Chuck Russell
Research Scientist Emeritus Scholar, Hydrogeology
Phone
702-862-5486
Campus
Las Vegas Campus
Full Resume / CV
Division
Hydrologic Sciences
Professional Interests
Mr. Russell’s research interests are centered on hydrogeologic studies that combine hydrologic and geochemical parameters to solve hydrologic problems, on both a local and regional scale. Other areas of focus are the development of improved methods for the field-based determination of hydrologic parameters, the development of improved methods for monitoring and remediation techniques.
Education
| Degree | Year | Institution | Area |
|---|---|---|---|
| M.S. | 1987 | University of Nevada Las Vegas | Geosciences |
| B.S. | 1984 | Eastern Washington University |
Geology |
Keywords
hydrogeology, isotope chemistry, tritium
Publications
2024
, , , , & (2024). Nevada National Security Site Environmental Report 2023 – Chapter 7: Community-Based Offsite Monitoring, September 2, 2024, DOE/NV/03624–2026
2023
, , , & (2023). Groundwater residence time within the Nevada Environmental Response Trust (NERT) site, Henderson, Nevada. , 41294, 1-148
, , , , & (2023). Remote Sensing of Evapotranspiration at the Nevada Environmental Response Trust Site and Nearby Properties. Division of Hydrologic Sciences, Desert Research Institute, 41296
, , , , , & (2023). 2022 Nevada National Security Site Environmental Report – Chapter 7: Community-Based Offsite Monitoring. U.S. DOE, DOE/NV/03624–1788
2022
, , , , & (2022). 2021 Nevada National Security Site Environmental Report – Chapter 7: Community-Based Offsite Monitoring. U.S. DOE, DOE/NV/03624–1486
2021
, , , , & (2021). Compilation and Evaluation of Data from Groundwater Impounded within the U12n and U12t Tunnels, Rainier and Aqueduct Mesas, Nevada National Security Site. DRI: Las Vegas. https://doi.org/10.2172/1836541
, , , , & (2021). 2020 Nevada National Security Site Environmental Report – Chapter 7: Community-Based Offsite Monitoring. U.S. DOE, DOE/NV/03624–1210
2020
, , , , & (2020). 2019 Nevada National Security Site Environmental Report – Chapter 7: Community-Based Offsite Monitoring. U.S. DOE, DOE/NV/03624–0899
2019
, , , , , , , , , , & (2019). Thermoanaerosceptrum fracticalcis gen. nov. sp. nov., a novel fumarate-fermenting microorganism from a deep fractured carbonate aquifer of the US Great Basin. Frontiers in Microbiology, 10, p. 2224. https://doi.org/10.3389/fmicb.2019.02224
, , , & (2019). 2018 Nevada National Security Site Environmental Report – Chapter 7: Community-Based Offsite Monitoring, DOE/NV/03624–0612
2018
, , , , , & (2018). Chapter 7. Community Based Offsite Monitoring in Nevada National Security Site Environmental Report 2018, 7-1 to 7-14. U.S. Department of Energy, DOE/NV/03624–0270
(2018). Rainier Mesa/Shoshone Mountain Flow and Transport Model Report Nevada National Security Site, Nevada: Appendix C.4.0 Environmental Radionuclide Data and Observations, C-15 to C-74. U.S. Dept. of Energy, DOE/NV–1588
2017
, , , , , & (2017). Chapter 7. Community Based Offsite Monitoring in Nevada National Security Site Environmental Report 2016, 7-1 to 7-14. U.S. Dept. of Energy, DOE/NV/25946–3334
2016
, , , , & (2016). Chapter 7: Community Environmental Monitoring Program in Nevada National Security Site Environmental Report 2015, DOE/NV/29546–2950. U.S. Dept. of Energy
2015
, , , , & (2015). Chapter 7: Community Environmental Monitoring Program in Nevada National Security Site Environmental Report 2014, DOE/NV/25946–2566. U.S. Department of Energy
2014
, , , , & (2014). Development and Calibration of Dual-Permeability Flow Models with Discontinuous Fault Networks. Vadose Zone Journal, 13(8), 1-23. https://doi.org/10.2136/vzj2013.10.0183
, , , & (2014). 2013 Annual Report: Timber Mountain Precipitation Monitoring Station, DOE/NV/0000939-LTR2014-16
2013
, , , & (2013). A direct numerical simulation of matrix diffusion across the fracture/matrix interface. Water Sciences and Engineering, 6(4), 365-379
2010
, , , , , & (2010). Sensitivity of Solute Advective Travel Time to Porosities of Hydrogeologic Units. Ground Water, 48. https://doi.org/10.1111/j.1745-6584.2009.00664.x
2009
, , , , , & (2009). Uncertainty and Sensitivity of Contaminant Travel Times from the Upgradient Nevada Test Site to the Yucca Mountain Area
, , & (2009). The Case for an Integrated Chloride Mass-Balance Approach for Estimating Recharge. Journal of Hydrology
2007
, , & (2007). Development of a GIS-based model for extrapolating mesoscale groundwater recharge estimates using integrated geospatial data sets. Hydrogeology Journal
, , & (2007). Estimation of groundwater recharge to selected hydrographic basins of eastern Nevada and western Utah using the chloride mass-balance method
, , & (2007). Estimation of groundwater recharge in Steptoe Valley, Nevada, by the elevation-dependent chloride mass-balance approach
