Transient (EMT)

Temporal evolution of the water characteristics in the bays along the eastern coast of the Aegean Sea: Saros, İzmir, and Gökova bays

The impact of fish farming on the water column and marine sediments in three coastal regions from eastern Aegean coast

Modeling wastewater discharge at the planning stage of a marine outfall system

The light transmission and seiche depth of Izmir Bay, western Turkey

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