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Marie Noele Croteau, Ph.D.

Marie came to the USGS in September 2002 as a postdoctoral fellow to study the bioavailability and bioaccumulation of metals in freshwater food webs. Her work focused on understanding how metals are transferred through food webs and how trophic position in a food web influences exposure to metals.

Marie used nitrogen and carbon stable isotopes to show that cadmium, in contrast to copper, could be magnified along certain freshwater food webs. This suggests that processes that drive Cd trophic transfer are more complex than that of organo-metals, metalloids and organic contaminants.

In addition to her work on metal trophic transfer, she refined an approach that involves the use stable metal isotopes (rather than radioisotopes) to describe accumulation and loss dynamics in freshwater invertebrates. Characterization of bioaccumulation dynamics is critical to understanding risks associated with contaminant exposure in organisms. For instance, this tracing technique allowed showing that a slow rate constant of loss for Cu likely explains the elevated levels of this toxic trace metal found in molluscs in nature, and that diet is an important bioaccumulation pathway for metals for several aquatic species.

She used biodynamic modeling and the enriched stable isotope tracers in novel ways to understand the fate and effects of nanosized metals in aquatic organisms as well as to investigate how the geochemical properties of mineral particles consumed by organisms affect their bioavailability.

Education and Certifications

  • PhD. 2002. Water and Environmental Sciences, University of Quebec (INRS-ETE), Canada

  • M.Sc. 1997. Water and Environmental Sciences, University of Quebec (INRS-ETE), Canada

Science and Products

Draining mines

Life Cycle of Critical Minerals: A Balanced Approach to Meeting Our Nation's Resource Demands

Critical minerals are essential to the Nation’s economy and security. Demand for critical minerals is increasing, and it is essential to balance the societal need for these minerals with efforts to understand the effects of mining on other natural resources and to develop techniques to minimize these effects. The USGS Minerals Resources Life Cycle Integrated Science Team (IST) focuses on the life...
By
Ecosystems Mission Area, Geology, Energy, and Minerals Mission Area, Contaminant Biology, Environmental Health Program, Mineral Resources Program, Toxic Substances Hydrology, Columbia Environmental Research Center, Geology, Energy & Minerals Science Center, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center
Life Cycle of Critical Minerals: A Balanced Approach to Meeting Our Nation's Resource Demands

Life Cycle of Critical Minerals: A Balanced Approach to Meeting Our Nation's Resource Demands

Critical minerals are essential to the Nation’s economy and security. Demand for critical minerals is increasing, and it is essential to balance the societal need for these minerals with efforts to understand the effects of mining on other natural resources and to develop techniques to minimize these effects. The USGS Minerals Resources Life Cycle Integrated Science Team (IST) focuses on the life...
Learn More
Canyon Mine Sampling

Minerals Resources Life Cycle Integrated Science Team

The Minerals Resources Life Cycle Integrated Science Team focuses on contaminant exposures in the environment that might originate from mineral resource activities including, transportation, storage, extraction and waste management. Perceived health risks to humans and other organisms will be distinguished from actual risks, if any. If actual risks are identified the science produced by this team...
By
Ecosystems Mission Area, Contaminant Biology, Environmental Health Program, Toxic Substances Hydrology
Minerals Resources Life Cycle Integrated Science Team

Minerals Resources Life Cycle Integrated Science Team

The Minerals Resources Life Cycle Integrated Science Team focuses on contaminant exposures in the environment that might originate from mineral resource activities including, transportation, storage, extraction and waste management. Perceived health risks to humans and other organisms will be distinguished from actual risks, if any. If actual risks are identified the science produced by this team...
Learn More
GMEG Exhibit poster

Environmental Health-Minerals

This project provides scientific data about how contaminants, that might originate from mineral resource activities, are transported through the environment; their pathways of exposure; and where they ultimately end up. Contaminant exposures can originate from transportation, storage, extraction, and waste management mineral resource activities. This project distinguishes perceived health risks to...
By
Geology, Minerals, Energy, and Geophysics Science Center
Environmental Health-Minerals

Environmental Health-Minerals

This project provides scientific data about how contaminants, that might originate from mineral resource activities, are transported through the environment; their pathways of exposure; and where they ultimately end up. Contaminant exposures can originate from transportation, storage, extraction, and waste management mineral resource activities. This project distinguishes perceived health risks to...
Learn More
Freshwater snail (Lymnaea stagnalis) used in the laboratory exposure tests to understand metal uptake and bioavailability

Study Reveals Processes that Control Uranium Bioavailability in a Freshwater Snail—Relevance to Aquatic Biota in the Grand Canyon Area

Scientists refined an existing speciation model to identify key biogeochemical processes controlling dissolved uranium bioavailability to a freshwater snail. This information is important to advance current understanding and prediction of the ecological risk posed by uranium mining to freshwater ecosystems, including federally managed lands such as in the Grand Canyon area.
By
Ecosystems Mission Area, Contaminant Biology, Environmental Health Program, Toxic Substances Hydrology
Study Reveals Processes that Control Uranium Bioavailability in a Freshwater Snail—Relevance to Aquatic Biota in the Grand Canyon Area

