Eric D. Swain, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 59
Passive thermal refugia provided warm water for Florida manatees during the severe winter of 2009-2010 Passive thermal refugia provided warm water for Florida manatees during the severe winter of 2009-2010
Haloclines induced by freshwater inflow over tidal water have been identified as an important mechanism for maintaining warm water in passive thermal refugia (PTR) used by Florida manatees Trichechus manatus latirostris during winter in extreme southwestern Florida. Record-setting cold during winter 2009–2010 resulted in an unprecedented number of manatee deaths, adding to concerns that...
Authors
B.M. Stith, D. H. Slone, M. de Wit, H.H. Edwards, C.A. Langtimm, E.D. Swain, L.E. Soderqvist, J.P. Reid
Evaluation of effects of changes in canal management and precipitation patterns on salinity in Biscayne Bay, Florida, using an integrated surface-water/groundwater model Evaluation of effects of changes in canal management and precipitation patterns on salinity in Biscayne Bay, Florida, using an integrated surface-water/groundwater model
Biscayne National Park, located in Biscayne Bay in southeast Florida, is one of the largest marine parks in the country and sustains a large natural marine fishery where numerous threatened and endangered species reproduce. In recent years, the bay has experienced hypersaline conditions (salinity greater than 35 practical salinity units) of increasing magnitude and duration...
Authors
Melinda A. Lohmann, Eric D. Swain, John D. Wang, Joann Dixon
Experimental determination of soil heat storage for the simulation of heat transport in a coastal wetland Experimental determination of soil heat storage for the simulation of heat transport in a coastal wetland
Two physical experiments were developed to better define the thermal interaction of wetland water and the underlying soil layer. This information is important to numerical models of flow and heat transport that have been developed to support biological studies in the South Florida coastal wetland areas. The experimental apparatus consists of two 1.32 m diameter by 0.99 m tall, trailer...
Authors
Michael Swain, Matthew Swain, Melinda Lohmann, Eric Swain
Use of hydrologic and hydrodynamic modeling for ecosystem restoration Use of hydrologic and hydrodynamic modeling for ecosystem restoration
Planning and implementation of unprecedented projects for restoring the greater Everglades ecosystem are underway and the hydrologic and hydrodynamic modeling of restoration alternatives has become essential for success of restoration efforts. In view of the complex nature of the South Florida water resources system, regional-scale (system-wide) hydrologic models have been developed and...
Authors
J. Obeysekera, L. Kuebler, S. Ahmed, M.-L. Chang, V. Engel, Christian D. Langevin, Eric D. Swain, Y. Wan
Spatial and stage-structured population model of the American crocodile for comparison of comprehensive Everglades Restoration Plan (CERP) alternatives Spatial and stage-structured population model of the American crocodile for comparison of comprehensive Everglades Restoration Plan (CERP) alternatives
As part of the U.S. Geological Survey Priority Ecosystems Science (PES) initiative to provide the ecological science required during Everglades restoration, we have integrated current regional hydrologic models with American crocodile (Crocodylus acutus) research and monitoring data to create a model that assesses the potential impact of Comprehensive Everglades Restoration Plan (CERP)...
Authors
Timothy W. Green, Daniel H. Slone, Eric D. Swain, Michael S. Cherkiss, Melinda Lohmann, Frank J. Mazzotti, Kenneth G. Rice
Measurement-derived heat-budget approaches for simulating coastal wetland temperature with a hydrodynamic model Measurement-derived heat-budget approaches for simulating coastal wetland temperature with a hydrodynamic model
Numerical modeling is needed to predict environmental temperatures, which affect a number of biota in southern Florida, U.S.A., such as the West Indian manatee (Trichechus manatus), which uses thermal basins for refuge from lethal winter cold fronts. To numerically simulate heat-transport through a dynamic coastal wetland region, an algorithm was developed for the FTLOADDS coupled...
