Robert S Regan
Research, development and application of the PRMS, GSFLOW, and MODSIM-GSFLOW modeling codes and National Hydrologic Modeling Infrastructure
PRESENT ADDRESS:
U.S. Geological Survey
Denver Federal Center, Box 25046, MS 412
Denver, Colorado 80225
EDUCATION:
Masters of Divinity (2000). Wesley Theological Seminary, Washington, D.C.
BA Environmental Science (1987). University of Virginia, Charlottesville, Virginia,
PRESENT ASSIGNMENT:
DATES From: 2003 To: Present
DESCRIPTION: Research, development, and applications focuses on incorporating new simulation algorithms and enhancements of existing algorithms within the Precipitation-Runoff Modeling System (PRMS), the coupled Modular Groundwater Flow Model (MODFLOW) and PRMS simulation model—GSFLOW, the coupled MODSIM-GSFLOW simulation code, and the National Hydrologic Modeling (NHM) Infrastructure. Development is driven by WMA research objectives of improving the understanding and simulation of watershed-scale hydrologic processes to climate and anthropogenic influences, environmental characteristics with input and requests from USGS and other Federal agencies, the academic community, and private sector scientists.
RELEVANT EXPERIENCE:
Research and development of the PRMS simulation model, most recently developing methods for input of historic and projected climate; dynamic parameters; and water-use information and enhancement of surface-depression storage and spatial and temporal characterization of model parameters for use in large model domains.
Research and development of the coupled groundwater/surface-water simulation model (GSFLOW) and MODFLOW UZF and AG Package, and MODSIM-GSFLOW coupled simulation code.
Research and development of a loosely-coupled, sub-daily simulation model using PRMS, NOAA-NWS Lag and K river routing model, and USACE HEC-ResSim Reservoir System Simulation model for a large watershed spanning portions of NY, NJ, and PA.
Hydrologist, member of the Modeling of Watershed Systems (MoWS) project, USGS National Research Program, Central Region, Lakewood, Colorado (2003-2016)
Senior Pastor, Greenwood United Methodist Church, Winchester, Virginia (1999-2002)
Hydrologist, project chief and member of the Hydrologic Analysis Software Support Section, Reston, Virginia (1992-1996)
Computer Scientist, project chief and site admistrator USGS National Research Program, Northeast Region, Office of Surface Water, Office of Groundwater, and Office of Water Quality, Reston, Virginia (1986-1992)
Hydrologist, member of the Modeling of Hydrodynamic Systems project, USGS National Research Program, Northeast Region, Reston, Virginia (1981-1986)
Science and Products
238U/206Pb SHRIMP, 40Ar/39Ar geochronologic, and geochemical data from the Central Virginia Piedmont
Monthly crop irrigation withdrawals and efficiencies by HUC12 watershed for years 2000-2020 within the conterminous United States
Irrigation water use reanalysis for the 2000-20 period by HUC12, month, and year for the conterminous United States
Application of the National Hydrologic Model Infrastructure with the Precipitation-Runoff Modeling System (NHM-PRMS), Uncalibrated Version
Dynamic Parameter, Water-Use, Stream and Lake Flow Routing, and Two Summary Output Modules and Updates to Surface-Depression Storage Simulation and Initial Conditions Specification Options for the Precipitation-Runoff Modeling System (PRMS)
Documentation of the Precipitation-Runoff Modeling System and Output from the RegCM3 Regional Climate Model Used to Estimate Potential Effects of Climate Change on Streamflow for Seven Watersheds in Eastern and Central Montana (2013-2014 Analyses)
Parameter estimation at the conterminous United States scale and streamflow routing enhancements for the National Hydrologic Model infrastructure application of the Precipitation-Runoff Modeling System (NHM-PRMS)
Can hydrological models benefit from using global soil moisture, evapotranspiration, and runoff products as calibration targets?
Simulation of water availability in the Southeastern United States for historical and potential future climate and land-cover conditions
Modelling surface-water depression storage in a Prairie Pothole Region
Description of the National Hydrologic Model for use with the Precipitation-Runoff Modeling System (PRMS)
Documentation of the dynamic parameter, water-use, stream and lake flow routing, and two summary output modules and updates to surface-depression storage simulation and initial conditions specification options with the Precipitation-Runoff Modeling System
Documentation of a daily mean stream temperature module—An enhancement to the Precipitation-Runoff Modeling System
Potential effects of climate change on streamflow for seven watersheds in eastern and central Montana
Simulation of climate change effects on streamflow, groundwater, and stream temperature using GSFLOW and SNTEMP in the Black Earth Creek Watershed, Wisconsin
Documentation of a restart option for the U.S. Geological Survey coupled Groundwater and Surface-Water Flow (GSFLOW) model
Effects of climate and land cover on hydrology in the southeastern U.S.: Potential impacts on watershed planning
Water-budgets and recharge-area simulations for the Spring Creek and Nittany Creek Basins and parts of the Spruce Creek Basin, Centre and Huntingdon Counties, Pennsylvania, Water Years 2000–06
Version 2.3.0 of Coupled Ground-Water and Surface-Water Flow Model Based on the Integration of the Precipitation-Runoff Modeling System (PRMS) and the Modular Ground-Water Flow Model
GSFLOW: Coupled Groundwater and Surface-Water Flow Model
Groundwater and Surface-water FLOW (GSFLOW) was developed to simulate coupled groundwater and surface-water resources. The model is based on the integration of the U.S. Geological Survey Precipitation-Runoff Modeling System (PRMS) and the U.S. Geological Survey Modular Groundwater Flow Model (MODFLOW).