Study Reveals Processes that Control Uranium Bioavailability in a Freshwater Snail—Relevance to Aquatic Biota in the Grand Canyon Area

Scientists refined an existing speciation model to identify key biogeochemical processes controlling dissolved uranium bioavailability to a freshwater snail. This information is important to advance current understanding and prediction of the ecological risk posed by uranium mining to freshwater ecosystems, including federally managed lands such as in the Grand Canyon area.
Learn More
Filter Total Items: 14

Data acquired in laboratory experiments conducted to characterize Ag bioaccumulation kinetics in Daphnia magna after exposures to polystyrene microplastics and Ag nanoparticles Data acquired in laboratory experiments conducted to characterize Ag bioaccumulation kinetics in Daphnia magna after exposures to polystyrene microplastics and Ag nanoparticles

Microplastics (MPs) are an environmental concern. They can interact with other contaminants and pose new threats to organisms. We assessed the effect MPs on silver (Ag) bioaccumulation in the filter-feeding zooplankton Daphnia magna exposed to Ag nanoparticles at environmentally relevant concentrations.
By
Geology, Minerals, Energy, and Geophysics Science Center

Water-quality, bed-sediment, and invertebrate tissue trace-element data for the Clark Fork and tributaries in the upper Clark Fork Basin, Montana, October 2021-September 2022 Water-quality, bed-sediment, and invertebrate tissue trace-element data for the Clark Fork and tributaries in the upper Clark Fork Basin, Montana, October 2021-September 2022

Water, bed sediment, and invertebrate tissue were sampled in streams from Butte to near Missoula, Montana, as part of a long-term monitoring program in the upper Clark Fork Basin. The sampling program was completed by the U.S. Geological Survey (USGS), in cooperation with the U.S. Environmental Protection Agency, to characterize aquatic resources in the upper Clark Fork Basin and monitor...
By
Wyoming-Montana Water Science Center

Acute toxicity of nine critical elements to Hyalella azteca, Lampsilis siliquoidea, Lymnaea stagnalis, Neocloeon triangulifer, and Pimephales promelas with bioaccumulation data of three elements in Lymnaea stagnalis Acute toxicity of nine critical elements to Hyalella azteca, Lampsilis siliquoidea, Lymnaea stagnalis, Neocloeon triangulifer, and Pimephales promelas with bioaccumulation data of three elements in Lymnaea stagnalis

We conducted nineteen acute toxicity assays to address knowledge gaps associated with nine critical elements: cerium (Ce), cobalt (Co), indium (In), lanthanum (La), lithium (Li), neodymium (Nd), osmium (Os), platinum (Pt), and praseodymium (Pr). Acute aquatic exposures of these elements were conducted with five organisms: an amphipod (Hyalella azteca), a mussel (Lampsilis siliquoidea), a...
By
Columbia Environmental Research Center

Data acquired in laboratory experiments conducted with a model freshwater invertebrate to characterize dietary bioavailability of uranium Data acquired in laboratory experiments conducted with a model freshwater invertebrate to characterize dietary bioavailability of uranium

Determining the environmental health effects of uranium (U) to aquatic species requires understanding its exposure pathways, which include both the aqueous and dietary uptake routes. But little is known about the drivers of U bioavailability from solid phases. In this study, we characterized U bioavailability from 8 solids using a freshwater invertebrate as a model species. Solids...
By
Geology, Minerals, Energy, and Geophysics Science Center

Water chemistry, stable isotopes, and trace metals in sediment, water and biota in Torch Lake and Gratiot Lake, Keweenaw Peninsula, Michigan, USA, July and October 2021 Water chemistry, stable isotopes, and trace metals in sediment, water and biota in Torch Lake and Gratiot Lake, Keweenaw Peninsula, Michigan, USA, July and October 2021

This data release includes sampling location data, laboratory processed surface water chemistry data (anions, cations, total nitrogen, dissolved organic carbon, deuterium, trace metals), laboratory processed pore water chemistry data (anions, cations, total nitrogen, dissolved organic carbon, trace metals), laboratory process sediment data (trace metals), and whole-body trace metal...
By
Columbia Environmental Research Center

Water-Quality, Bed-Sediment, and Invertebrate Tissue Trace-Element Concentrations for the Clark Fork River and Tributaries in the Upper Clark Fork Basin, Montana, October 2020-September 2021 Water-Quality, Bed-Sediment, and Invertebrate Tissue Trace-Element Concentrations for the Clark Fork River and Tributaries in the Upper Clark Fork Basin, Montana, October 2020-September 2021

Water, bed sediment, and invertebrate tissue were sampled in streams from Butte to near Missoula, Montana (MT), as part of a long-term monitoring program within the Upper Clark Fork Basin. The sampling program was completed by the U.S. Geological Survey, in cooperation with the U.S. Environmental Protection Agency, to characterize aquatic resources in the Upper Clark Fork Basin and...
By
Wyoming-Montana Water Science Center
Caddisfly larva in its case made of colorful particles
Caddisfly larva (Limnephilus sp.)
Caddisfly larva (Limnephilus sp.)
Caddisfly larva in its case made of colorful particles

Caddisfly larva (Limnephilus sp.)

