TY - JOUR
T1 - A 2-D process-based model for suspended sediment dynamics
T2 - A first step towards ecological modeling
AU - Achete, F. M.
AU - Van Der Wegen, M.
AU - Roelvink, D.
AU - Jaffe, BE
PY - 2015/6/19
Y1 - 2015/6/19
N2 - In estuaries suspended sediment concentration (SSC) is one of the most important contributors to turbidity, which influences habitat conditions and ecological functions of the system. Sediment dynamics differs depending on sediment supply and hydrodynamic forcing conditions that vary over space and over time. A robust sediment transport model is a first step in developing a chain of models enabling simulations of contaminants, phytoplankton and habitat conditions. This works aims to determine turbidity levels in the complex-geometry delta of the San Francisco estuary using a process-based approach (Delft3D Flexible Mesh software). Our approach includes a detailed calibration against measured SSC levels, a sensitivity analysis on model parameters and the determination of a yearly sediment budget as well as an assessment of model results in terms of turbidity levels for a single year, water year (WY) 2011. Model results show that our process-based approach is a valuable tool in assessing sediment dynamics and their related ecological parameters over a range of spatial and temporal scales. The model may act as the base model for a chain of ecological models assessing the impact of climate change and management scenarios. Here we present a modeling approach that, with limited data, produces reliable predictions and can be useful for estuaries without a large amount of processes data.
AB - In estuaries suspended sediment concentration (SSC) is one of the most important contributors to turbidity, which influences habitat conditions and ecological functions of the system. Sediment dynamics differs depending on sediment supply and hydrodynamic forcing conditions that vary over space and over time. A robust sediment transport model is a first step in developing a chain of models enabling simulations of contaminants, phytoplankton and habitat conditions. This works aims to determine turbidity levels in the complex-geometry delta of the San Francisco estuary using a process-based approach (Delft3D Flexible Mesh software). Our approach includes a detailed calibration against measured SSC levels, a sensitivity analysis on model parameters and the determination of a yearly sediment budget as well as an assessment of model results in terms of turbidity levels for a single year, water year (WY) 2011. Model results show that our process-based approach is a valuable tool in assessing sediment dynamics and their related ecological parameters over a range of spatial and temporal scales. The model may act as the base model for a chain of ecological models assessing the impact of climate change and management scenarios. Here we present a modeling approach that, with limited data, produces reliable predictions and can be useful for estuaries without a large amount of processes data.
UR - http://www.scopus.com/inward/record.url?scp=84934976544&partnerID=8YFLogxK
UR - http://resolver.tudelft.nl/uuid:212ba25f-762d-4f52-96d8-2f913bf137e1
U2 - 10.5194/hess-19-2837-2015
DO - 10.5194/hess-19-2837-2015
M3 - Article
AN - SCOPUS:84934976544
SN - 1027-5606
VL - 19
SP - 2837
EP - 2857
JO - Hydrology and Earth System Sciences
JF - Hydrology and Earth System Sciences
IS - 6
ER -