Stream Temperature and Water Presence Models of Willow/Whitehorse and Willow/Rock Watersheds, Oregon and Nevada
July 10, 2020
This data release contains spatial stream network (SSN) objects and R scripts to run SSN models to predict mean monthly stream temperature between May and August and water presence on May 15, June 15, July 15, and August 15 in the Willow/Whitehorse watershed during 2015, 2016, and 2017 and the Willow/Rock watershed during 2016 and 2017. Functions referenced within the script may accessed in the SSN package version 1.1.13. (Ver Hoef et al., 2014). All functions and packages were compiled under R version 3.5.3 (R Development Core Team, 2014). The R script can be executed from any R console (R version 3.5.3) or from the RStudio GUI (version 1.1.463; https://www.rstudio.com/). R scripts to fit water temperature and flow presence SSN models are contained within the file "WW_WR_SSN_Model_R_Scripts.zip". SSN objects referenced by these scripts are contained within the file "WW_WR_SSN_Objects.zip". R Development Core Team, 2014, R: A language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing. Ver Hoef, J. M., Peterson, E. E., Clifford, D., & Shah, R.,2014, SSN: An R package for spatial statistical modeling on stream networks. Journal of Statistical Software, 56(3), 1-45. https://doi.org/10.18637/jss.v056.i03
Citation Information
Publication Year | 2020 |
---|---|
Title | Stream Temperature and Water Presence Models of Willow/Whitehorse and Willow/Rock Watersheds, Oregon and Nevada |
DOI | 10.5066/P9ZPBQVH |
Authors | Andrew S Gendaszek, David P. Hockman-Wert, Jason Dunham, Christian Torgersen |
Product Type | Data Release |
Record Source | USGS Asset Identifier Service (AIS) |
USGS Organization | Washington Water Science Center |
Rights | This work is marked with CC0 1.0 Universal |
Related
Land-cover and climatic controls on water temperature, flow permanence, and fragmentation of Great Basin stream networks
The seasonal and inter-annual variability of flow presence and water temperature within headwater streams of the Great Basin of the western United States limit the occurrence and distribution of coldwater fish and other aquatic species. To evaluate changes in flow presence and water temperature during seasonal dry periods, we developed spatial stream network (SSN) models from remotely...
Authors
Andrew S. Gendaszek, Jason B. Dunham, Christian E. Torgersen, David Hockman-Wert, Michael Heck, Justin Martin Thorson, Jeffrey Michael Mintz, Todd Allai
Jason B Dunham
Supervisory Research Ecologist
Supervisory Research Ecologist
Email
Phone
Christian E Torgersen
Supervisory Research Landscape Ecologist
Supervisory Research Landscape Ecologist
Email
Phone
Jason B Dunham
Supervisory Research Ecologist
Supervisory Research Ecologist
Email
Phone
Christian E Torgersen
Supervisory Research Landscape Ecologist
Supervisory Research Landscape Ecologist
Email
Phone
Related
Land-cover and climatic controls on water temperature, flow permanence, and fragmentation of Great Basin stream networks
The seasonal and inter-annual variability of flow presence and water temperature within headwater streams of the Great Basin of the western United States limit the occurrence and distribution of coldwater fish and other aquatic species. To evaluate changes in flow presence and water temperature during seasonal dry periods, we developed spatial stream network (SSN) models from remotely...
Authors
Andrew S. Gendaszek, Jason B. Dunham, Christian E. Torgersen, David Hockman-Wert, Michael Heck, Justin Martin Thorson, Jeffrey Michael Mintz, Todd Allai
Jason B Dunham
Supervisory Research Ecologist
Supervisory Research Ecologist
Email
Phone
Christian E Torgersen
Supervisory Research Landscape Ecologist
Supervisory Research Landscape Ecologist
Email
Phone
Jason B Dunham
Supervisory Research Ecologist
Supervisory Research Ecologist
Email
Phone
Christian E Torgersen
Supervisory Research Landscape Ecologist
Supervisory Research Landscape Ecologist
Email
Phone