Modelling dynamics of the estuarine turbidity maximum and local net deposition

Modelling dynamics of the estuarine turbidity maximum and local net deposition

Net deposition in estuaries is often linked to the estuarine turbidity maximum zones, in which fine, cohesive sediments accumulate due to residual transport by the estuarine circulation and tidal asymmetries. Sediments deposit in fairways or harbours, which creates high maintenance dredging costs an...

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Bibliographic Details
Published in:Ocean dynamics Vol. 69; no. 4; pp. 489 - 507
Main Authors: Hesse, Roland F., Zorndt, Anna, Fröhle, Peter
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-04-2019
Springer Nature B.V
Subjects:
Annual variations
Atmospheric Sciences
Bottom trawling
Boundary conditions
Brackishwater environment
Case studies
Cohesive sediments
Computer simulation
Deposition
Dredging
Dynamics
Earth and Environmental Science
Earth Sciences
Estuaries
Estuarine circulation
Estuarine dynamics
Fluid- and Aerodynamics
Geophysics/Geodesy
Harbors
Harbours
Mathematical models
Modelling
Monitoring/Environmental Analysis
Numerical models
Oceanography
Sediment concentration
Sediment distribution
Sediment transport
Sedimentation
Sedimentation & deposition
Sediments
Three dimensional models
Tidal circulation
Topical Collection on the 14th International Conference on Cohesive Sediment Transport in Montevideo
Transport
Transport properties
Turbidity
Turbidity measurements
Uruguay 13-17 November 2017
2-Layer-Concept
Fine cohesive sediments
Supply-limited model approach
Suspended sediment transport
Estuarine turbidity maximum (ETM)
Weser
Bed exchange
Seasonal sediment dynamics
Sedimentation
Estuary
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Summary:Net deposition in estuaries is often linked to the estuarine turbidity maximum zones, in which fine, cohesive sediments accumulate due to residual transport by the estuarine circulation and tidal asymmetries. Sediments deposit in fairways or harbours, which creates high maintenance dredging costs and the need for better prediction of dredging hotspots with process-based numerical models. In this paper, a new efficient modelling approach is presented which enables the simulation of the ETM formation, its seasonal dynamics and the local sedimentation. A 3D baroclinic large-scale estuary model with a characteristic sediment fraction with simplified sediment transport properties is used with realistic boundary conditions, but without initial sediment distribution. This approach is referred to as supply-limited, regarding the ETM formation by residual transport. A dynamic equilibrium between residual sediment import from the open boundaries, accumulation and local sedimentation establishes in the model. This is achieved by combining the large-scale supply-limited model with an extended bed exchange formulation (2-Layer-Concept). A model of the Weser estuary is used as case study to reproduce and analyse the ETM formation and the resulting sedimentation simulated with this approach. The results are compared with the equivalent sediment concentration of turbidity measurements and dredging volumes.
ISSN:1616-7341
1616-7228
DOI:10.1007/s10236-019-01250-w