Nicholas T. Corson-Dosch 20250305 model archive Reston, VA, USA U.S. Geological Survey https://doi.org/10.5066/P9VNVVT5 https://www.sciencebase.gov/catalog/item/630689f9d34e3b967a8bd92d Nicholas T Corson-Dosch Wonsook S Ha James D Blount Megan J Haserodt Jason J. Smith Fitzpatrick, F.A. 2023 tabular digital data Corson-Dosch, N.T., Blount, J.D., Ha, W.S., Haserodt, M.J., Smith, J.J., and Fitzpatrick, F.A., 2023, Temperature, soil property, and floodplain infiltration data from a restored reach of Underwood Creek, WI, 2018-2021, U.S. Geological Survey data release, https://doi.org/10.5066/P9VNVVT5 https://doi.org/10.5066/P9VNVVT5 This model archive contains input and output files for the 1DTempProV2 computer program (Koch and others, 2015), which was used to simulate infiltration in a restored reach of Underwood Creek, Wisconsin, during select flood events in 2018-2021. Information about select flood events as well as floodplain soil thermal property field data are also included in this archive. This model archive contains all the files needed to document and run 1DTempProV2 simulations. The directories in the archive are each presented as a separate .zip file and include an a "bin" directory, a "model” directory, and a "source" directory. Additionally, there is a “ancillary” directory included in the archive that contains supporting information including details about measurement sites, flood events, and soil thermal property field data. There are README files included in the archive that describe the directories and the files contained within those directories. The README files also archive and information on how to run the model. Each primary directory also contains a README file which describes the contents of that directory. Specific discharge rates were simulated with 1DTempProV2 software using temperature profile and vertical hydraulic gradient data in a restored reach of Underwood Creek in Wauwatosa, WI during 2018-2021. This work was completed as a part of a U.S. Geological Survey study to evaluate the effectiveness of the restoration project for reducing peak flows though infiltration of floodwater into the restored floodplain. 20180626 20210913 ground condition Complete None planned A restored reach of Underwood Creek, Wauwatosa, WI -88.0470000 -88.0461861 43.0530500 43.0498000 ISO 19115 Topic Category inlandWaters environment USGS Thesaurus percolation groundwater and surface-water interaction hydrology None 1DTempPro 1DTempProV2 VS2DH sediment temperature modeling sediment vertical temperature profiles Marine Realms Information Bank (MRIB) keywords floodplain ecosystem restoration USGS Metadata Identifier USGS:630689f9d34e3b967a8bd92d None Underwood Creek Common geographic areas Wauwatosa Wisconsin None. Please see 'Distribution Info' for details. None. Users are advised to read the dataset's metadata thoroughly to understand appropriate use and data limitations. Nicholas T Corson-Dosch U.S. Geological Survey Hydrologist mailing address

