Austin K Baldwin
Austin Baldwin is a Research Hydrologist with the USGS Idaho Water Science Center in Boise, Idaho.
Austin's research focuses on field-based studies of contaminants in surface water and sediment, including organic compounds, mercury and other metals, and microplastics. His work specifically focuses on (1) investigations into the sources, transport, and fate of contaminants, (2) processes driving contaminant partitioning among environmental compartments and transformation to more bioavailable forms, and (3) potential adverse effects of contaminants on ecosystem health. Through each of these research themes, he aims to inform management decisions to improve ecosystem health.
RESEARCH INTERESTS
Organic contaminants in aquatic environments; mercury in aquatic environments; aquatic toxicity; microplastic sources, transport, fate, and biological uptake; polycyclic aromatic hydrocarbon source identification.
Professional Experience
Research Hydrologist, USGS Idaho Water Science Center, Boise, ID, October 2021 – Present
Hydrologist, USGS Idaho Water Science Center, Boise, ID, May 2016 – October 2021
Hydrologist, USGS Wisconsin Water Science Center, Middleton, WI, January 2007 – May 2016
Education and Certifications
M.S. Structural Geology, 2005, University of Texas at Austin
B.S. Geological Sciences, 2001, University of Texas at Austin
Affiliations and Memberships*
American Water Resources Association (AWRA)
Society of Environmental Toxicology and Chemistry (SETAC)
Science and Products
Microplastics in Lake Mead National Recreation Area, USA: Occurrence and biological uptake
Vertical distribution of microplastics in the water column and surficial sediment from the Milwaukee River basin to Lake Michigan
Prioritizing chemicals of ecological concern in Great Lakes tributaries using high-throughput screening data and adverse outcome pathways
Arsenic, antimony, mercury, and water temperature in streams near Stibnite mining area, central Idaho, 2011–17
It is raining plastic
Human-associated indicator bacteria and human-specific viruses in surface water: a spatial assessment with implications on fate and transport
Patterns of host-associated fecal indicators driven by hydrology, precipitation, and land use attributes in Great Lakes watersheds
Year-round presence of neonicotinoid insecticides in tributaries to the Great Lakes, USA
Response to comment on “Primary sources and toxicity of PAHs in Milwaukee-area streambed sediments”—The authors' reply
Microplastics are everywhere!
Hydrologic, land cover, and seasonal patterns of waterborne pathogens in Great Lakes tributaries
Primary sources and toxicity of PAHs in Milwaukee-area streambed sediment
Science and Products
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Filter Total Items: 31
Microplastics in Lake Mead National Recreation Area, USA: Occurrence and biological uptake
Microplastics are an environmental contaminant of growing concern, but there is a lack of information about microplastic distribution, persistence, availability, and biological uptake in freshwater systems. This is especially true for large river systems like the Colorado River that spans multiple states through mostly rural and agricultural land use. This study characterized the quantity and morpAuthorsAustin K. Baldwin, Andrew Spanjer, Michael R. Rosen, Theresa ThomVertical distribution of microplastics in the water column and surficial sediment from the Milwaukee River basin to Lake Michigan
Microplastic contamination was studied along a freshwater continuum from inland streams to the Milwaukee River estuary to Lake Michigan, and vertically from the water surface, water subsurface and sediment. Microplastics were detected in all 96 water samples and nine sediment samples collected. Results indicated a gradient of polymer presence with depth: low-density particles decreased from waterAuthorsPeter L. Lenaker, Austin K. Baldwin, Steven R. Corsi, Sherri A. Mason, Paul Reneau, John W ScottPrioritizing chemicals of ecological concern in Great Lakes tributaries using high-throughput screening data and adverse outcome pathways
Chemical monitoring data were collected in surface waters from 57 Great Lakes tributaries from 2010-13 to identify chemicals of potential biological relevance and sites at which these chemicals occur. Traditional water-quality benchmarks for aquatic life based on in vivo toxicity data were available for 34 of 67 evaluated chemicals. To expand evaluation of potential biological effects, measured chAuthorsSteven R. Corsi, Laura A. DeCicco, Daniel L. Villeneuve, Brett Blackwell, Kellie Fay, Gerald Ankley, Austin K. BaldwinArsenic, antimony, mercury, and water temperature in streams near Stibnite mining area, central Idaho, 2011–17
