Randall J Hunt, Ph.D.
Randall Hunt is a Chief Science Officer with the Upper Midwest Water Science Center.
AREAS OF EXPERTISE
My work focuses on water flow, and its effect on natural systems. This research uses a variety of approaches such as numerical modeling, ion and isotope chemistry, tracers, parameter estimation, and stochastic methods. It emphasizes a range of groundwater – surface water systems including wetland, stream, and lake interactions. More recently this work has been extended to research investigating ecohydrology of aquatic systems, effects of climate and landuse drivers, and source and transport of enteric viruses to drinking water wells and temperature through watersheds. Much of my work has focused on improving model forecasts and uncertainty estimates for decision making.
Professional Experience
2018 to 2021 - Chief Science Officer, US Geological Survey, Upper Midwest Water Science Center
2015 to 2018 - Associate Director of Science, US Geological Survey, Upper Midwest Water Science Center
1996 to present - Research Hydrologist, US Geological Survey, Upper Midwest Water Science Center
2003 to present - Adjunct Professor, University of Wisconsin-Madison, Department of Geoscience
2000 to 2003 - Adjunct Assistant Professor, University of Wisconsin-Madison, Department of Geoscience
1990 to 1996 - Hydrologist, US Geological Survey, Wisconsin District
1991 to 1993 - Research Fellow, US DOE, Environmental Restoration and Waste Management Program
1988 to 1990 - Hydrogeologist/Project Manager, Barr Engineering Company, Minneapolis, MN
1986 to 1987 - Leopold Research Fellow, Leopold Memorial Reserve, Baraboo, WI
Education and Certifications
Ph.D in Hydrogeology (major) and Wetland Sciences (minor) - University of Wisconsin-Madison, 1993
M.S. in Hydrogeology - University of Wisconsin-Madison, 1987
B.A. in Geology (major) and Business (major) - Gustavus Adolphus College, 1985
Affiliations and Memberships*
Professional Societies
Professional Hydrologist #60-111, State of Wisconsin
Geological Society of America
American Water Resources Association, Wisconsin Section
Society of Wetland Scientists
American Geophysical Union
National Groundwater Association
Academic and Professional Service
2014 to 2019 - Advisor to the Editor-In-Chief for the journal Groundwater
2009 to 2013 - Associate Editor for Hydrogeology Journal
2008 to 2009 - Guest Editor for "Hydrogeoecology and Groundwater Dependent Ecosystems" theme issue of Hydrogeology Journal
2005 to present - Appointed by Governor to the State of Wisconsin Department of Regulation and Licensing Geology, Hydrology, Soil Science Joint Board (Chair 2008 - 2014)
2005 to 2006 - Guest Editor for "Analytic Element Modeling" special issue of the journal Groundwater
2002 to 2004 - Associate Editor for the journal Wetlands
1998 to 2010 - Member, University of Wisconsin System Groundwater Research Advisory Council (Chair 2003-2010)
1995 to present - Member, State of Wisconsin Groundwater Coordinating Council Research Subcommittee
1997 to present - Associate Editor for the journal Groundwater
Editorial Boards
Groundwater
Environmental Modelling & Software
Honors and Awards
2013 – Distinguished Service Award, Wisconsin Section-AWRA
2012 – Superior Service Award, US Department of the Interior
Science and Products
Watershed scale response to climate change--Trout Lake Basin, Wisconsin
Integrated watershed-scale response to climate change for selected basins across the United States
MODFLOW-NWT – Robust handling of dry cells using a Newton Formulation of MODFLOW-2005
Luna B. Leopold--pioneer setting the stage for modern hydrology
Groundwater recharge in Wisconsin— Annual estimates for 1970–99 using streamflow data
Application of the Local Grid Refinement package to an inset model simulating the interaction of lakes, wells, and shallow groundwater, northwestern Waukesha County, Wisconsin
Simulation of the shallow groundwater-flow system near Mole Lake, Forest County, Wisconsin
Using models for the optimization of hydrologic monitoring
Approaches to highly parameterized inversion: Pilot-point theory, guidelines, and research directions
Approaches to highly parameterized inversion-A guide to using PEST for groundwater-model calibration
Regional groundwater-flow model of the Lake Michigan Basin in support of Great Lakes Basin water availability and use studies
