2020
DOI: 10.3390/w12020560
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Sound Velocity in a Thin Shallowly Submerged Terrestrial-Marine Quaternary Succession (Northern Adriatic Sea)

Abstract: Estimating sound velocity in seabed sediment of shallow near-shore areas submerged after the Last Glacial Maximum is often difficult due to the heterogeneous sedimentary composition resulting from sea-level changes affecting the sedimentary environments. The complex sedimentary architecture and heterogeneity greatly impact lateral and horizontal velocity variations. Existing sound velocity studies are mainly focused on the surficial parts of the seabed sediments, whereas the deeper and often more heterogeneous… Show more

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Cited by 8 publications
(6 citation statements)
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“…The increments in the second unit (gravelly shell bed, ca 5000 to 8000 years bp ) approximately coincide with the maximum ingression and can be assigned to the maximum flooding zone (MFZ). The bays and estuaries along the Istrian peninsula that were flooded during the maximum ingression were filled with prograding sediments during the latest Holocene (Faivre et al ., 2011; Felja et al ., 2015; Novak et al ., 2020a). Nonetheless, with the exception of bays, the shoreline along most of the Istrian peninsula did not prograde during the latest phase of sea‐level stabilization owing to an extremely reduced fluvial sediment supply and sediment bypassing, and sediments deposited during the highstand phase are thus typically less than 1 m thick (Tomašových et al ., 2019b; Novak et al ., 2020b).…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The increments in the second unit (gravelly shell bed, ca 5000 to 8000 years bp ) approximately coincide with the maximum ingression and can be assigned to the maximum flooding zone (MFZ). The bays and estuaries along the Istrian peninsula that were flooded during the maximum ingression were filled with prograding sediments during the latest Holocene (Faivre et al ., 2011; Felja et al ., 2015; Novak et al ., 2020a). Nonetheless, with the exception of bays, the shoreline along most of the Istrian peninsula did not prograde during the latest phase of sea‐level stabilization owing to an extremely reduced fluvial sediment supply and sediment bypassing, and sediments deposited during the highstand phase are thus typically less than 1 m thick (Tomašových et al ., 2019b; Novak et al ., 2020b).…”
Section: Resultsmentioning
confidence: 99%
“…The bays and estuaries along the Istrian peninsula that were flooded during the maximum ingression were filled with prograding sediments during the latest Holocene (Faivre et al, 2011;Felja et al, 2015;Novak et al, 2020a). Nonetheless, with the exception of bays, the shoreline along most of the Istrian peninsula did not prograde during the latest phase of sea-level stabilization owing to an extremely reduced fluvial sediment supply and sediment bypassing, and sediments deposited during the highstand phase are thus typically less than 1 m thick (Toma sov ych et al, 2019b; Novak et al, 2020b). The thickness of the bryomol unit overlying the gravelly shell bed at Brijuni approximately matches the vertical increase in the accommodation space as predicted by the relative sea-level rise estimated for Brijuni.…”
Section: Systems Tractsmentioning
confidence: 99%
“…The outputs of research on Late Quaternary landscape changes are presented, with different approaches, in a number of papers of this Special Issue. Mattei et al [17] supported their research by means of archaeological markers; De Gioiosa et al [24], Deiana et al [27], and Savini et al [26] analyzed terrestrial and marine landforms to reconstruct past sea-level oscillations and paleolandscapes; and Novack et al [25] took advantage of the acoustic characterization of stratigraphic records.…”
Section: Topic 2: Landscapes and Landforms Of Recently Submerged Areasmentioning
confidence: 99%
“…Novack et al [25] acoustically characterized the Quaternary sedimentary sequence of an alluvial plain of the NE Adriatic Sea that was submerged after the LGM. The paper shows that the sediment grain size is the main factor influencing sound velocity in shallow areas, the overload effect being negligible.…”
Section: Topic 2: Landscapes and Landforms Of Recently Submerged Areasmentioning
confidence: 99%
“…The main task is the acquisition of data that are related to the morphology of the seabed, in order to reconstruct the underwater three-dimensional landscape, using geophysical (Single Beam Echo Sounder and Side Scan Sonar) and optical (underwater cameras for photogrammetry) instruments [78][79][80][81][82][83][84][85].…”
Section: Geomorphological and Gis Analysismentioning
confidence: 99%