Jeannette H Oden
Jeannette is a Hydrologist - Science Integrity and Publication Specialist with the USGS Colorado Water Science Center (COWSC), in Lakewood, CO.
Previously, she was the Groundwater Studies Unit Chief with the COWSC, the Studies and Research Section Chief and a hydrologist in the Gulf Coast Program Office, USGS Texas Water Science Center, and a hydrologist and hydrologic technician with the USGS New Jersey Water Science Center. Jeannette primarily worked on projects investigating the groundwater quality of local aquifers. Jeannette started with the USGS in 1994 as a contract employee.
Professional Experience
Science Integrity and Publication Specialist, USGS-Colorado Water Science Center, Lakewood, CO, 2018-present
Supervisory Hydrologist, USGS-Colorado Water Science Center, Lakewood, CO, 2014-17
Supervisory Hydrologist, USGS-Texas Water Science Center, Houston, TX, Fall 2008-13
Hydrologist, USGS-Texas Water Science Center, Houston, TX, 2002-08
Hydrologist, USGS-New Jersey Water Science Center, West Trenton, NJ, 1999-2002
Hydrologic Technician, USGS-New Jersey Water Science Center, West Trenton, NJ, 1996-99
Science and Products
Filter Total Items: 15
U.S. Geological Survey Rocky Mountain Region 2022 science exchange, showcasing interdisciplinary and state-of-the-art USGS science
IntroductionThe Rocky Mountains and the Colorado River Basin in the Western United States represent complex, interconnected systems that sustain a number of species, including tens of millions of humans. These systems face several challenges, including worsening drought, altered wildfire regimes, climate change, and the spread of invasive species. These factors can exacerbate one another, further
Authors
Dana E. Peterson, Katherine L. French, Jeannette H. Oden, Patrick J. Anderson, Timothy N. Titus, Katharine G. Dahm, Jessica M. Driscoll, William J. Andrews
By
Natural Hazards Mission Area, Water Resources Mission Area, Ecosystems Mission Area, Energy Resources Program, Mineral Resources Program, Astrogeology Science Center, Central Energy Resources Science Center, Colorado Water Science Center, Fort Collins Science Center, Geosciences and Environmental Change Science Center, Geology, Geophysics, and Geochemistry Science Center
U.S. Geological Survey Colorado Water Science Center postcard
The U.S. Geological Survey Colorado Water Science Center provides timely, high-quality science information on Colorado’s water resources to help planners, managers, and others to make the decisions necessary for the use of these limited and shared resources throughout the State.
Authors
Jeannette H. Oden
USGS Colorado Water Science Center bookmark
The U.S. Geological Survey Colorado Water Science Center conducts water resource activities in Colorado in cooperation with different entities throughout the State. These activities include extensive data-collection efforts and interpretive studies to address many different issues of concern to Colorado water resource planners, managers, and others. Results are documented in report products and as
Authors
Jeannette H. Oden
Water-budget analysis of the Upper Big Sandy Designated Ground-water Basin alluvial aquifer, Elbert, El Paso, and Lincoln Counties, Colorado, 2016
The U.S. Geological Survey in cooperation with the Colorado Water Conservation Board and the Upper Big Sandy Groundwater Management District carried out a study in 2016 to evaluate potential groundwater storage changes within the Upper Big Sandy Designated Groundwater Basin (UBSDGB) alluvial aquifer, including groundwater flow between the UBSDGB alluvial aquifer and the Denver Basin bedrock aquife
Authors
Michael S. Kohn, Jeannette H. Oden, L. R. Arnold
Arsenic and radionuclide occurrence and relation to geochemistry in groundwater of the Gulf Coast Aquifer System in Houston, Texas, 2007–11
The U.S. Geological Survey (USGS), in cooperation with the City of Houston, began a study in 2007 to determine concentrations, spatial extent, and associated geochemical conditions that might be conducive for mobility and transport of selected naturally occurring trace elements and radionuclides in the Gulf Coast aquifer system in Houston, Texas. Water samples were collected from 91 municipal supp
Authors
Jeannette H. Oden, Zoltan Szabo
Groundwater quality of the Gulf Coast aquifer system, Houston, Texas, 2010
During March–December 2010, the U.S. Geological Survey, in cooperation with the city of Houston, collected source-water samples from 60 municipal supply wells in the Houston area. These data were collected as part of an ongoing study to determine concentrations, spatial extent, and associated geochemical conditions that might be conducive for mobility and transport of selected naturally occurring
Authors
Jeannette H. Oden, Dexter W. Brown, Timothy D. Oden
Groundwater quality of the Gulf Coast aquifer system, Houston, Texas, 2007-08