, , & (2007). Hydraulic Conductivity with Depth for Underground Test Area (UGTA) Wells
2006
& (2006). Process Considerations for Trolling Borehole Flow Logs. Ground Water Monitiring & Remediation, 26, 3, 60-67
1995
, , , , , , , , & (1995). Application of Geographic Information System Technology to Water Well Siting in Ghana, West Africa: A Feasibility Study, DRI Report No. 41145
1989
(1989). Annotated Bibliography of the Physical Data of Rainier Mesa and Yucca Mountain, DRI Report No. 41113
Conference Proceedings
2019
, , , , , , & (2019). Integrated Use of Data and Numerical Models for Site Conceptual Model Development In Complex Hydrogeologic Systems. 2019 NGWA Conference on Fractured Rock and Groundwater: Burlington, VT, September 23, 2019-September 24, 2019
2017
, , , & (2017). ER-20-12: A Case Study of Corrective Action Investigation in a Challenging Environment. Waste Managment Symposia: Phoenix, AZ, March 6, 2017-March 9, 2017, 17236
, , , & (2017). Peer Review Lessons Learned – DOE and Regulator perspectives. Waste Management Symposia 2017: Pheonix, AZ, March 6, 2017-March 9, 2017, 17140
2016
, , & (2016). Evaluation of Sampling Technologies for Small-Diameter Wells and Piezometers at the Nevada National Security Site. UGTA TIE Workshop: Las Vegas, NV, October 13, 2016
2015
(2015). Evolution of the Community Environmental Monitoring Program (CEMP). 2015 Waste Management Synposia: Phoenix, AZ, March 18, 2015
2014
, , , , , , & (2014). Radionuclide Containment Properties of Fractured and Faulted Volcanic Tuff Units at the T-Tunnel Complex, Rainier Mesa, Nevada National Security Site. Waste Management 2014
, , , , & (2014). Capturing anomalous dynamics of conservative and reactive contaminant transport in fractured media from centimeter scales to kilometer scales. DOE UGTA TIE Workshop, July 16, 2014
, , & (2014). Evaluation of Groundwater Purging and Sampling in Small-Diameter Wells and Piezometers at the Nevada National Security Site. DOE UGTA TIE Workshop, July 16, 2014
, , , , , , & (2014). Western Pahute Mesa Discrete Fracture Network Modeling and Upscaling. DOE UGTA TIE Workshop, July 16, 2014
2013
, , & (2013). Use of a Regional Model to Support Site-Scale Groundwater Flow Modeling at Pahute Mesa, Nevada. Devil’s Hole Workshop: Furnace Creek, Death Valley, California, May 1, 2013-May 3, 2013
2012
, , , , , , , , , & (2012). Radiochemically-supported microbial communities: a potential mechanism for biocolloid production of importance to actinide transport. DOE Subsurface Biogeochemical Research (SBR) Annual PI Meeting: Washington, DC
2010
, , , , , , , , & (2010). Characterization of microbial communities in subsurface nuclear blast cavities of the Nevada Test Site. DOE-Environmental Remediation Sciences Program (ERSP) 4th Annual PI Meeting: Lansdowne, VA, April 2010.
2009
, , , , , , & (2009). Microbial communities of underground nuclear blast cavities. 109th General Meeting of the American Society for Microbiology: Philadelphia, PA, May 2009, Poster No. N-124.
, , , , , , , , & (2009). Characterization of microbial communities in subsurface nuclear blast cavities of the Nevada Test Site. DOE-Environmental Remediation Sciences Program (ERSP) 4th Annual PI Meeting: Lansdowne, VA, April 2009.
2008
, , , , , & (2008). Uncertainty and Sensitivity of Contaminant Travel Times from Nevada the Test Site to Yucca Mountain. 2008 Devils Hole Workshop: Death Valley, CA
, , , , , & (2008). Contaminant Travel Times from the Nevada Test Site to Yucca Mountain: Sensitivity to Porosity. AGU 2008 Fall Meeting: San Francisco, California, U.S.A.
2007
, , , , , & (2007). Characterization of preferential pathways at the T-Tunnel Complex, Rainier Mesa, Nevada. American Geophysical Union Fall Meeting: San Francisco
2006
, , , , , , & (2006). Evaluation of Groundwater Pathways and Travel Times From the Nevada Test Site to the Potential Yucca Mountain Repository: San Francisco, CA
, , , , , , & (2006). Evaluation of Groundwater Pathways and Travel Times from the Nevada Test Site to the Potential Yucca Mountain Repository: San Francisco, California
2005
, , , , , , , & (2005). Establishing baseline environmental conditions for the proposed Yucca mountain repository, Nevada, U.S.A.: Glasgow, Scotland
, , , & (2005). Field deployment of a novel approach for the acquisition of deep groundwater samples at the Nevada Test Site: Tucson, Arizona
, , , & (2005). Field deployment of a novel approach for the acquisition of deep groundwater samples at Sandia National Laboratory, The Nevada Test Site, and Nye County Nevada: Tucson, AZ
2004
& (2004). Field development of novel approach in acquiring deep groundwater samples at Sandia National Laboratories; Nevada Test Site; and Nye County, Nevada. **** missing ****