Authors
Eric Swain, Jeremy Decker
Temperature inverted haloclines provide winter warm-water refugia for manatees in southwest Florida Temperature inverted haloclines provide winter warm-water refugia for manatees in southwest Florida
Florida manatees (Trichechus manatus latirostris) overwintering in the Ten Thousand Islands and western Everglades have no access to power plants or major artesian springs that provide warm-water refugia in other parts of Florida. Instead, hundreds of manatees aggregate at artificial canals, basins, and natural deep water sites that act as passive thermal refugia (PTR). Monitoring at two...
Authors
Bradley Stith, James P. Reid, Catherine A. Langtimm, Eric D. Swain, Terry J. Doyle, Daniel H. Slone, Jeremy D. Decker, Lars E. Soderqvist
Development, Testing, and Application of a Coupled Hydrodynamic Surface-Water/Groundwater Model (FTLOADDS) with Heat and Salinity Transport in the Ten Thousand Islands/Picayune Strand Restoration Project Area, Florida Development, Testing, and Application of a Coupled Hydrodynamic Surface-Water/Groundwater Model (FTLOADDS) with Heat and Salinity Transport in the Ten Thousand Islands/Picayune Strand Restoration Project Area, Florida
A numerical model application was developed for the coastal area inland of the Ten Thousand Islands (TTI) in southwestern Florida using the Flow and Transport in a Linked Overland/Aquifer Density-Dependent System (FTLOADDS) model. This model couples a two-dimensional dynamic surface-water model with a three-dimensional groundwater model, and has been applied to several locations in...
Authors
Eric D. Swain, Jeremy D. Decker
Integrated Science: Florida Manatees and Everglades Hydrology Integrated Science: Florida Manatees and Everglades Hydrology
Predicting and monitoring restoration effects on Florida manatees, which are known to make extended movements, will be incomplete if modeling and monitoring are limited to the smaller areas defined by the various res-toration components. U.S. Geological Survey (USGS) efforts, thus far, have focused on (1) collecting manatee movement data throughout the Ten Thousand Islands (TTI) region...
Authors
Catherine A. Langtimm, Eric D. Swain, Bradley Stith, James P. Reid, Daniel H. Slone, Jeremy Decker, Susan M. Butler, Terry Doyle, R.W. Snow
Inverse modeling of surface-water discharge to achieve restoration salinity performance measures in Florida Bay, Florida Inverse modeling of surface-water discharge to achieve restoration salinity performance measures in Florida Bay, Florida
The use of numerical modeling to evaluate regional water-management practices involves the simulation of various alternative water-delivery scenarios, which typically are designed intuitively rather than analytically. These scenario simulations are used to analyze how specific water-management practices affect factors such as water levels, flows, and salinities. In lieu of testing a...
Authors
E.D. Swain, D.E. James
Utilizing spectral analysis of coastal discharge computed by a numerical model to determine boundary influence Utilizing spectral analysis of coastal discharge computed by a numerical model to determine boundary influence
In the present study, a spectral analysis was applied to field data and a numerical model of southeastern Everglades and northeastern Florida Bay that involved computing and comparing the power spectrum of simulated and measured flows at the primary coastal outflow creek. Four dominant power frequencies, corresponding to the S1, S2, M2, and 01 tidal periods, were apparent in the measured...
Authors
E.D. Swain, C.D. Langevin, J.D. Wang
Application of FTLOADDS to Simulate Flow, Salinity, and Surface-Water Stage in the Southern Everglades, Florida Application of FTLOADDS to Simulate Flow, Salinity, and Surface-Water Stage in the Southern Everglades, Florida
The Comprehensive Everglades Restoration Plan requires numerical modeling to achieve a sufficient understanding of coastal freshwater flows, nutrient sources, and the evaluation of management alternatives to restore the ecosystem of southern Florida. Numerical models include a regional water-management model to represent restoration changes to the hydrology of southern Florida and a...
