Browsing by Author "Barry, John D"
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Item 2017 York Blind Valley Dye Trace Fillmore County, MN(2018-10) Larsen, Martin R; Green, Jeffrey A; Barry, John D; Kasahara, Sophie M; Wheeler, Betty J; Alexander Jr., E CalvinItem Bear Spring, Olmsted County, Minnesota; April 2018 Dye Trace and 2016-2018 Spring Monitoring Report(2019-01-29) Barry, John D; Larsen, Martin R; Tipping, Robert G; Alexander, Scott C; Alexander Jr, E CalvinItem Crystal Creek Dye Trace Report Fillmore County, Minnesota(2017-05) Kuehner, Kevin J; Green, Jeffrey A; Barry, John D; Rutelonis, J. Wes; Wheeler, Betty J; Kasahara, Sophie M; Luhmann, Andrew J; Alexander Jr., E. CalvinItem Crystal Creek Fillmore County, Minnesota 2018 Dye Trace and Spring Monitoring Report. Traces: March 14 2018, March 17 2018(2019-01-14) Barry, John D; Kuehner, Kevin J; Green, Jeffrey A; Fischer, Caleb; Mathison, Aaren; Ribikawskis, Matthew; Alexander Jr, E CalvinItem Dye Trace Report on Campbell Valley Creek Houston and Winona Counties, Minnesota 2012-2013(2016-12-13) Barry, John D; Green, Jeffrey A; Ustipak, Kelsi R; Wheeler, Betty J; Alexander Jr., E. CalvinThe karst lands of southeast Minnesota contain more than one hundred trout streams that receive perennial discharge from Paleozoic bedrock springs. Several of the Paleozoic bedrock units that provide discharge are karst aquifers. Field investigations into the flow characteristics of these formations have been conducted using fluorescent dyes to map groundwater springsheds and characterize groundwater flow velocities for use in water resource protection. Campbell Valley Creek is one of these designated trout streams. The creek is located roughly 64 kilometers (40 mi.) southeast of Rochester, Minnesota in southern Winona and northern Houston counties (Figure 1). Two dye traces were conducted to add to delineated springsheds of the region as part of the Environmental and Natural Resources Trust Fund (ENRTF) Springshed Mapping project.Item Electronic Access to Minnesota Springs, Karst Features and Groundwater Tracing Information(2018-04) Green, Jeffrey A; Tipping, Robert G; Barry, John D; Brick, Gregory A; Wheeler, Betty J; Rutelonis, J Wes; Richardson, Bart C; Alexander Jr., E CalvinItem Fountain Spring Cave Dye Trace Fillmore County, MN 2016 Dye Trace Report(2018-10) Larsen, Martin R; Barry, John D; Kasahara, Sophie M; Wheeler, Betty J; Alexander Jr., E CalvinItem Harmony West Fillmore County, Minnesota 2018 Dye Trace Report(2018-09) Barry, John D; Green, Jeffrey A; Fischer, Caleb; Mathison, Aaren; Weiss, Jeffrey; Alexander Jr., E CalvinItem International Trace Olmsted County, Minnesota 2016 Dye Trace Report(2018-10) Barry, John D; Larsen, Martin R; Green, Jeffrey A; Rutelonis, J Wes; Alexander Jr., E CalvinItem The Minnesota Dye Trace Database(http://www.mgwa.org/mgwa-conferences/mgwa-2017-spring-conference/, 2017-04) Wheeler, Betty J; Rutelonis, J. Wes; Barry, John D; Green, Jeffrey A; Alexander Jr., E. CalvinIn the karst regions of Minnesota, groundwater tracing using fluorescent dyes has proven to be an effective method for understanding groundwater flow, travel times and interconnections with surface water (streams, creeks, etc). Dye tracing in Southeast (SE) Minnesota has a long history. The first documented traces were performed by S.P. Kingston, a public safety engineer at the Minnesota Department of Health, in the late 1930s. Kingston used fluorescent dye to discover the source of an outbreak of typhoid fever in Fillmore and Olmsted Counties and published his work in the Journal of the American Water Works Association. Additionally, Ron Spong conducted over 30 traces beginning in the 1970s across several counties in SE Minnesota. Most of the dye tracing in Minnesota since that time has been a collaborative effort between the University of Minnesota and the Minnesota Department of Natural Resources but stakeholders such as towns and cities, soil and water