Mineralization and historical mining of stibnite (antimony sulfide), tungsten, gold, silver, and mercury in the headwaters of the East Fork of the South Fork Salmon River (EFSFSR) near the former town of Stibnite in central Idaho resulted in water-quality impairments related to mercury, antimony, and arsenic. Additionally, mining-related disturbances and wildfires have resulted in a lack of ripariAuthorsAustin K. Baldwin, Alexandra B. EtheridgeIt is raining plastic
Atmospheric deposition samples were collected using the National Atmospheric Deposition Program / National Trends Network (NADP/NTN) at 6 sites in the Denver-Boulder urban corridor and 2 adjacent sites in the Colorado Front Range. Weekly wet-only atmospheric deposition samples collected at these sites during winter-summer of 2017 were filtered (0.45 micrometers, polyethersulfone) to obtain particAuthorsGregory A. Wetherbee, Austin K. Baldwin, James F. RanvilleHuman-associated indicator bacteria and human-specific viruses in surface water: a spatial assessment with implications on fate and transport
Hydrologic, seasonal, and spatial variability of sewage contamination was studied at six locations within a watershed upstream from water reclamation facility (WRF) effluent to define relative loadings of sewage from different portions of the watershed. Fecal pollution from human sources was spatially quantified by measuring two human-associated indicator bacteria (HIB) and eight human-specific viAuthorsPeter L. Lenaker, Steven R. Corsi, Sandra L. McLellan, Mark A. Borchardt, Hayley T. Olds, Deborah K. Dila, Susan K. Spencer, Austin K. BaldwinPatterns of host-associated fecal indicators driven by hydrology, precipitation, and land use attributes in Great Lakes watersheds
Fecal contamination from sewage and agricultural runoff is a pervasive problem in Great Lakes watersheds. Most work examining fecal pollution loads relies on discrete samples of fecal indicators and modeling land use. In this study, we made empirical measurements of human and ruminant-associated fecal indicator bacteria and combined these with hydrological measurements in eight watersheds rangingAuthorsDeborah K. Dila, Steven R. Corsi, Peter L. Lenaker, Austin K. Baldwin, Melinda J. Bootsma, Sandra L. McLellanYear-round presence of neonicotinoid insecticides in tributaries to the Great Lakes, USA
To better characterize the transport of neonicotinoid insecticides to the world's largest freshwater ecosystem, monthly samples (October 2015–September 2016) were collected from 10 major tributaries to the Great Lakes, USA. For the monthly tributary samples, neonicotinoids were detected in every month sampled and five of the six target neonicotinoids were detected. At least one neonicotinoid was dAuthorsMichelle L. Hladik, Steven R. Corsi, Dana W. Kolpin, Austin K. Baldwin, Brett R. Blackwell, Jenna E. CavallinResponse to comment on “Primary sources and toxicity of PAHs in Milwaukee-area streambed sediments”—The authors' reply
No abstract available.AuthorsAustin K. Baldwin, Steven R. Corsi, Michelle A. Lutz, Christopher G. Ingersoll, Rebecca A. Dorman, Christopher Magruder, Matthew MagruderMicroplastics are everywhere!
No abstract available.AuthorsAustin K. Baldwin, Kerensa King, Richard Damstra, Byron Karns, Lark Weller, Sherri A. Mason, Timothy Hoellein, Lisa H. KimHydrologic, land cover, and seasonal patterns of waterborne pathogens in Great Lakes tributaries
Great Lakes tributaries are known to deliver waterborne pathogens from a host of sources. To examine the hydrologic, land cover, and seasonal patterns of waterborne pathogens (i.e. protozoa (2), pathogenic bacteria (4) human viruses, (8) and bovine viruses (8)) eight rivers were monitored in the Great Lakes Basin over 29 months from February 2011 to June 2013. Sampling locations represented a wideAuthorsPeter L. Lenaker, Steven R. Corsi, Mark A. Borchardt, Susan K. Spencer, Austin K. Baldwin, Michelle A. LutzPrimary sources and toxicity of PAHs in Milwaukee-area streambed sediment
High concentrations of polycyclic aromatic hydrocarbons (PAHs) in streams can be a significant stressor to aquatic organisms. To understand the likely sources and toxicity of PAHs in Milwaukee-area streams, streambed sediment samples from 40 sites and parking lot dust samples from 6 sites were analyzed for 38 parent PAHs and 25 alkylated PAHs. Diagnostic ratios, profile correlations, principal comAuthorsAustin K. Baldwin, Steven R. Corsi, Michelle A. Lutz, Christopher G. Ingersoll, Rebecca A. Dorman, Christopher Magruder, Matthew Magruder - News
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government