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Jeremy D. Decker, PhD

Jeremy D. Decker is a hydrologist with the U.S Geological Survey Caribbean-Florida Water Science Center and is currently working on the development of groundwater/surface-water models to study the effects of changing climate and sea-level on coastal environments.

Dr. Decker is a hydrologist with the U.S. Geological Survey Caribbean-Florida Water Science Center located in Lutz, Florida.  He completed his B.S. and M.Eng in Mechanical Engineering at the University of Louisville and received his PhD in Mechanical Engineering from the University of Miami.  He has experience with the development of numerical models of groundwater/surface-water flow for a variety of environments.  His work has included numerical code development, data processing and parameter determination as well as future scenario development and testing involving projected climate and sea level. His most recent projects have focused on the potential effects on drainage infrastructure and the increased potential for inundation due to changing sea level and precipitation within southeastern Florida.

Science and Products

Filter Total Items: 14

Assessment of the interconnection between Tampa Bay and the Floridan aquifer system: Historical groundwater data compilation and analysis, 1976–2022 Assessment of the interconnection between Tampa Bay and the Floridan aquifer system: Historical groundwater data compilation and analysis, 1976–2022

The U.S. Geological Survey used existing data collected after the last major navigational channel modification in the mid-1980s to investigate groundwater levels and chloride concentrations in wells in the Floridan aquifer system and other aquifers beneath and near Tampa Bay. Tampa Bay is located on the west-central coast of Florida and provides access for commercial shipping. In 2021...
Authors
Jeremy D. Decker
By
Caribbean-Florida Water Science Center (CFWSC)

Drainage infrastructure and groundwater system response to changes in sea level and precipitation, Broward County, Florida Drainage infrastructure and groundwater system response to changes in sea level and precipitation, Broward County, Florida

Executive Summary Southeast Florida is highly susceptible to flooding because of its low topography and porous, highly permeable Biscayne aquifer. Rising seas will likely result in increased groundwater levels in parts of Broward County, Florida, that will reduce available soil storage and therefore increase the likelihood of inundation and flooding from precipitation events. Moreover...
By
Caribbean-Florida Water Science Center (CFWSC)

Potential for increased inundation in flood-prone regions of southeast Florida in response to climate and sea-level changes in Broward County, Florida, 2060–69 Potential for increased inundation in flood-prone regions of southeast Florida in response to climate and sea-level changes in Broward County, Florida, 2060–69

The U.S. Geological Survey, in cooperation with Broward County Environmental Planning and Resilience Division, has developed county-scale and local-scale groundwater/surface-water models to study the potential for increased inundation and flooding in eastern Broward County that are due to changes in future climate and sea-level rise. These models were constructed by using MODFLOW 2005...
Authors
Jeremy D. Decker, Joseph D. Hughes, Eric D. Swain
By
Caribbean-Florida Water Science Center (CFWSC)

Hydrologic conditions and simulation of groundwater and surface water in the Great Dismal Swamp of Virginia and North Carolina Hydrologic conditions and simulation of groundwater and surface water in the Great Dismal Swamp of Virginia and North Carolina

The U.S. Geological Survey (USGS), in cooperation with the U.S Fish and Wildlife Service, has investigated the hydrology of the Great Dismal Swamp (Swamp) National Wildlife Refuge (Refuge) in Virginia and North Carolina and developed a three-dimensional numerical model to simulate groundwater and surface-water hydrology. The model was developed with MODFLOW-NWT, a USGS numerical...
Authors
Jack R. Eggleston, Jeremy D. Decker, Jason S. Finkelstein, Frederic C. Wurster, Paul E. Misut, Luke P. Sturtevant, Gary K. Speiran
By
Water Resources Mission Area, Virginia and West Virginia Water Science Center, Wildland Fire Science

Distribution of effluent injected into the Boulder Zone of the Floridan aquifer system at the North District Wastewater Treatment Plant, southeastern Florida, 1997–2011 Distribution of effluent injected into the Boulder Zone of the Floridan aquifer system at the North District Wastewater Treatment Plant, southeastern Florida, 1997–2011

Nonhazardous, secondarily treated, domestic wastewater (effluent) has been injected about 1 kilometer below land surface into the Boulder Zone of the Floridan aquifer system at the North District Wastewater Treatment Plant in southeastern Florida. The Boulder Zone contains saline, nonpotable water. Effluent transport out of the injection zone is a risk of underground effluent injection...
Authors
Jeffrey N. King, Jeremy D. Decker
By
Caribbean-Florida Water Science Center (CFWSC)