conservation districts, the local caving community and generations of students have often been involved as well. Dye tracing involves using fluorescent dyes to determine groundwater flow direction and velocity by pouring dye into a sinkhole or sinking stream and observing where it emerges (usually at a spring or multiple springs) after flowing through the karst conduit system. Positive sampling results allow scientists to infer approximate groundwater flowpaths, calculate minimum velocities, and begin to delineate springsheds. In general, springsheds are composed of Groundwater Springsheds (GwS), Surface Water Springsheds (SWS) and Regional Groundwater Springsheds (RGS) and understanding their combined extent is important for the protection of trout stream resources and other ecosystems in Minnesota karst areas and elsewhere. Additionally, water protection and management associated with spill response, agriculture, water demands and landscape alteration require effective means for delineating springsheds. Many dye traces and the resulting springshed delineations have been accomplished in SE Minnesota, but the results and reporting have had varying degrees of accessibility. The goal of the current project is to produce a web accessible database containing as many groundwater dye tracing results as possible. This effort involves mining trace reports, data tables, and field notes and organizing their contents using GIS. The DNR Dye Trace Reports webpage currently has a list of links to historic and recent dye trace reports that are catalogued and made publicly available on the University of Minnesota Digital Conservancy. Geospatial data (dye input points, inferred groundwater flowpaths and springshed delineations) are re-evaluated in some cases, quality checked, and then digitized. Eventually this data will be made available via the DNR webpage in the form of an accessible ArcGIS Online map interface where users can query, select and view the data and associated reports with the click of a button. This database is intended to be used in conjunction with the Minnesota Karst Features Database (Gao, Yongli. (2002) “Karst Feature Distribution in Southeastern Minnesota: Extending GIS-Based Database for Spatial Analysis and Resource Management.”. PhD Thesis, Univ. of Minn., Geology & Geophysics Dept., 210 p.) and will likely be incorporated into an enterprise system of spatially related databases built upon the Karst Feature Database and the Minnesota Spring Inventory. The Minnesota Dye Trace Database is an important element to manage and protect groundwater in Minnesota. Revitalizing dye tracing data, making the documentation available, and creating a user friendly interface will add context to the knowledge and expansive inventory of karst in Minnesota and will hopefully allow this significant dataset to live in perpetuity for generations of scientists and policy makers to come.Item Ordovician Karst of Southeast Minnesota Field Trip Guidebook(2015-10-06) Alexander Jr., E. Calvin; Green, Jeffrey A; Runkel, Anthony C; Barry, John DItem Orion Sinkhole Plain - Devil’s Den Spring Complex; Olmsted County, Minnesota; 2018 Dye Trace Report(2020-01) Barry, John D; Green, Jeffrey A; Larsen, Martin R; Alexander Jr., E CalvinItem Ostrander Dye Trace Report Fillmore County Minnesota Traces: 17 May 1993(2018-01) Rutelonis, J. Wes; Alexander, Scott C; Green, Jeffrey A; Barry, John D; Alexander Jr., E. CalvinItem REPORT on the 2012-2013 Traces Conducted on Bridge Creek Houston County, Mn(2014) Barry, John D; Green, Jeffrey AItem Report on the 2013 Dye Trace Conducted on Girl Scout Camp Creek Houston County, MN(2014) Barry, John D; Green, Jeffrey AItem Springdale Dye Trace Report Olmsted County, Minnesota 2017 Dye Trace Report(2018-10) Barry, John D; Overbo, Alycia K; Green, Jeffrey A; Larsen, Martin R; Alexander, Scott C; Alexander Jr., E CalvinItem Subterranean Conduit Flow in the Spring Valley Caverns Region(2003-12-05) Barry, John D