Abstract
A manmade pilot wetland in south Florida, the Everglades Nutrient Removal (ENR) project, was modeled with a physics-based integrated approach using WASH123D (Yeh et al. 2006). Storm water is routed into the treatment wetland for phosphorus removal by plant and sediment uptake. It overlies a highly permeable surficial groundwater aquifer. Strong surface water and groundwater interactions are a key component of the hydrologic processes. The site has extensive field measurement and monitoring tools that provide point scale and distributed data on surface water levels, groundwater levels, and the physical range of hydraulic parameters and hydrologic fluxes. Previous hydrologic and hydrodynamic modeling studies have treated seepage losses empirically by some simple regression equations and, only surface water flows are modeled in detail. Several years of operational data are available and were used in model historical matching and validation. The validity of a diffusion wave approximation for two-dimensional overland flow (in the region with very flat topography) was also tested. The uniqueness of this modeling study is notable for (1) the point scale and distributed comparison of model results with observed data; (2) model parameters based on available field test data; and (3) water flows in the study area include two-dimensional overland flow, hydraulic structures/levees, three-dimensional subsurface flow and one-dimensional canal flow and their interactions. This study demonstrates the need and the utility of a physics-based modeling approach for strong surface water and groundwater interactions.
Highlights
Manmade treatment wetlands have been extensively used for wastewater treatment or stormwater nutrient removal in the USA
In south Florida, the Everglades restoration effort has led to the design and construction of a series of constructed wetlands, called Storm water Treatment Areas (STAs), to reduce phosphorus levels in storm water runoff before they can enter protected areas of the Everglades
The objective of this paper is to present a field study that demonstrates and validates the applicability of a physics-based, integrated modeling approach for surface water and groundwater interactions in wetlands; in addition, it seeks to show how field data from previous field studies can be used in building the integrated model with minimum model historical matching
Summary
Manmade treatment wetlands have been extensively used for wastewater treatment or stormwater nutrient removal in the USA. In south Florida, the Everglades restoration effort has led to the design and construction of a series of constructed wetlands, called Storm water Treatment Areas (STAs), to reduce phosphorus levels in storm water runoff before they can enter protected areas of the Everglades. These constructed wetlands were located on former natural wetlands or farmland. Harvey et al (2002) studied the surface and groundwater interactions in the ENR and surrounding wetlands with field investigations
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