Image of a Met Station at Valle de Oro National Wildlife Refuge, New Mexico, USGS - New Mexico Water Science Center (NMWSC)
Rebecca Travis
Starting in mid-2023, Rebecca “Becky” Travis became the Water Quality Specialist for the USGS Colorado Water Science Center (WSC) in Lakewood, Colorado.
Becky started her USGS career in 2012 at the Ohio-Kentucky-Indiana WSC as a physical scientist working on projects ranging from air quality monitoring at a combined disposal facility in East Chicago, Indiana, to groundwater-level monitoring for a network of wells in Carmel, Indiana. In 2016, she began work as a hydrologist at the New Mexico WSC where she has focused her efforts on studying anthropogenic contamination and studies in the designated Urban Waters area of Albuquerque, NM. These studies have involved innovative passive sampling of groundwater and surface water, sampling of per- and polyfluoroalkyl substances, and analysis of geochemical and age dating tracers for groundwater. Prior to working for the USGS, she spent 11 years working on source water protection and remediation projects for Indiana Department of Environmental Management. She has a M.S. in Geological Sciences from Indiana University - Bloomington.
Professional Experience
2023-present: Water Quality Specialist, USGS, Colorado Water Science Center, Lakewood, Colorado
2016-2023: Hydrologist, USGS, New Mexico Water Science Center, Albuquerque, New Mexico
2012-2016: Physical Scientist, USGS, Ohio-Kentucky-Indiana Water Science Center, Indianapolis, Indiana
2001-2012: Environmental Manager, Indiana Department of Environmental Management, Indianapolis, Indiana
Education and Certifications
M.S. Geological Sciences, Indiana University Bloomington, 2001
B.S. Geological Sciences, Indiana University Bloomington, 1998
Science and Products
Assessing influence from wastewater treatment facilities on Glorieta Creek and the Pecos River within Pecos National Historical Park, New Mexico, February–October 2022
Temporal variability and sources of PFAS in the Rio Grande, New Mexico through an arid urban area using multiple tracers and high-frequency sampling
Assessment of per- and polyfluoroalkyl substances in water resources of New Mexico, 2020–21
Assessing Escherichia coli and microbial source tracking markers in the Rio Grande in the South Valley, Albuquerque, New Mexico, 2020–21
A comparison of water-quality and stormwater inflow and outflow during habitat restoration at the McEwen storm drainage pond, South Valley, Albuquerque, New Mexico, 2020–22
Hydrogeology and groundwater quality in the San Agustin Basin, New Mexico, 1975–2019
Utilizing multiple hydrogeologic and anthropogenic indicators to understand zones of groundwater contribution to water-supply wells near Kirtland Air Force Base Bulk Fuels Facility in southeast Albuquerque, New Mexico
Comparison of passive and pumped sampling methods for analysis of groundwater quality, Kirtland Air Force Base, Albuquerque, New Mexico, 2019
Hydraulic and water-quality indicators of aquifer zones contributing groundwater flow to wells in the Santa Fe Group aquifer system near southeast Albuquerque, New Mexico, 2013–16
Geochemistry and microbiology of groundwater and solids from extraction and monitoring wells and their relation to well efficiency at a Federally operated confined disposal facility, East Chicago, Indiana
Microbial Source Tracking and Escherichia coli Monitoring in the Rio Grande in the South Valley, Albuquerque, New Mexico
Ecohydrologic and Water Quality Data Collection at Valle de Oro National Wildlife Refuge and the Albuquerque South Valley Community Commons
Urban Waters Federal Partnership—Middle Rio Grande (Albuquerque, N. Mex.)
