Title of article :
Sediment routing in a semi-enclosed epicontinental sea: Dacian Basin, Paratethys domain, Late Neogene, Romania
Author/Authors :
Jipa، نويسنده , , Dan C. and Olariu، نويسنده , , Cornel، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2013
Abstract :
In the Late Neogene (Late Sarmatian s. l. — Dacian; 11 to 4 Ma) the Carpathian Mountains to Dacian Basin was an enclosed source-to-sink system. The volume of sediment eroded from the Carpathians (estimated from previous semi-quantitative studies) closely matches the volume of sediment deposited in the Dacian Basin (about 100,000 km3). The close values of the eroded and deposited sediment volume indicate the Carpathians as the main sediment source for Dacian Basin, with only limited input from adjacent areas. Based on depocenter thickness, grain size trend and paleocurrent data, two distinct areas in the Carpathian Mountains have been identified as the major sediment sources during this time interval. Each source area most likely delivered sediments to different depocenters within the Dacian Basin creating distinct sediment routing and sinks.
e of the similar sediment volumes sourced in Carpathians and deposited in Dacian Basin connectivity with adjacent basins did not significantly influence the sediment flux and routing of the Dacian Basin unless the sediment was bypassing the Dacian Basin. A probable sea-level drop of 50 to 100 m during Pontian (time of the Messinian Salinity Crisis in the Mediterranean Basin) did not inflict important morphological changes to the Carpathians - Dacian Basin source-to-sink system. The system of the semi-enclosed Dacian Basin appears to have been autonomous, efficiently trapping incoming clastic material and apparently preventing significant spillage to the larger and deeper Black Sea Basin until Romanian time when it was filled and depositional environments changed from marine/lacustrine to fluvial.
Keywords :
sediment routing , Source-to-sink , Dacian Basin , Sediment depocenters , Paratethys , epicontinental sea , Semi-enclosed basin
Journal title :
Global and Planetary Change
Journal title :
Global and Planetary Change