Authors
John D. Wang, Eric D. Swain, Melinda A. Wolfert, Christian D. Langevin, Dawn E. James, Pamela A. Telis
Science and Products
Filter Total Items: 59
Passive thermal refugia provided warm water for Florida manatees during the severe winter of 2009-2010 Passive thermal refugia provided warm water for Florida manatees during the severe winter of 2009-2010
Haloclines induced by freshwater inflow over tidal water have been identified as an important mechanism for maintaining warm water in passive thermal refugia (PTR) used by Florida manatees Trichechus manatus latirostris during winter in extreme southwestern Florida. Record-setting cold during winter 2009–2010 resulted in an unprecedented number of manatee deaths, adding to concerns that...
Authors
B.M. Stith, D. H. Slone, M. de Wit, H.H. Edwards, C.A. Langtimm, E.D. Swain, L.E. Soderqvist, J.P. Reid
Evaluation of effects of changes in canal management and precipitation patterns on salinity in Biscayne Bay, Florida, using an integrated surface-water/groundwater model Evaluation of effects of changes in canal management and precipitation patterns on salinity in Biscayne Bay, Florida, using an integrated surface-water/groundwater model
Biscayne National Park, located in Biscayne Bay in southeast Florida, is one of the largest marine parks in the country and sustains a large natural marine fishery where numerous threatened and endangered species reproduce. In recent years, the bay has experienced hypersaline conditions (salinity greater than 35 practical salinity units) of increasing magnitude and duration...
Authors
Melinda A. Lohmann, Eric D. Swain, John D. Wang, Joann Dixon
Experimental determination of soil heat storage for the simulation of heat transport in a coastal wetland Experimental determination of soil heat storage for the simulation of heat transport in a coastal wetland
Two physical experiments were developed to better define the thermal interaction of wetland water and the underlying soil layer. This information is important to numerical models of flow and heat transport that have been developed to support biological studies in the South Florida coastal wetland areas. The experimental apparatus consists of two 1.32 m diameter by 0.99 m tall, trailer...
Authors
Michael Swain, Matthew Swain, Melinda Lohmann, Eric Swain
Use of hydrologic and hydrodynamic modeling for ecosystem restoration Use of hydrologic and hydrodynamic modeling for ecosystem restoration
Planning and implementation of unprecedented projects for restoring the greater Everglades ecosystem are underway and the hydrologic and hydrodynamic modeling of restoration alternatives has become essential for success of restoration efforts. In view of the complex nature of the South Florida water resources system, regional-scale (system-wide) hydrologic models have been developed and...
Authors
J. Obeysekera, L. Kuebler, S. Ahmed, M.-L. Chang, V. Engel, Christian D. Langevin, Eric D. Swain, Y. Wan
Spatial and stage-structured population model of the American crocodile for comparison of comprehensive Everglades Restoration Plan (CERP) alternatives Spatial and stage-structured population model of the American crocodile for comparison of comprehensive Everglades Restoration Plan (CERP) alternatives
As part of the U.S. Geological Survey Priority Ecosystems Science (PES) initiative to provide the ecological science required during Everglades restoration, we have integrated current regional hydrologic models with American crocodile (Crocodylus acutus) research and monitoring data to create a model that assesses the potential impact of Comprehensive Everglades Restoration Plan (CERP)...
Authors
Timothy W. Green, Daniel H. Slone, Eric D. Swain, Michael S. Cherkiss, Melinda Lohmann, Frank J. Mazzotti, Kenneth G. Rice
Measurement-derived heat-budget approaches for simulating coastal wetland temperature with a hydrodynamic model Measurement-derived heat-budget approaches for simulating coastal wetland temperature with a hydrodynamic model
Numerical modeling is needed to predict environmental temperatures, which affect a number of biota in southern Florida, U.S.A., such as the West Indian manatee (Trichechus manatus), which uses thermal basins for refuge from lethal winter cold fronts. To numerically simulate heat-transport through a dynamic coastal wetland region, an algorithm was developed for the FTLOADDS coupled...