National Water-Quality Assessment Program (NAWQA) Rio Grande Valley Study
Image of a Met Station at Valle de Oro National Wildlife Refuge, New Mexico, USGS - New Mexico Water Science Center (NMWSC)
This is a photograph of passive sampling, USGS - New Mexico Water Science Center
This is a photograph of passive sampling, USGS - New Mexico Water Science Center
Science and Products
- Publications
Assessing influence from wastewater treatment facilities on Glorieta Creek and the Pecos River within Pecos National Historical Park, New Mexico, February–October 2022
The Pecos National Historical Park protects 2.9 miles of the Pecos River and part of Glorieta Creek within the park boundaries. Updated water-quality data can assist resource managers in determining if effluent from two nearby wastewater treatment plants (WWTPs) is affecting the quality of the water in the Pecos River and Glorieta Creek within the park. Water samples were collected four times in 2AuthorsK. Wilkins, K.R. Beisner, R.E. TravisTemporal variability and sources of PFAS in the Rio Grande, New Mexico through an arid urban area using multiple tracers and high-frequency sampling
Per- and polyfluoroalkyl substances (PFAS) are ubiquitous in the environment but sources are not well defined for temporal and spatial aspects within an urban environment, and especially for an arid urban environment subject to seasonal short term high-intensity precipitation events. A focused diel sampling was conducted in the summer of 2021 to assess the temporal and spatial variability of PFASAuthorsKimberly R. Beisner, Rebecca E. Travis, David Alvarez, Larry Barber, Jacob Fleck, Jeramy JasmannAssessment of per- and polyfluoroalkyl substances in water resources of New Mexico, 2020–21
Per- and polyfluoroalkyl substances (PFAS) have been detected in public and private drinking-water wells, springs, and surface waters in New Mexico; however, the presence and distribution of PFAS in water resources across the State are not well characterized. From August 2020 to October 2021, the U.S. Geological Survey, in cooperation with the New Mexico Environment Department, collected water-quaAuthorsRebecca E. Travis, Kimberly R. Beisner, Kate Wilkins, Jeramy Roland Jasmann, Steffanie H. Keefe, Larry B. BarberAssessing Escherichia coli and microbial source tracking markers in the Rio Grande in the South Valley, Albuquerque, New Mexico, 2020–21
The Rio Grande, in southern Albuquerque, New Mexico, is a Clean Water Act Section 303(d) Category 5 impaired reach for Escherichia coli (E. coli). The reach is 5 miles in length, extending from Tijeras Arroyo south to the Isleta Pueblo boundary. An evaluation of E. coli and microbial source tracking markers (human-, canine-, and waterfowl-specific sources) was conducted by the U.S. Geological SurvAuthorsRebecca E. Travis, Kate Wilkins, Christopher M. KephartA comparison of water-quality and stormwater inflow and outflow during habitat restoration at the McEwen storm drainage pond, South Valley, Albuquerque, New Mexico, 2020–22
In 2020, the U.S. Geological Survey began targeted monitoring, in partnership with Bernalillo County, at three locations within the McEwen storm drainage pond to evaluate and compare the water quality of stormwater as it enters and exits the study area, which is channelized and routes urban stormwater runoff through a wetland area. Stage in McEwen pond and precipitation at a nearby precipitation gAuthorsR.E. Travis, C.A. Van Zante, N.Y. Montero, K.E. MiltenbergerHydrogeology and groundwater quality in the San Agustin Basin, New Mexico, 1975–2019
This report describes the findings of a U.S. Geological Survey study, completed in cooperation with the Bureau of Land Management, focused on better understanding the present-day (1975–2019) hydrogeology and groundwater quality of the San Agustin Basin in west-central New Mexico to support sustainable groundwater resource management. The basin hosts a relatively undeveloped basin-fill and alluviumAuthorsJeff D. Pepin, Rebecca E. Travis, Johanna M. Blake, Alex Rinehart, Daniel KoningUtilizing multiple hydrogeologic and anthropogenic indicators to understand zones of groundwater contribution to water-supply wells near Kirtland Air Force Base Bulk Fuels Facility in southeast Albuquerque, New Mexico