One Gifford Pinchot Drive

Madison WI 53726 US 608-828-9901 ncorson-dosch@usgs.gov MS Windows Nicholas T. Corson-Dosch Faith A. Fitzpatrick Paul F. Juckem James D. Blount Wonsook S. Ha 2023 publication https://doi.org/XX.XXXX/XXXXXXXX Parameter estimation was performed within 1DTempPro to calibrate model output by adjusting K to fit measured temperature data. Data values fall within expected ranges and have been checked for duplication and omission. Data are expected to represent the specific discharge (infiltration) dynamics during floods at locations where measurements were performed and may not represent dynamics in all parts of the restored floodplain. 1DTempPro input data processing - flood events were established using stage data from the Underwood Creek stream gaging station (https://waterdata.usgs.gov/usa/nwis/uv?04087088). Elevation surveys conducted at the site as a part of this study determined that flood stage in the restored reach was 12.1 feet at the gage. Flood events were defined as periods of record at the gage that were equal to or greater than 12.1 ft. These periods were then analyzed in 1DTempProV2 to evaluate flood event related infiltration. Flood events analyzed in 1DTempPro are summarized in ancillary/1dtp_flood_info.csv (Note: not all events were analyzed at all sites owing to data availability). 20210301 1DTempPro input data processing - Using the flooding periods established in Step 1, temperature data was extracted from the temperature time series (see related data release "Floodplain soil temperature profile data from a restored reach of Underwood Creek, Wisconsin, 2018-2021") during flood events, buffered 12 hours before the event began and 12 hours after the event ended. The data was then formatted for input into 1DTempProV2 (see bin/TUTORIAL.txt for further information about data formatting). 20220601 1DTempPro input data processing - head difference data was calculated for input into 1DTempProV2. This was done using 1) Stream elevation data recorded at the Underwood Creek gage station and adjusted to the elevation of the stream adjacent to the temperature rod/piezometer using the stream slope and downstream distance from the gage that was determined from elevation surveys of the floodplain conducted as a part of this study, 2) Groundwater elevation data recorded in a piezometer adjacent to the temperature profiling rod, 3) the known depth to the center of the piezometer screen below land surface and, 4) The known length between the upper-most and lower-most sensors used in the 1DTempPro simulation. A time series of hydraulic gradient data was calculated by dividing the difference between the corrected stream elevation and the groundwater elevation by the vertical distance to the center of the piezometer screen below land surface. Then, a time series of head difference data (between the upper and lower temperature sensors) was calculated by multiplying gradient data by the length between the upper-most and lower-most temperature sensors used in the 1DTempPro simulation - typically 0.3m. The data was then formatted for input into 1DTempProV2 (see bin/TUTORIAL.txt for further information about data formatting). 20220601 1DTempPro input data processing - soil thermal property data were measured in the field at the temperature profiling rods. Average values of these data (calculated in ancillary/soil_summary_stats_processing.ipynb and summarized in soil_thermal_props_for_1dtp.csv) were calculated and input into the "Physical Properties" section of the 1DTempProV2 software for analysis. See bin/TUTORIAL.txt for further information about 1DTempPro required input data. 20220601 0.000001 0.000001 Decimal degrees North American Datum 1983 (NAD83) Geodetic Reference System 80 (GRS80) 6378137.0 298.257 North American Vertical Datum of 1988 0.01 feet Explicit elevation coordinate included with horizontal coordinates Land survey datum 0.01 feet Explicit depth coordinate included with horizontal coordinates GS ScienceBase U.S. Geological Survey mailing address

Denver Federal Center, Building 810, Mail Stop 302

Denver CO 80225 United States 1-888-275-8747 sciencebase@usgs.gov Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. readme.txt 1.0 created August 1, 2022 Text Document (.txt) This text document describes the model data release. This file includes descriptions of the model input and output files and instructions on how to run the models contained in this data release, as well as ancillary information about the model. 0.011 https://www.sciencebase.gov/catalog/file/get/630689f9d34e3b967a8bd92d?name=readme.txt None ancillary.zip 1.0 created August 1, 2022 Compressed (zipped) Folder (.zip) This zipped directory contains tables of supplemental information about the sites, flood events, and floodplain soil thermal property field data. 0.026 https://www.sciencebase.gov/catalog/file/get/630689f9d34e3b967a8bd92d?name=ancillary.zip None bin.zip 1.0 created August 1, 2022 Compressed (zipped) Folder (.zip) This zipped directory contains the 1DTempProV2 installer and executable, a VS2DH model executable, as well as 1DTempProV2 instructions and a tutorial. 0.846 https://www.sciencebase.gov/catalog/file/get/630689f9d34e3b967a8bd92d?name=bin.zip None model.zip 1.0 created August 1, 2022 Compressed (zipped) Folder (.zip) This zipped directory contains all the files needed to run the 1DTempProV2 program. Input data, output data, and 1DTempProV2 archived workspace files are included for select flood events at six sites during 2018-2021. 64.854 https://www.sciencebase.gov/catalog/file/get/630689f9d34e3b967a8bd92d?name=model.zip None source.zip 1.0 created August 1, 2022 Compressed (zipped) Folder (.zip) This zipped directory contains code for the 1DTempProV2 software used in the simulations described in this archive and in in the associated Report. 0.465 https://www.sciencebase.gov/catalog/file/get/630689f9d34e3b967a8bd92d?name=source.zip None 20250305 Nicholas T Corson-Dosch U.S. Geological Survey Hydrologist mailing address

One Gifford Pinchot Drive

Madison WI 53726 US 608-828-9901 ncorson-dosch@usgs.gov FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata FGDC-STD-001.1-1999