Publications
This list of Upper Midwest Water Science Center publications spans from 1899 to present. It includes both official USGS publications and journal articles authored by our scientists. To access the full, searchable catalog of USGS publications, please visit the USGS Publications Warehouse.
Filter Total Items: 2247
Comparability of different river suspended sediment sampling and laboratory analysis methods and the effect of sand
Accurate measurements of suspended sediment, a leading water-quality impairment in many rivers, are important for managing and protecting water resources; however, water quality standards for suspended sediment in Minnesota are based on grab field sampling and total suspended solids (TSS) laboratory analysis methods. These methods have underrepresented concentrations of suspended sediment in river
Authors
Joel T. Groten, Gregory D. Johnson
Seasonal variation in sediment and phosphorus yields in four Wisconsin agricultural watersheds
Agricultural water quality projects in two distinct topographic regions in Wisconsin collected 5 to 10 yr of continuous stream discharge, suspended sediment (SS), total P (TP), and total dissolved P (TDP) in four watersheds (2100–5000 ha) from 2006 to 2016. Previous agricultural nonpoint SS and TP reduction efforts in two of these watersheds documented cold versus warm season differences in water
Authors
Laura W. Good, Rebecca Carvin, Faith A. Fitzpatrick
Technical comment on “Global pattern of nest predation is disrupted by climate change in shorebirds”
Kubelka et al. (Report, 9 November 2018, p. 680-683) claim that climate change has disrupted patterns of nest predation in shorebirds. They report that predation rates have increased since the 1950s, especially in the Arctic. We describe methodological problems with their analyses and argue that there is no solid statistical support for their claims.
Authors
Martin Bulla, Jeroen Reneerkens, Emily L. Weiser, Aleksandr Sokolov, Audrey R. Taylor, Benoit Sittler, Brian J McCaffery, Daniel R. Ruthrauff, Daniel H. Catlin, David C. Payer, David H. Ward, Diana V Solovyeva, Eduardo SA Santos, Eldar Rakhimberdiev, Erica Nol, Eunbi Kwon, Glen S. Brown, Glenda D Hevia, H. River Gates, James A. Johnson, Jan A. van Gils, Jannik Hansen, Jean-Francois Lamarre, Jennie Rausch, Jesse R. Conklin, Joe Liebezeit, Joel Bety, Johannes Lang, José A. Alves, Juan Fernandez-Elipe, Klaus-Michael Exo, Loic Bollache, Marcelo Bertellotti, Marie-Andree Giroux, Martijn van de Pol, Matthew D. Johnson, Megan L. Boldenow, Mihai Valcu, Mikhail Soloviev, Natalya Sokolova, Nathan R. Senner, Nicholas Lecomte, Nicolas Meyer, Niels Martin Schmidt, Olivier Gilg, Paul A Smith, Paula Machin, Rebecca L McGuire, Ricardo AS Cerboncini, Richard Ottvall, Rob SA van Bemmelen, Rose J Swift, Sara T Saalfeld, Sara E Jamieson, Stephen C. Brown, Theunis Piersma, Tomas Albrecht, Veronica L D'Amico, Richard B. Lanctot, Bart Kempenaers
Complex response of sediment phosphorus to land use and management within a river network
Rivers affected by anthropogenic nutrient inputs can retain some of the phosphorus (P) load through sediment retention and burial. Determining the influence of land use and management on sediment P concentrations and P retention in fluvial ecosystems is challenging because of different stressors operating at multiple spatial and temporal scales. In this study, we sought to determine how land use a
Authors
Rebecca Kreiling, Martin C. Thoms, Lynn A. Bartsch, William B. Richardson, Victoria G. Christensen
Handbook to the partners in flight population estimates database, version 3.0
This document describes the content of Version 3.0 of the Partners in Flight (PIF) Population Estimates Database, which provides population estimates for breeding USA/Canada landbirds at several geographic scales following the Partners in Flight approach described initially in Rich et al. (2004) and by Rosenberg and Blancher (2005) and most recently refined by Stanton et al. (2019). The Handbook a
Authors
Tom Will, Jessica C. Stanton, Kenneth V. Rosenberg, Arvind O. Panjabi, Alaine Camfield, Allison Shaw, Wayne E. Thogmartin, Peter J. Blancher
Simulation of the regional groundwater-flow system in the St. Louis River basin, Minnesota