Utilizing dimensional analysis with observed data to determine the significance of hydrodynamic solutions in coastal hydrology Utilizing dimensional analysis with observed data to determine the significance of hydrodynamic solutions in coastal hydrology

In this paper, the authors present an analysis of the magnitude of the temporal and spatial acceleration (inertial) terms in the surface-water flow equations and determine the conditions under which these inertial terms have sufficient magnitude to be required in the computations. Data from two South Florida field sites are examined and the relative magnitudes of temporal acceleration...
Authors
Eric D. Swain, Jeremy D. Decker, Joseph D. Hughes
By
Water Resources Mission Area, Caribbean-Florida Water Science Center (CFWSC)

Non-USGS Publications**

Swain, E. D., Lohmann, Melinda, and Decker, J. D.,2008, Hydrologic Simulations of Water-Management Scenarios in Support of the Comprehensive Everglades Restoration Plan, In The Role of Hydrology in Water Resources Management, IAHS Red Book Series, UNESCO/IAHS Symposium, October 2008, Isle of Capri, Napoli, Italy.
Swain, E. D. and Decker, J. D., 2007, Developing a Heat-Transport Formulation for a Two-Dimensional Hydrodynamic Model of Coastal Wetlands, Second National Conference on Ecosystem Restoration, April 23-27, 2007, Kansas City Missouri p. 340.

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

Example 1 of typical canal habitat were non-native fishes occur in the Plantation/Davie area of Broward County, FL

Potential for Increased Inundation in Flood-Prone Regions of Southeast Florida in Response to Climate and Sea-Level Changes in Broward County, Florida, 2060–69

The U.S. Geological Survey, in cooperation with Broward County Environmental Planning and Resilience Division, has developed county-scale and local-scale groundwater/surface-water models to study the potential for increased inundation and flooding in eastern Broward County that are due to changes in future climate and sea-level rise. The purpose is to provide information that can be used to help...
By
Caribbean-Florida Water Science Center (CFWSC)
Potential for Increased Inundation in Flood-Prone Regions of Southeast Florida in Response to Climate and Sea-Level Changes in Broward County, Florida, 2060–69

Potential for Increased Inundation in Flood-Prone Regions of Southeast Florida in Response to Climate and Sea-Level Changes in Broward County, Florida, 2060–69

The U.S. Geological Survey, in cooperation with Broward County Environmental Planning and Resilience Division, has developed county-scale and local-scale groundwater/surface-water models to study the potential for increased inundation and flooding in eastern Broward County that are due to changes in future climate and sea-level rise. The purpose is to provide information that can be used to help...
Learn More
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Science and Products

Filter Total Items: 14

Assessment of the interconnection between Tampa Bay and the Floridan aquifer system: Historical groundwater data compilation and analysis, 1976–2022 Assessment of the interconnection between Tampa Bay and the Floridan aquifer system: Historical groundwater data compilation and analysis, 1976–2022

The U.S. Geological Survey used existing data collected after the last major navigational channel modification in the mid-1980s to investigate groundwater levels and chloride concentrations in wells in the Floridan aquifer system and other aquifers beneath and near Tampa Bay. Tampa Bay is located on the west-central coast of Florida and provides access for commercial shipping. In 2021...
Authors
Jeremy D. Decker
By
Caribbean-Florida Water Science Center (CFWSC)

Drainage infrastructure and groundwater system response to changes in sea level and precipitation, Broward County, Florida Drainage infrastructure and groundwater system response to changes in sea level and precipitation, Broward County, Florida

Executive Summary Southeast Florida is highly susceptible to flooding because of its low topography and porous, highly permeable Biscayne aquifer. Rising seas will likely result in increased groundwater levels in parts of Broward County, Florida, that will reduce available soil storage and therefore increase the likelihood of inundation and flooding from precipitation events. Moreover...
By
Caribbean-Florida Water Science Center (CFWSC)

Potential for increased inundation in flood-prone regions of southeast Florida in response to climate and sea-level changes in Broward County, Florida, 2060–69 Potential for increased inundation in flood-prone regions of southeast Florida in response to climate and sea-level changes in Broward County, Florida, 2060–69

The U.S. Geological Survey, in cooperation with Broward County Environmental Planning and Resilience Division, has developed county-scale and local-scale groundwater/surface-water models to study the potential for increased inundation and flooding in eastern Broward County that are due to changes in future climate and sea-level rise. These models were constructed by using MODFLOW 2005...
Authors
Jeremy D. Decker, Joseph D. Hughes, Eric D. Swain
By
Caribbean-Florida Water Science Center (CFWSC)

