Paul F Juckem
Paul Juckem is a Hydrologist with the Upper Midwest Water Science Center.
His expertise in groundwater flow and transport modeling is used in studies of regional water availability, groundwater/surface-water interaction, and water quality characterization and prediction for lakes, streams, and aquifers. Current work involves: leading the development of tools to inform resource managers about the sources, timing, and fate (forecasts) of nutrients in aquifers, wells, and waterbodies; investigating factors that influence groundwater age distributions and travel times within aquifers; assessing the role of groundwater/surface-water interactions along flood plains in attenuating peak flows; mapping the probability of contaminant plume extents in aquifers using Analytic Element groundwater flow models and Monte Carlo techniques; and evaluating effects of water level fluctuations and water quality in shallow lakes.
CURRENT RESEARCH
- Nutrient and contaminant movement in groundwater systems
- Nutrient loading to lake and river systems
- Development of hydrologic Decision Support tools
- Simplification methods for hydrologic modeling (emulators, machine learning, analytic solutions)
- Uncertainty analysis and forecasting
- Groundwater flow and transport simulation
- Water availability and source water protection
- Groundwater/surface-water interaction (flow and chemistry)
Education and Certifications
M.S. in Geology - University of Wisconsin-Madison. Thesis: 'Spatial Patterns and Temporal Trends in Groundwater Recharge in the Upper Coon Creek Watershed, Southwest Wisconsin,' 2003.
B.S. in Water Resources Management (groundwater emphasis), Geology minor – University of Wisconsin-Stevens Point, 1999.
Affiliations and Memberships*
Association of Ground Water Scientists and Engineers (2000 - present)
Wisconsin State Section (1996 - present); Treasurer (2004 - 2008)
American Geophysical Union (1999 - present)
American Water Resources Association (1997 - 2006)
Science and Products
Effects of climate and land management change on streamflow in the driftless area of Wisconsin
Ground-Water Flow in the Vicinity of the Ho-Chunk Nation Communities of Indian Mission and Sand Pillow, Jackson County, Wisconsin
Hydrogeologic characteristics of the St. Croix River basin, Minnesota and Wisconsin: Implications for the susceptibility of ground water to potential contamination
Simulation of the shallow ground-water-flow system near Grindstone Creek and the community of New Post, Sawyer County, Wisconsin
Scale effects of hydrostratigraphy and recharge zonation on base flow
Simulation of the shallow hydrologic system in the vicinity of Middle Genesee Lake, Wisconsin, using analytic elements and parameter estimation
Science and Products
- Science
- Data
- Multimedia
- Publications
Filter Total Items: 30
Effects of climate and land management change on streamflow in the driftless area of Wisconsin
Baseflow and precipitation in the Kickapoo River Watershed, located in the Driftless Area of Wisconsin, exhibit a step increase around 1970, similar to minimum and median flows in many other central and eastern USA streams. Potential effects on streamflow due to climatic and land management changes were evaluated by comparing volumetric changes in the hydrologic budget before and after 1970. IncreAuthorsP. F. Juckem, R. J. Hunt, M.P. Anderson, Dale M. RobertsonGround-Water Flow in the Vicinity of the Ho-Chunk Nation Communities of Indian Mission and Sand Pillow, Jackson County, Wisconsin
An analytic element ground-water-flow model was constructed to help understand the ground-water-flow system in the vicinity of the Ho-Chunk Nation communities of Indian Mission and Sand Pillow in Jackson County, Wisconsin. Data from interpretive reports, well-drillers' construction reports, and an exploratory augering program in 2003 indicate that sand and gravel of varying thickness (0-150 feet[fAuthorsCharles P. Dunning, Gregory D. Mueller, Paul F. JuckemHydrogeologic characteristics of the St. Croix River basin, Minnesota and Wisconsin: Implications for the susceptibility of ground water to potential contamination
Population growth in the St. Croix River Basin in Minnesota and Wisconsin has intensified concerns of county resource managers and the National Park Service, which is charged with protecting the St. Croix National Scenic Riverway, about the potential for ground-water contamination in the basin. This report describes a previously developed method that was adapted to illustrate potential ground-wateAuthorsPaul F. JuckemSimulation of the shallow ground-water-flow system near Grindstone Creek and the community of New Post, Sawyer County, Wisconsin
A two-dimensional, steady-state ground-water-flow model of Grindstone Creek, the New Post community, and the surrounding areas was developed using the analytic element computer code GFLOW. The parameter estimation code UCODE was used to obtain a best fit of the model to measured water levels and streamflows. The calibrated model was then used to simulate the effect of ground-water pumping on baseAuthorsPaul F. Juckem, Randall J. HuntScale effects of hydrostratigraphy and recharge zonation on base flow
Uncertainty regarding spatial variations of model parameters often results in the simplifying assumption that parameters are spatially uniform. However, spatial variability may be important in resource assessment and model calibration. In this paper, a methodology is presented for estimating a critical basin size, above which base flows appear to be relatively less sensitive to the spatial distribAuthorsP. F. Juckem, R. J. Hunt, M.P. AndersonSimulation of the shallow hydrologic system in the vicinity of Middle Genesee Lake, Wisconsin, using analytic elements and parameter estimation
Middle Genesee Lake is a ground-water flow-through lake located in a developing area in southeastern Wisconsin. Because the lake is in good connection with the shallow ground-water system, hydrologic stresses to the shallow ground-water system could adversely affect the lake system. In order to assess the effects of potential stresses on the lake, a study was completed by the U.S. Geological SurveAuthorsR. J. Hunt, Y. Lin, J. T. Krohelski, P. F. Juckem - Software
*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