In the summers of 2007 and 2008, the U.S. Geological Survey (USGS), in cooperation with the City of Houston, Texas, completed an initial reconnaissance-level survey of naturally occurring contaminants (arsenic, other selected trace elements, and radionuclides) in water from municipal supply wells in the Houston area. The purpose of this reconnaissance-level survey was to characterize source-water
Authors
Jeannette H. Oden, Timothy D. Oden, Zoltan Szabo
Streamflow and water-quality properties in the West Fork San Jacinto River Basin and regression models to estimate real-time suspended-sediment and total suspended-solids concentrations and loads in the West Fork San Jacinto River in the vicinity of Conro
To better understand the hydrology (streamflow and water quality) of the West Fork San Jacinto River Basin downstream from Lake Conroe near Conroe, Texas, including spatial and temporal variation in suspended-sediment (SS) and total suspended-solids (TSS) concentrations and loads, the U.S. Geological Survey, in cooperation with the Houston-Galveston Area Council and the Texas Commission on Environ
Authors
Lee J. Bodkin, Jeannette H. Oden
Water-quality assessment of Lake Houston near Houston, Texas, 2000-2004
Lake Houston is a major source of public water supply and recreational resource for the Houston metropolitan area, Texas. Water-quality issues of potential concern for the lake have included nutrient enrichment (orthophosphorus, total phosphorus, nitrite plus nitrate) and aquatic life use (dissolved oxygen). The , in cooperation with the City of Houston, collected water samples from three sites in
Authors
Debra A. Sneck-Fahrer, Matthew S. Milburn, Jeffery W. East, Jeannette H. Oden
Radiochemical sampling and analysis of shallow ground water and sediment at the BOMARC Missile Facility, east-central New Jersey, 1999-2000
A field sampling experiment was designed using low-flow purging with a portable pump and sample-collection equipment for the collection of water and sediment samples from observation wells screened in the Kirkwood-Cohansey aquifer system to determine radionuclide or trace-element concentrations for various size fractions. Selected chemical and physical characteristics were determined for water sam
Authors
Zoltan Szabo, Otto S. Zapecza, Jeannette H. Oden, Donald E. Rice
Variation in aluminum, iron, and particle concentrations in oxic ground-water samples collected by use of tangential-flow ultrafiltration with low-flow sampling
Particulates that move with ground water and those that are artificially mobilized during well purging could be incorporated into water samples during collection and could cause trace-element concentrations to vary in unfiltered samples, and possibly in filtered samples (typically 0.45-um (micron) pore size) as well, depending on the particle-size fractions present. Therefore, measured concentrati
Authors
Zoltan Szabo, J.H. Oden, J. Gibs, D.E. Rice, Y. Ding
Water resources data, New Jersey, water year 1998. Volume 3. Water-quality data
No abstract available.
Authors
M.J. DeLuca, J.H. Oden, K.M. Romanok, M.L. Riskin
Science and Products
- Publications
Filter Total Items: 15
U.S. Geological Survey Rocky Mountain Region 2022 science exchange, showcasing interdisciplinary and state-of-the-art USGS science
IntroductionThe Rocky Mountains and the Colorado River Basin in the Western United States represent complex, interconnected systems that sustain a number of species, including tens of millions of humans. These systems face several challenges, including worsening drought, altered wildfire regimes, climate change, and the spread of invasive species. These factors can exacerbate one another, furtherAuthorsDana E. Peterson, Katherine L. French, Jeannette H. Oden, Patrick J. Anderson, Timothy N. Titus, Katharine G. Dahm, Jessica M. Driscoll, William J. AndrewsByNatural Hazards Mission Area, Water Resources Mission Area, Ecosystems Mission Area, Energy Resources Program, Mineral Resources Program, Astrogeology Science Center, Central Energy Resources Science Center, Colorado Water Science Center, Fort Collins Science Center, Geosciences and Environmental Change Science Center, Geology, Geophysics, and Geochemistry Science CenterU.S. Geological Survey Colorado Water Science Center postcard
The U.S. Geological Survey Colorado Water Science Center provides timely, high-quality science information on Colorado’s water resources to help planners, managers, and others to make the decisions necessary for the use of these limited and shared resources throughout the State.AuthorsJeannette H. OdenUSGS Colorado Water Science Center bookmark
The U.S. Geological Survey Colorado Water Science Center conducts water resource activities in Colorado in cooperation with different entities throughout the State. These activities include extensive data-collection efforts and interpretive studies to address many different issues of concern to Colorado water resource planners, managers, and others. Results are documented in report products and asAuthorsJeannette H. OdenWater-budget analysis of the Upper Big Sandy Designated Ground-water Basin alluvial aquifer, Elbert, El Paso, and Lincoln Counties, Colorado, 2016