Hydrologic conditions and simulation of groundwater and surface water in the Great Dismal Swamp of Virginia and North Carolina Hydrologic conditions and simulation of groundwater and surface water in the Great Dismal Swamp of Virginia and North Carolina

The U.S. Geological Survey (USGS), in cooperation with the U.S Fish and Wildlife Service, has investigated the hydrology of the Great Dismal Swamp (Swamp) National Wildlife Refuge (Refuge) in Virginia and North Carolina and developed a three-dimensional numerical model to simulate groundwater and surface-water hydrology. The model was developed with MODFLOW-NWT, a USGS numerical...
Authors
Jack R. Eggleston, Jeremy D. Decker, Jason S. Finkelstein, Frederic C. Wurster, Paul E. Misut, Luke P. Sturtevant, Gary K. Speiran
By
Water Resources Mission Area, Virginia and West Virginia Water Science Center, Wildland Fire Science

Distribution of effluent injected into the Boulder Zone of the Floridan aquifer system at the North District Wastewater Treatment Plant, southeastern Florida, 1997–2011 Distribution of effluent injected into the Boulder Zone of the Floridan aquifer system at the North District Wastewater Treatment Plant, southeastern Florida, 1997–2011

Nonhazardous, secondarily treated, domestic wastewater (effluent) has been injected about 1 kilometer below land surface into the Boulder Zone of the Floridan aquifer system at the North District Wastewater Treatment Plant in southeastern Florida. The Boulder Zone contains saline, nonpotable water. Effluent transport out of the injection zone is a risk of underground effluent injection...
Authors
Jeffrey N. King, Jeremy D. Decker
By
Caribbean-Florida Water Science Center (CFWSC)

Utilizing dimensional analysis with observed data to determine the significance of hydrodynamic solutions in coastal hydrology Utilizing dimensional analysis with observed data to determine the significance of hydrodynamic solutions in coastal hydrology

In this paper, the authors present an analysis of the magnitude of the temporal and spatial acceleration (inertial) terms in the surface-water flow equations and determine the conditions under which these inertial terms have sufficient magnitude to be required in the computations. Data from two South Florida field sites are examined and the relative magnitudes of temporal acceleration...
Authors
Eric D. Swain, Jeremy D. Decker, Joseph D. Hughes
By
Water Resources Mission Area, Caribbean-Florida Water Science Center (CFWSC)

Non-USGS Publications**

Swain, E. D., Lohmann, Melinda, and Decker, J. D.,2008, Hydrologic Simulations of Water-Management Scenarios in Support of the Comprehensive Everglades Restoration Plan, In The Role of Hydrology in Water Resources Management, IAHS Red Book Series, UNESCO/IAHS Symposium, October 2008, Isle of Capri, Napoli, Italy.
Swain, E. D. and Decker, J. D., 2007, Developing a Heat-Transport Formulation for a Two-Dimensional Hydrodynamic Model of Coastal Wetlands, Second National Conference on Ecosystem Restoration, April 23-27, 2007, Kansas City Missouri p. 340.

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

Example 1 of typical canal habitat were non-native fishes occur in the Plantation/Davie area of Broward County, FL

Potential for Increased Inundation in Flood-Prone Regions of Southeast Florida in Response to Climate and Sea-Level Changes in Broward County, Florida, 2060–69

The U.S. Geological Survey, in cooperation with Broward County Environmental Planning and Resilience Division, has developed county-scale and local-scale groundwater/surface-water models to study the potential for increased inundation and flooding in eastern Broward County that are due to changes in future climate and sea-level rise. The purpose is to provide information that can be used to help...
By
Caribbean-Florida Water Science Center (CFWSC)
Potential for Increased Inundation in Flood-Prone Regions of Southeast Florida in Response to Climate and Sea-Level Changes in Broward County, Florida, 2060–69

Potential for Increased Inundation in Flood-Prone Regions of Southeast Florida in Response to Climate and Sea-Level Changes in Broward County, Florida, 2060–69

The U.S. Geological Survey, in cooperation with Broward County Environmental Planning and Resilience Division, has developed county-scale and local-scale groundwater/surface-water models to study the potential for increased inundation and flooding in eastern Broward County that are due to changes in future climate and sea-level rise. The purpose is to provide information that can be used to help...
Learn More
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