GSFLOW: Coupled Groundwater and Surface-Water Flow Model, version 2.2.1
Precipitation Runoff Modeling System (PRMS)
The Precipitation-Runoff Modeling System is a deterministic, distributed-parameter, physical process based modeling system developed to evaluate the response of various combinations of climate and land use on streamflow and general watershed hydrology.
Precipitation Runoff Modeling System (PRMS) version 5.2.0
Precipitation Runoff Modeling System (PRMS) version 5.2.1
GSFLOW: Coupled Groundwater and Surface-Water Flow Model, version 2.2.0
Precipitation Runoff Modeling System (PRMS) version 5.1.0
GSFLOW: Coupled Groundwater and Surface-Water Flow Model, version 2.1.0
PRMS version 5.0.0: Precipitation-Runoff Modeling System
Science and Products
238U/206Pb SHRIMP, 40Ar/39Ar geochronologic, and geochemical data from the Central Virginia Piedmont
Monthly crop irrigation withdrawals and efficiencies by HUC12 watershed for years 2000-2020 within the conterminous United States
Irrigation water use reanalysis for the 2000-20 period by HUC12, month, and year for the conterminous United States
Application of the National Hydrologic Model Infrastructure with the Precipitation-Runoff Modeling System (NHM-PRMS), Uncalibrated Version
Dynamic Parameter, Water-Use, Stream and Lake Flow Routing, and Two Summary Output Modules and Updates to Surface-Depression Storage Simulation and Initial Conditions Specification Options for the Precipitation-Runoff Modeling System (PRMS)
Documentation of the Precipitation-Runoff Modeling System and Output from the RegCM3 Regional Climate Model Used to Estimate Potential Effects of Climate Change on Streamflow for Seven Watersheds in Eastern and Central Montana (2013-2014 Analyses)
Parameter estimation at the conterminous United States scale and streamflow routing enhancements for the National Hydrologic Model infrastructure application of the Precipitation-Runoff Modeling System (NHM-PRMS)
Can hydrological models benefit from using global soil moisture, evapotranspiration, and runoff products as calibration targets?
Simulation of water availability in the Southeastern United States for historical and potential future climate and land-cover conditions
Modelling surface-water depression storage in a Prairie Pothole Region
Description of the National Hydrologic Model for use with the Precipitation-Runoff Modeling System (PRMS)
Documentation of the dynamic parameter, water-use, stream and lake flow routing, and two summary output modules and updates to surface-depression storage simulation and initial conditions specification options with the Precipitation-Runoff Modeling System
Documentation of a daily mean stream temperature module—An enhancement to the Precipitation-Runoff Modeling System
Potential effects of climate change on streamflow for seven watersheds in eastern and central Montana
Simulation of climate change effects on streamflow, groundwater, and stream temperature using GSFLOW and SNTEMP in the Black Earth Creek Watershed, Wisconsin
Documentation of a restart option for the U.S. Geological Survey coupled Groundwater and Surface-Water Flow (GSFLOW) model
Effects of climate and land cover on hydrology in the southeastern U.S.: Potential impacts on watershed planning
Water-budgets and recharge-area simulations for the Spring Creek and Nittany Creek Basins and parts of the Spruce Creek Basin, Centre and Huntingdon Counties, Pennsylvania, Water Years 2000–06
Version 2.3.0 of Coupled Ground-Water and Surface-Water Flow Model Based on the Integration of the Precipitation-Runoff Modeling System (PRMS) and the Modular Ground-Water Flow Model
GSFLOW: Coupled Groundwater and Surface-Water Flow Model
Groundwater and Surface-water FLOW (GSFLOW) was developed to simulate coupled groundwater and surface-water resources. The model is based on the integration of the U.S. Geological Survey Precipitation-Runoff Modeling System (PRMS) and the U.S. Geological Survey Modular Groundwater Flow Model (MODFLOW).
GSFLOW: Coupled Groundwater and Surface-Water Flow Model, version 2.2.1
Precipitation Runoff Modeling System (PRMS)
The Precipitation-Runoff Modeling System is a deterministic, distributed-parameter, physical process based modeling system developed to evaluate the response of various combinations of climate and land use on streamflow and general watershed hydrology.