Non-USGS Publications**
**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.
Science and Products
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- Data
- Publications
Filter Total Items: 135
Watershed scale response to climate change--Trout Lake Basin, Wisconsin
General Circulation Model simulations of future climate through 2099 project a wide range of possible scenarios. To determine the sensitivity and potential effect of long-term climate change on the freshwater resources of the United States, the U.S. Geological Survey Global Change study, "An integrated watershed scale response to global change in selected basins across the United States" was startAuthorsJohn F. Walker, Randall J. Hunt, Lauren E. Hay, Steven L. MarkstromIntegrated watershed-scale response to climate change for selected basins across the United States
A study by the U.S. Geological Survey (USGS) evaluated the hydrologic response to different projected carbon emission scenarios of the 21st century using a hydrologic simulation model. This study involved five major steps: (1) setup, calibrate and evaluated the Precipitation Runoff Modeling System (PRMS) model in 14 basins across the United States by local USGS personnel; (2) acquire selected simuAuthorsSteven L. Markstrom, Lauren E. Hay, D. Christian Ward-Garrison, John C. Risley, William A. Battaglin, David M. Bjerklie, Katherine J. Chase, Daniel E. Christiansen, Robert W. Dudley, Randall J. Hunt, Kathryn M. Koczot, Mark C. Mastin, R. Steven Regan, Roland J. Viger, Kevin C. Vining, John F. WalkerMODFLOW-NWT – Robust handling of dry cells using a Newton Formulation of MODFLOW-2005
The first versions of the widely used groundwater flow model MODFLOW (McDonald and Harbaugh 1988) had a sure but inflexible way of handling unconfined finite-difference aquifer cells where the water table dropped below the bottom of the cell—these "dry cells" were turned inactive for the remainder of the simulation. Problems with this formulation were easily seen, including the potential for inadvAuthorsRandal J. Hunt, Daniel T. FeinsteinLuna B. Leopold--pioneer setting the stage for modern hydrology
In 1986, during the first year of graduate school, the lead author was sampling the water from a pitcher pump in front of “The Shack,” the setting of the opening essays in Aldo Leopold's renowned book A Sand County Almanac. The sampling was part of my Master's work that included quarterly monitoring of water quality on the Leopold Memorial Reserve (LMR) near Baraboo, Wisconsin. The Shack was alreaAuthorsRandall J. Hunt, Curt MeineGroundwater recharge in Wisconsin— Annual estimates for 1970–99 using streamflow data
The groundwater component of streamflow is important because it is indicative of the sustained flow of a stream during dry periods, is often of better quality, and has a smaller range of temperatures, than surface contributions to streamflow. All three of these characteristics are important to the health of aquatic life in a stream. If recharge to the aquifers is to be preserved or enhanced, it isAuthorsWarren A. Gebert, John F. Walker, Randall J. HuntApplication of the Local Grid Refinement package to an inset model simulating the interaction of lakes, wells, and shallow groundwater, northwestern Waukesha County, Wisconsin
Groundwater use from shallow, high-capacity wells is expected to increase across southeastern Wisconsin in the next decade (2010-2020), owing to residential and business growth and the need for shallow water to be blended with deeper water of lesser quality, containing, for example, excessive levels of radium. However, this increased pumping has the potential to affect surface-water features. A prAuthorsD. T. Feinstein, C. P. Dunning, P. F. Juckem, R. J. HuntSimulation of the shallow groundwater-flow system near Mole Lake, Forest County, Wisconsin
The shallow groundwater system near Mole Lake, Forest County, Wis. was simulated using a previously calibrated regional model. The previous model was updated using newly collected water-level measurements and refinements to surface-water features. The updated model was then used to calculate the area contributing recharge for one existing and two proposed pumping locations on lands of the SokaogonAuthorsMichael N. Fienen, Paul F. Juckem, Randall J. HuntUsing models for the optimization of hydrologic monitoring
Hydrologists are often asked what kind of monitoring network can most effectively support science-based water-resources management decisions. Currently (2011), hydrologic monitoring locations often are selected by addressing observation gaps in the existing network or non-science issues such as site access. A model might then be calibrated to available data and applied to a prediction of interestAuthorsMichael N. Fienen, Randall J. Hunt, John E. Doherty, Howard W. ReevesApproaches to highly parameterized inversion: Pilot-point theory, guidelines, and research directions
Pilot points have been used in geophysics and hydrogeology for at least 30 years as a means to bridge the gap between estimating a parameter value in every cell of a model and subdividing models into a small number of homogeneous zones. Pilot points serve as surrogate parameters at which values are estimated in the inverse-modeling process, and their values are interpolated onto the modeling domaiAuthorsJohn E. Doherty, Michael N. Fienen, Randall J. HuntApproaches to highly parameterized inversion-A guide to using PEST for groundwater-model calibration
Highly parameterized groundwater models can create calibration difficulties. Regularized inversion-the combined use of large numbers of parameters with mathematical approaches for stable parameter estimation-is becoming a common approach to address these difficulties and enhance the transfer of information contained in field measurements to parameters used to model that system. Though commonly useAuthorsJohn E. Doherty, Randall J. HuntRegional groundwater-flow model of the Lake Michigan Basin in support of Great Lakes Basin water availability and use studies
A regional groundwater-flow model of the Lake Michigan Basin and surrounding areas has been developed in support of the Great Lakes Basin Pilot project under the U.S. Geological Survey's National Water Availability and Use Program. The transient 2-million-cell model incorporates multiple aquifers and pumping centers that create water-level drawdown that extends into deep saline waters. The 20-layeAuthorsD. T. Feinstein, R. J. Hunt, H. W. ReevesNon-USGS Publications**
Abrams, D.B., Haitjema, H.M., Feinstein, D.T. and Hunt, R.J., 2015, Field test of a Hybrid Finite-Difference and Analytic Element regional model. Groundwater. doi: 10.1111/gwat.12319.**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.
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*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government