Randall J Hunt, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 150
Simulation of Fish, Mud, and Crystal Lakes and the shallow ground-water system, Dane County, Wisconsin Simulation of Fish, Mud, and Crystal Lakes and the shallow ground-water system, Dane County, Wisconsin
A new MODFLOW lake package (LAK3) that simulates ground-water/lake interaction was used in simulation of Fish, Mud and Crystal Lakes?three shallow seepage lakes located in northwestern Dane County, Wis. The simulations were done to help determine the cause of increasing lake stages and provide a tool to estimate the effect of pumping water from Fish lake on future lake stages. The ground...
Authors
James T. Krohelski, Yu-Feng Lin, William J. Rose, Randall J. Hunt
Improving a regional model using reduced complexity and parameter estimation Improving a regional model using reduced complexity and parameter estimation
The availability of powerful desktop computers and graphical user interfaces for ground water flow models makes possible the construction of ever more complex models. A proposed copper-zinc sulfide mine in northern Wisconsin offers a unique case in which the same hydrologic system has been modeled using a variety of techniques covering a wide range of sophistication and complexity. Early...
Authors
Victor A. Kelson, Randall J. Hunt, Henk M. Haitjema
Using groundwater temperature data to constrain parameter estimation in a groundwater flow model of a wetland system Using groundwater temperature data to constrain parameter estimation in a groundwater flow model of a wetland system
Parameter estimation is a powerful way to calibrate models. While head data alone are often insufficient to estimate unique parameters due to model nonuniqueness, flow‐and‐heat‐transport modeling can constrain estimation and allow simultaneous estimation of boundary fluxes and hydraulic conductivity. In this work, synthetic and field models that did not converge when head data were used...
Authors
Hector R. Bravo, Feng Jiang, Randall J. Hunt
Hydrologic investigation of Powell Marsh and its relation to Dead Pike Lake, Vilas County, Wisconsin Hydrologic investigation of Powell Marsh and its relation to Dead Pike Lake, Vilas County, Wisconsin
An analytic element ground-water-flow model was constructed to help understand the ground- and surface-water hydrology in the vicinity of Dead Pike Lake and Powell Marsh, Vilas County, Wisconsin. The model was used to simulate the effect of removing Powell Marsh control structures (ditches and Vista Pond) on the hydrology of Dead Pike Lake. Measurements and model simulation results show...
Authors
James T. Krohelski, William J. Rose, Randall J. Hunt
Using high hydraulic conductivity nodes to simulate seepage lakes Using high hydraulic conductivity nodes to simulate seepage lakes
In a typical ground water flow model, lakes are represented by specified head nodes requiring that lake levels be known a priori. To remove this limitation, previous researchers assigned high hydraulic conductivity (K) values to nodes that represent a lake, under the assumption that the simulated head at the nodes in the high-K zone accurately reflects lake level. The solution should...
Authors
Mary P. Anderson, Randall J. Hunt, James T. Krohelski, Kuopo Chung
Evaluating the effects of urbanization and land-use planning using ground-water and surface-water models Evaluating the effects of urbanization and land-use planning using ground-water and surface-water models
Why are the effects of urbanization a concern? As the city of Middleton, Wisconsin, and its surroundings continue to develop, the Pheasant Branch watershed (fig.l) is expected to undergo urbanization. For the downstream city of Middleton, urbanization in the watershed can mean increased flood peaks, water volume and pollutant loads. More subtly, it may also reduce water that sustains the...
Authors
R. J. Hunt, J. J. Steuer
Non-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.
Science and Products
Filter Total Items: 150
Simulation of Fish, Mud, and Crystal Lakes and the shallow ground-water system, Dane County, Wisconsin Simulation of Fish, Mud, and Crystal Lakes and the shallow ground-water system, Dane County, Wisconsin
A new MODFLOW lake package (LAK3) that simulates ground-water/lake interaction was used in simulation of Fish, Mud and Crystal Lakes?three shallow seepage lakes located in northwestern Dane County, Wis. The simulations were done to help determine the cause of increasing lake stages and provide a tool to estimate the effect of pumping water from Fish lake on future lake stages. The ground...
Authors
James T. Krohelski, Yu-Feng Lin, William J. Rose, Randall J. Hunt
Improving a regional model using reduced complexity and parameter estimation Improving a regional model using reduced complexity and parameter estimation
The availability of powerful desktop computers and graphical user interfaces for ground water flow models makes possible the construction of ever more complex models. A proposed copper-zinc sulfide mine in northern Wisconsin offers a unique case in which the same hydrologic system has been modeled using a variety of techniques covering a wide range of sophistication and complexity. Early...
Authors
Victor A. Kelson, Randall J. Hunt, Henk M. Haitjema
Using groundwater temperature data to constrain parameter estimation in a groundwater flow model of a wetland system Using groundwater temperature data to constrain parameter estimation in a groundwater flow model of a wetland system
Parameter estimation is a powerful way to calibrate models. While head data alone are often insufficient to estimate unique parameters due to model nonuniqueness, flow‐and‐heat‐transport modeling can constrain estimation and allow simultaneous estimation of boundary fluxes and hydraulic conductivity. In this work, synthetic and field models that did not converge when head data were used...
Authors
Hector R. Bravo, Feng Jiang, Randall J. Hunt
Hydrologic investigation of Powell Marsh and its relation to Dead Pike Lake, Vilas County, Wisconsin Hydrologic investigation of Powell Marsh and its relation to Dead Pike Lake, Vilas County, Wisconsin
An analytic element ground-water-flow model was constructed to help understand the ground- and surface-water hydrology in the vicinity of Dead Pike Lake and Powell Marsh, Vilas County, Wisconsin. The model was used to simulate the effect of removing Powell Marsh control structures (ditches and Vista Pond) on the hydrology of Dead Pike Lake. Measurements and model simulation results show...
Authors
James T. Krohelski, William J. Rose, Randall J. Hunt
Using high hydraulic conductivity nodes to simulate seepage lakes Using high hydraulic conductivity nodes to simulate seepage lakes
In a typical ground water flow model, lakes are represented by specified head nodes requiring that lake levels be known a priori. To remove this limitation, previous researchers assigned high hydraulic conductivity (K) values to nodes that represent a lake, under the assumption that the simulated head at the nodes in the high-K zone accurately reflects lake level. The solution should...
Authors
Mary P. Anderson, Randall J. Hunt, James T. Krohelski, Kuopo Chung
Evaluating the effects of urbanization and land-use planning using ground-water and surface-water models Evaluating the effects of urbanization and land-use planning using ground-water and surface-water models
Why are the effects of urbanization a concern? As the city of Middleton, Wisconsin, and its surroundings continue to develop, the Pheasant Branch watershed (fig.l) is expected to undergo urbanization. For the downstream city of Middleton, urbanization in the watershed can mean increased flood peaks, water volume and pollutant loads. More subtly, it may also reduce water that sustains the...
Authors
R. J. Hunt, J. J. Steuer
Non-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.
*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