Akademik Veri Yönetim Sistemi
GEO-MARINE LETTERS, cilt.44, sa.3, 2024 (SCI-Expanded)
Near coasts and shelves are strongly affected by the hydrodynamic forces and involves important information about the long term and permanent changes. Understanding the past dynamic transformations of shelves and near coasts can shed the future projections about effects of climate changes. High-resolution seismic and multibeam bathymetry data shed light on sedimentation since the last sea level lowstand in the Band & imath;rma Bay, southern shelf area of the Marmara Sea. Five different seismic units were identified from the bottom upward based on seismic stratigraphic analysis, which are bounded by the reflection surfaces. Differential hydrological and depositional processes in the bay are shown by the definition and mapping of these unique seismic units and surfaces in the shallow sedimentary record: The water level in the basin crossed the threshold between the two basins, and advancing flows began from the north to the western basin. The basin continued to fill with water, and progressive depositions were interrupted with the onlaps of U3-4. The water level rose above the threshold in both basins, resulting in the two lakes becoming a single lake and the creation of marine conditions. The initial deposition in the eastern basin was fluvial, deposited in the form of regressive systems tracts. The overall morphology and stratigraphic settings observed in Band & imath;rma Bay have nearly the same characteristics as those observed in the Sea of Marmara (like northern and western Marmara shelf, Gemlik Bay, B & uuml;y & uuml;k & ccedil;ekmece Bay etc.) oceanography, implying that similar hydrodynamic conditions and erosional and depositional processes are controlled mainly by sea level changes controlled by climate changes related to morphological properties.