Authors
Eric Swain, Jeremy Decker
Temperature inverted haloclines provide winter warm-water refugia for manatees in southwest Florida Temperature inverted haloclines provide winter warm-water refugia for manatees in southwest Florida
Florida manatees (Trichechus manatus latirostris) overwintering in the Ten Thousand Islands and western Everglades have no access to power plants or major artesian springs that provide warm-water refugia in other parts of Florida. Instead, hundreds of manatees aggregate at artificial canals, basins, and natural deep water sites that act as passive thermal refugia (PTR). Monitoring at two...
Authors
Bradley Stith, James P. Reid, Catherine A. Langtimm, Eric D. Swain, Terry J. Doyle, Daniel H. Slone, Jeremy D. Decker, Lars E. Soderqvist
Development, Testing, and Application of a Coupled Hydrodynamic Surface-Water/Groundwater Model (FTLOADDS) with Heat and Salinity Transport in the Ten Thousand Islands/Picayune Strand Restoration Project Area, Florida Development, Testing, and Application of a Coupled Hydrodynamic Surface-Water/Groundwater Model (FTLOADDS) with Heat and Salinity Transport in the Ten Thousand Islands/Picayune Strand Restoration Project Area, Florida
A numerical model application was developed for the coastal area inland of the Ten Thousand Islands (TTI) in southwestern Florida using the Flow and Transport in a Linked Overland/Aquifer Density-Dependent System (FTLOADDS) model. This model couples a two-dimensional dynamic surface-water model with a three-dimensional groundwater model, and has been applied to several locations in...
Authors
Eric D. Swain, Jeremy D. Decker
Integrated Science: Florida Manatees and Everglades Hydrology Integrated Science: Florida Manatees and Everglades Hydrology
Predicting and monitoring restoration effects on Florida manatees, which are known to make extended movements, will be incomplete if modeling and monitoring are limited to the smaller areas defined by the various res-toration components. U.S. Geological Survey (USGS) efforts, thus far, have focused on (1) collecting manatee movement data throughout the Ten Thousand Islands (TTI) region...
Authors
Catherine A. Langtimm, Eric D. Swain, Bradley Stith, James P. Reid, Daniel H. Slone, Jeremy Decker, Susan M. Butler, Terry Doyle, R.W. Snow
Inverse modeling of surface-water discharge to achieve restoration salinity performance measures in Florida Bay, Florida Inverse modeling of surface-water discharge to achieve restoration salinity performance measures in Florida Bay, Florida
The use of numerical modeling to evaluate regional water-management practices involves the simulation of various alternative water-delivery scenarios, which typically are designed intuitively rather than analytically. These scenario simulations are used to analyze how specific water-management practices affect factors such as water levels, flows, and salinities. In lieu of testing a...
Authors
E.D. Swain, D.E. James
Utilizing spectral analysis of coastal discharge computed by a numerical model to determine boundary influence Utilizing spectral analysis of coastal discharge computed by a numerical model to determine boundary influence
In the present study, a spectral analysis was applied to field data and a numerical model of southeastern Everglades and northeastern Florida Bay that involved computing and comparing the power spectrum of simulated and measured flows at the primary coastal outflow creek. Four dominant power frequencies, corresponding to the S1, S2, M2, and 01 tidal periods, were apparent in the measured...
Authors
E.D. Swain, C.D. Langevin, J.D. Wang
Application of FTLOADDS to Simulate Flow, Salinity, and Surface-Water Stage in the Southern Everglades, Florida Application of FTLOADDS to Simulate Flow, Salinity, and Surface-Water Stage in the Southern Everglades, Florida
The Comprehensive Everglades Restoration Plan requires numerical modeling to achieve a sufficient understanding of coastal freshwater flows, nutrient sources, and the evaluation of management alternatives to restore the ecosystem of southern Florida. Numerical models include a regional water-management model to represent restoration changes to the hydrology of southern Florida and a...
Authors
John D. Wang, Eric D. Swain, Melinda A. Wolfert, Christian D. Langevin, Dawn E. James, Pamela A. Telis