In 1999, a jet-fuels release was discovered at the Bulk Fuels Facility on Kirtland Air Force Base, Albuquerque, New Mexico. Contaminants had reached the water table and migrated north-northeast toward water-supply wells. Monitoring wells were installed downgradient from the facility to determine the primary zones of groundwater production for water-supply wells and assess contaminant presence. TheAuthorsRebecca E. Travis, Meghan T. Bell, Benjamin S. Linhoff, Kimberly R. BeisnerComparison of passive and pumped sampling methods for analysis of groundwater quality, Kirtland Air Force Base, Albuquerque, New Mexico, 2019
A plume of ethylene dibromide (EDB) dissolved in groundwater extends northeast from the Bulk Fuels Facility on Kirtland Air Force Base, New Mexico. The leading edge of the EDB plume is upgradient from several water-supply wells. In 2013, the U.S. Geological Survey (USGS), in cooperation with the Albuquerque Bernalillo County Water Utility Authority and the U.S. Air Force, installed four sentinel wAuthorsRebecca E. Travis, Kate WilkinsHydraulic and water-quality indicators of aquifer zones contributing groundwater flow to wells in the Santa Fe Group aquifer system near southeast Albuquerque, New Mexico, 2013–16
An ethylene dibromide (EDB) plume extends approximately 5,880 feet northeast from the Bulk Fuels Facility on Kirtland Air Force Base. The leading edge of the EDB plume is about 3,700 feet upgradient from several water-supply wells. The water-supply wells are screened in the upper Santa Fe Group aquifer system. Within the upper Santa Fe Group, two primary clay-rich layers, the A1 and A2 units, sepaAuthorsR.E. Travis, Nathan C. MyersGeochemistry and microbiology of groundwater and solids from extraction and monitoring wells and their relation to well efficiency at a Federally operated confined disposal facility, East Chicago, Indiana
In cooperation with the U.S. Army Corps of Engineers, Chicago District, the U.S. Geological Survey investigated the processes affecting water quality, geochemistry, and microbiology in representative extraction and monitoring wells at a confined disposal facility (CDF) in East Chicago, Indiana. The CDF is a 140-acre Federally-managed facility that was the former location of an oil refinery and isAuthorsRandall E. Bayless, Travis R. Cole, David C. Lampe, R.E. Travis, Marjorie S. Schulz, Paul M. Buszka - Science
Microbial Source Tracking and Escherichia coli Monitoring in the Rio Grande in the South Valley, Albuquerque, New Mexico
The Rio Grande, in southern Albuquerque, is an impaired reach for bacteria. Escherichia coli (E. coli) bacteria are elevated in this reach of the Rio Grande even without stormwater present, during what is referred to as “dry season”. Samples will be collected over a range of flows including during the dry season (November 1st-June30th). Water samples will be analyzed for E. coli and microbial...Ecohydrologic and Water Quality Data Collection at Valle de Oro National Wildlife Refuge and the Albuquerque South Valley Community Commons
The United States Geological Survey (USGS) New Mexico Water Science Center (NM WSC), in cooperation with the U.S. Fish and Wildlife Service (USFWS), U.S. Environmental Protection Agency (USEPA), U.S. Army Corps of Engineers (USACE), U.S. Bureau of Reclamation (Reclamation), Albuquerque Metropolitan Arroyo Flood Control Authority (AMAFCA), and Bernalillo County (BERNCO), will measure and analyze...Urban Waters Federal Partnership—Middle Rio Grande (Albuquerque, N. Mex.)
The Valle de Oro National Wildlife Refuge, just 7 miles south of downtown Albuquerque on the Rio Grande, will reconnect people, especially young people, with nature in this highly populated area. The USGS is gathering data that will help gauge the success of habitat restoration efforts.National Water-Quality Assessment Program (NAWQA) Rio Grande Valley Study
The New Mexico Water Science Center (NMWSC) has historically conducted NAWQA data collection of groundwater and surface water-data within the former Rio Grande Valley (RIOG) study unit, which covers about 45,700 square miles in Colorado, New Mexico, and Texas. - Multimedia
Met Station at Valle de Oro National Wildlife RefugeMet Station at Valle de Oro National Wildlife Refuge
Image of a Met Station at Valle de Oro National Wildlife Refuge, New Mexico, USGS - New Mexico Water Science Center (NMWSC)
Image of a Met Station at Valle de Oro National Wildlife Refuge, New Mexico, USGS - New Mexico Water Science Center (NMWSC)
Passive Sampling, USGS NMWSCThis is a photograph of passive sampling, USGS - New Mexico Water Science Center
This is a photograph of passive sampling, USGS - New Mexico Water Science Center