The U.S. Geological Survey in cooperation with the Colorado Water Conservation Board and the Upper Big Sandy Groundwater Management District carried out a study in 2016 to evaluate potential groundwater storage changes within the Upper Big Sandy Designated Groundwater Basin (UBSDGB) alluvial aquifer, including groundwater flow between the UBSDGB alluvial aquifer and the Denver Basin bedrock aquifeAuthorsMichael S. Kohn, Jeannette H. Oden, L. R. ArnoldArsenic and radionuclide occurrence and relation to geochemistry in groundwater of the Gulf Coast Aquifer System in Houston, Texas, 2007–11
The U.S. Geological Survey (USGS), in cooperation with the City of Houston, began a study in 2007 to determine concentrations, spatial extent, and associated geochemical conditions that might be conducive for mobility and transport of selected naturally occurring trace elements and radionuclides in the Gulf Coast aquifer system in Houston, Texas. Water samples were collected from 91 municipal suppAuthorsJeannette H. Oden, Zoltan SzaboGroundwater quality of the Gulf Coast aquifer system, Houston, Texas, 2010
During March–December 2010, the U.S. Geological Survey, in cooperation with the city of Houston, collected source-water samples from 60 municipal supply wells in the Houston area. These data were collected as part of an ongoing study to determine concentrations, spatial extent, and associated geochemical conditions that might be conducive for mobility and transport of selected naturally occurringAuthorsJeannette H. Oden, Dexter W. Brown, Timothy D. OdenGroundwater quality of the Gulf Coast aquifer system, Houston, Texas, 2007-08
In the summers of 2007 and 2008, the U.S. Geological Survey (USGS), in cooperation with the City of Houston, Texas, completed an initial reconnaissance-level survey of naturally occurring contaminants (arsenic, other selected trace elements, and radionuclides) in water from municipal supply wells in the Houston area. The purpose of this reconnaissance-level survey was to characterize source-waterAuthorsJeannette H. Oden, Timothy D. Oden, Zoltan SzaboStreamflow and water-quality properties in the West Fork San Jacinto River Basin and regression models to estimate real-time suspended-sediment and total suspended-solids concentrations and loads in the West Fork San Jacinto River in the vicinity of Conro
To better understand the hydrology (streamflow and water quality) of the West Fork San Jacinto River Basin downstream from Lake Conroe near Conroe, Texas, including spatial and temporal variation in suspended-sediment (SS) and total suspended-solids (TSS) concentrations and loads, the U.S. Geological Survey, in cooperation with the Houston-Galveston Area Council and the Texas Commission on EnvironAuthorsLee J. Bodkin, Jeannette H. OdenWater-quality assessment of Lake Houston near Houston, Texas, 2000-2004
Lake Houston is a major source of public water supply and recreational resource for the Houston metropolitan area, Texas. Water-quality issues of potential concern for the lake have included nutrient enrichment (orthophosphorus, total phosphorus, nitrite plus nitrate) and aquatic life use (dissolved oxygen). The , in cooperation with the City of Houston, collected water samples from three sites inAuthorsDebra A. Sneck-Fahrer, Matthew S. Milburn, Jeffery W. East, Jeannette H. OdenRadiochemical sampling and analysis of shallow ground water and sediment at the BOMARC Missile Facility, east-central New Jersey, 1999-2000
A field sampling experiment was designed using low-flow purging with a portable pump and sample-collection equipment for the collection of water and sediment samples from observation wells screened in the Kirkwood-Cohansey aquifer system to determine radionuclide or trace-element concentrations for various size fractions. Selected chemical and physical characteristics were determined for water samAuthorsZoltan Szabo, Otto S. Zapecza, Jeannette H. Oden, Donald E. RiceVariation in aluminum, iron, and particle concentrations in oxic ground-water samples collected by use of tangential-flow ultrafiltration with low-flow sampling
Particulates that move with ground water and those that are artificially mobilized during well purging could be incorporated into water samples during collection and could cause trace-element concentrations to vary in unfiltered samples, and possibly in filtered samples (typically 0.45-um (micron) pore size) as well, depending on the particle-size fractions present. Therefore, measured concentratiAuthorsZoltan Szabo, J.H. Oden, J. Gibs, D.E. Rice, Y. DingWater resources data, New Jersey, water year 1998. Volume 3. Water-quality data
No abstract available.AuthorsM.J. DeLuca, J.H. Oden, K.M. Romanok, M.L. Riskin