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Multiple Scales of Suspended Sediment Dynamics in a Complex Geometry Estuary

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9781138029767
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  • Product Details

    Author:
    Fernanda Achete
    Format:
    Paperback
    Pages:
    156
    Publisher:
    CRC Press (June 8, 2016)
    Language:
    English
    ISBN-13:
    9781138029767
    Weight:
    10.25oz
    Dimensions:
    6.6875" x 9.4375"
    File:
    TAYLORFRANCIS-TayFran_260702050419996-20260702.xml
    Folder:
    TAYLORFRANCIS
    List Price:
    $84.99
    Series:
    IHE Delft PhD Thesis Series
    Case Pack:
    55
    As low as:
    $80.74
    Publisher Identifier:
    P-CRC
    Discount Code:
    H
    Pub Discount:
    30
    Imprint:
    CRC Press
    Audience:
    College/higher education
    Country of Origin:
    United States
  • Overview

    Many estuaries are located in urbanized, highly engineered environments. Cohesive sediment plays an important role due to its link with estuarine health and ecology. An important ecological parameter is the suspended sediment concentration (SSC) translated into turbidity levels and sediment budget.
    This study contributes to investigate and forecast turbidity levels and sediment budget variability at San Francisco Bay-Delta system at a variety of spatial and temporal scales applying a flexible mesh process-based model (Delft3D FM). It is possible to have a robust sediment model, which reproduces 90% of the yearly data derived sediment budget, with simple model settings, like applying one mud fraction and a simple bottom sediment distribution. This finding opens the horizon for modeling less monitored estuaries.
    Comparing two case studies, i.e. the Sacramento-San Joaquin Delta and Alviso Slough, a classification for estuaries regarding the main sediment dynamic forcing is proposed: event-driven estuary (Delta) and tide-driven estuary (Alviso Slough). In the event-driven estuaries, the rivers are the main sediment source and the tides have minor impact in the net sediment transport. In the tide-driven estuaries, the main sediment source is the bottom sediment and the tide asymmetry defines the net sediment transport.
    This research also makes advances in connecting different scientific fields and developing a managerial tool to support decision making. It provides the basis to a chain of models, which goes from the hydrodynamics, to suspended sediment, to phytoplankton, to fish, clams and marshes.