The St. Louis River Basin (SLRB) covers 3,600 square miles in northeastern Minnesota, with headwaters in the Mesabi Range and extensive wetlands and lakes throughout the basin. To better understand the regional groundwater system in the SLRB, a two-dimensional, steady-state groundwater-flow model of the SLRB was developed by the U.S. Geological Survey, in cooperation with the Minnesota Ojibwe Band
Authors
Megan J. Haserodt, Randall J. Hunt, Timothy K. Cowdery, Andrew T. Leaf, Anna C. Baker
The integrated monarch monitoring program: From design to implementation
Steep declines in North American monarch butterfly (Danaus plexippus) populations have prompted continent-wide conservation efforts. While monarch monitoring efforts have existed for years, we lack a comprehensive approach to monitoring population vital rates integrated with habitat quality to inform adaptive management and effective conservation strategies. Building a geographically and ecologica
Authors
Alison B Cariveau, Holly L Holt, James P Ward, Laura Lukens, Kyle Kasten, Jennifer Thieme, Wendy Caldwell, Karen Tuerk, Kristen A Baum, Pauline Drobney, Ryan G. Drum, Ralph Grundel, Keith Hamilton, Cindy Hoang, Karen Kinkead, Julie McIntyre, Wayne E. Thogmartin, Tenlea Turner, Emily L. Weiser, Karen Oberhauser
Growing pains of crowdsourced stream stage monitoring using mobile phones: The development of CrowdHydrology
Citizen science-based approaches to monitor the natural environment tend to be bimodal in maturity. Older and established programs such as the Audubon’s Christmas bird count and Community Collaborative Rain, Hail, and Snow Network (CoCoRaHS) have thousands of participants across decades of observations, while less mature citizen science projects have shorter lifespans often focused on local or reg
Authors
Christopher Lowry, Michael N. Fienen, Damon M. Hall, Kristine Stepenuck
Revisiting “An Exercise in Groundwater Model Calibration and Prediction” after 30 years: Insights and New Directions
In 1988, an important publication moved model calibration and forecasting beyond case studies and theoretical analysis. It reported on a somewhat idyllic graduate student modeling exercise where many of the system properties were known; the primary forecasts of interest were heads in pumping wells after a river was modified. The model was calibrated using manual trial‐and‐error approaches where a
Authors
Randall J. Hunt, Michael N. Fienen, Jeremy T. White
Geochemical factors controlling dissolved elemental mercury and methylmercury formation in Alaskan wetlands of varying trophic status
Transformations of aqueous inorganic divalent mercury (Hg(II)i) to volatile dissolved gaseous mercury (Hg(0)(aq)) and toxic methylmercury (MeHg) governs mercury bioavailability and fate in northern ecosystems. This study quantified concentrations of aqueous mercury species (Hg(II)i, Hg(0)(aq), MeHg) and relevant geochemical constituents in pore waters of eight Alaskan wetlands that differ in troph
Authors
Brett Poulin, Joseph N. Ryan, Michael Tate, David Krabbenhoft, Mark E Hines, Tamar Barkay, Jeffra Schaefer, George R. Aiken
Basin, climatic, and irrigation factors associated with median summer water yields for streams in Southwestern Michigan, 1945-2015
Median summer water yields and resultant flows for streams are used in Michigan to regulate large water withdrawals to help prevent negative effects on characteristic fish populations. Large water withdrawals commonly are associated with irrigation in rural areas. In an earlier statewide report, an index-flow statistic for the period of record, defined as the median flow during the summer month of
Authors
David J. Holtschlag
Arsenic concentrations after drinking water well installation: Time-varying effects on arsenic mobilization
Chronic exposure to geogenic arsenic via drinking water is a worldwide health concern. However, effects of well installation and operation on arsenic concentrations and mobilization are not well understood. This knowledge gap impacts both reliable detection of arsenic in drinking water and effective public health recommendations to reduce exposure to arsenic. This study examines changes in arsenic
Authors
Melinda L. Erickson, Helen F. Malenda, Emily C. Berquist, Joseph D. Ayotte