This documentation file was generated on 2019-03-14 by Catalina Segura ------------------- # GENERAL INFORMATION ------------------- 1. Title of Dataset: Nays2D Modelling results for three reaches in the Oregon Coast Range before and after the addition of Large Wood. 2. Creator Information Name: Catalina Segura Institution: Oregon State University College, School or Department: Forest Engineering Resources and Management Address: Peavy Hall 201, Corvallis OR 97330 Email: segurac@oregonstate.edu ORCID: https://orcid.org/0000-0002-0924-1172 Role: Creator Name: Russell Bair Institution: Oregon State University College, School or Department: Forest Engineering Resources and Management Address: Peavy Hall 201, Corvallis OR 97330 Email: russelltbair@gmail.com ORCID: Role: Creator 3. Contact Information Name: Catalina Segura Institution: Oregon State University College, School or Department: Forest Engineering Resources and Management Address: Peavy Hall 201, Corvallis OR 97330 Email: segurac@oregonstate.edu ORCID: https://orcid.org/0000-0002-0924-1172 ------------------- CONTEXTUAL INFORMATION ------------------- 1. Abstract for the dataset This data set includes the calibrated predictions of Depth, Elevation, Water Surface Elevation, Shear Stress, Vorticity, and Froude Number for three reaches in the Mill Creek watershed, a tributary of the Siletz River, Oregon. The predictions are for bankfull flow before and after the addition of Large Wood using Nays2DH, an unsteady two-dimensional flow model. The study sites are located in low gradient reaches draining 5 to 16 km2 and the model was calibrated based on observations of water surface elevation and velocity for several flow levels. See details at: Bair et al. Quantifying Restoration Success of Wood Introductions to Increase Coho Salmon Winter Habitat, in review. Bair, R. (2016). Modeling Large Wood Impacts on Stream Hydrodynamics and Juvenile Salmon Habitat. (MS Masters), Oregon State University, Corvallis. Retrieved from http://hdl.handle.net/1957/59398 2. Context of the research project that this dataset was collected for. See details at: Bair, R. T., Segura, C., & Lorion, C. M. (2019). Quantifying the restoration success of wood introductions to increase coho salmon winter habitat. Earth Surface Dynamics, 7(3), 841-857. https://doi.org/10.5194/esurf-7-841-2019 [Note: updated on 2020-06-29] Bair, R. (2016). Modeling Large Wood Impacts on Stream Hydrodynamics and Juvenile Salmon Habitat. (MS Masters), Oregon State University, Corvallis. Retrieved from http://hdl.handle.net/1957/59398 3. Date of data collection: 2015-07-15-2016-03-31 4. Geographic location of data collection: Latitude Longitude Site 1 44.76878172 -123.7700143 Site 2 44.75282112 -123.7647568 Site 3 44.76195257 -123.7457689 5. Funding sources that supported the collection of the data: Wildlife Habitat in Managed Forests Research Program Oregon Watershed Enhancement Board (OWEB) Spirit Mountain Community Fund -------------------------- SHARING/ACCESS INFORMATION -------------------------- 1. Licenses/restrictions placed on the data: CC-BY license 2. Links to publications related to the dataset: Bair et al. Quantifying Restoration Success of Wood Introductions to Increase Coho Salmon Winter Habitat, in review Earth Surface Dynamics, in review Bair, R. (2016). Modeling Large Wood Impacts on Stream Hydrodynamics and Juvenile Salmon Habitat. (MS Masters), Oregon State University, Corvallis. Retrieved from http://hdl.handle.net/1957/59398 3. Recommended citation for the data: Segura, C., & Bair, R. (2019). Nays2D Modelling results for three reaches in the Oregon Coast Range before and after the addition of Large Wood (Version 1) [Data set]. Oregon State University. https://doi.org/10.7267/br86b895f 4. Dataset Digital Object Identifier (DOI) 10.7267/br86b895f -------------------------- VERSIONING AND PROVENANCE -------------------------- Last modification date 2016-05-02 -------------------------- METHODOLOGICAL INFORMATION -------------------------- Description of methods used for collection/generation and processing the data, Environmental/experimental conditions, quality-assurance procedures performed: See details at: Bair et al. Quantifying Restoration Success of Wood Introductions to Increase Coho Salmon Winter Habitat, in review Earth Surface Dynamics, in review -------------------- DATA & FILE OVERVIEW --------------------- 1. File List A. Filename: README.TXT Short description: Includes a summary of the content of all the files in the database. This information includes the file name, number of nodes in the flow model domain, the site, the drainage area of the site, the coordinates of the sites’ location and under observations where or not a file in related to a model run with or without wood. For example, t5he file S1_nolog1.csv has information for Site 1, with no wood. B. Filename: S1_log1.csv Short description: Modelling predictions of Depth, Elevation, Water Surface Elevation, Shear Stress, Vorticity, and Froude Number for Site 1 with wood C. Filename: S1_nolog1.csv Short description: Short description: Modelling predictions of Depth, Elevation, Water Surface Elevation, Shear Stress, Vorticity, and Froude Number for Site 1 with no wood D. Filename: S2_log1.csv Short description: Modelling predictions of Depth, Elevation, Water Surface Elevation, Shear Stress, Vorticity, and Froude Number for Site 2 with wood E. Filename: S2_nolog1.csv Short description: Modelling predictions of Depth, Elevation, Water Surface Elevation, Shear Stress, Vorticity, and Froude Number for Site 2 with no wood F. Filename: S3_log1.csv Short description: Short description: Modelling predictions of Depth, Elevation, Water Surface Elevation, Shear Stress, Vorticity, and Froude Number for Site 3 with wood G. Filename: S3_nolog1.csv Short description: Modelling predictions of Depth, Elevation, Water Surface Elevation, Shear Stress, Vorticity, and Froude Number for Site 3 with no wood 2. Formats The formats include .txt (readme file) and csv. Data ----------------------------------------- TABULAR DATA-SPECIFIC INFORMATION FOR: [FILENAME] ----------------------------------------- For all the files with the flow predictions: 1. Number of variables: 12 2. Number of cases/rows: See readme file for information on each file. Note that the coordinates are arbitrary and independent for each site. A. Name: X Description: X-coordinate in meters B. Name: Y Description: Y-coordinate in meters C. Name: Depth(m) Description: water depth in meters D. Name: Elevation(m) Description: channel bed elevation in meters E. Name: WaterSurfaceElevation(m) Description: water surface elevation in meters F. Name: ShearStress(Nm-2) Description: Shear Stress in Pascals G. Name: Vorticity(s-1) Description: Vorticity in rotations per second H. Name: FroudeNumber Description: Froude number I. Name: CrossSectionalAveWaterLevel(m) Description: Cross Sectional average Water Level in meters J. Name: Velocity(ms-1)X Description: Average Velocity in the X direction in meters per second K. Name: Velocity(ms-1)Y Description: Average Velocity in the Y direction in meters per second L. Name: Velocity(ms-1) (magnitude) Description: Average Velocity in meters per second