Caddisfly larva (Limnephilus sp.)

Aquatic insects such as the caddisfly larva (Limnephilus sp.) are dominant macroinvertebrates in the spring systems in the Grand Canyon region.

By
Geology, Minerals, Energy, and Geophysics Science Center
Caddisfly larva in its case made of colorful particles

Caddisfly larva (Limnephilus sp.)

Caddisfly larva (Limnephilus sp.)

Aquatic insects such as the caddisfly larva (Limnephilus sp.) are dominant macroinvertebrates in the spring systems in the Grand Canyon region.

By
Geology, Minerals, Energy, and Geophysics Science Center
Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies
Diatom mat used during a feeding experiment to study dietary uptake
Diatom mat used during a feeding experiment to study dietary uptake
Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies

Diatom mat used during a feeding experiment to study dietary uptake

Diatom mat used during a feeding experiment to study dietary uptake

Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies

Diatom mat used during a feeding experiment to study dietary uptake

Diatom mat used during a feeding experiment to study dietary uptake

Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Study area located in the Grand Canyon, Arizona
Study area located in the Grand Canyon, Arizona
Study area located in the Grand Canyon, Arizona
Study area located in the Grand Canyon, Arizona

Study area located in the Grand Canyon, Arizona

Study area located in the Grand Canyon, Arizona

A scientist walking on a trail in Grand Canyon, National Park

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Study area located in the Grand Canyon, Arizona

Study area located in the Grand Canyon, Arizona

Study area located in the Grand Canyon, Arizona

A scientist walking on a trail in Grand Canyon, National Park

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Formation of Fe and Al hydroxide precipitates after acidic water is discharged into a circum-neutral river
Mixing zone of an acid mine drainage impacted river
Mixing zone of an acid mine drainage impacted river
Formation of Fe and Al hydroxide precipitates after acidic water is discharged into a circum-neutral river

Mixing zone of an acid mine drainage impacted river

Mixing zone of an acid mine drainage impacted river

Acidic waters from Cement Creek are discharged in the circum-neutral Animas River near Keystone, Colorado. Mixing of the waters produces colloidal-size iron and aluminum hydroxide precipitates.

By
Geology, Minerals, Energy, and Geophysics Science Center
Formation of Fe and Al hydroxide precipitates after acidic water is discharged into a circum-neutral river

Mixing zone of an acid mine drainage impacted river

Mixing zone of an acid mine drainage impacted river

Acidic waters from Cement Creek are discharged in the circum-neutral Animas River near Keystone, Colorado. Mixing of the waters produces colloidal-size iron and aluminum hydroxide precipitates.

By
Geology, Minerals, Energy, and Geophysics Science Center
Confluence of Cement Creek and the Animas River in Colorado
Confluence of Cement Creek and the Animas River in Colorado
Confluence of Cement Creek and the Animas River in Colorado
Confluence of Cement Creek and the Animas River in Colorado

Confluence of Cement Creek and the Animas River in Colorado

Confluence of Cement Creek and the Animas River in Colorado

Although the visual picture of mixing zones at stream confluences appears straightforward, such as this one at the confluence of Cement Creek and the Animas River in Colorado, the chemical reactions that occur make them extremely complex from a water-quality perspective.

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Confluence of Cement Creek and the Animas River in Colorado

Confluence of Cement Creek and the Animas River in Colorado

Confluence of Cement Creek and the Animas River in Colorado

Although the visual picture of mixing zones at stream confluences appears straightforward, such as this one at the confluence of Cement Creek and the Animas River in Colorado, the chemical reactions that occur make them extremely complex from a water-quality perspective.

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.
The mayfly is an insect scientists use to study bioaccumulation
The mayfly is an insect scientists use to study bioaccumulation
The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.

The mayfly is an insect scientists use to study bioaccumulation

The mayfly is an insect scientists use to study bioaccumulation

The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.

The mayfly is an insect scientists use to study bioaccumulation

The mayfly is an insect scientists use to study bioaccumulation

The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Filter Total Items: 47

Dietary bioavailability of uranium to a model freshwater invertebrate Dietary bioavailability of uranium to a model freshwater invertebrate

Uranium (U) mining increases environmental exposures. Understanding how U is taken up by organisms can aid in evaluating the potential for bioaccumulation and toxicity. Although the importance of aqueous geochemical speciation is well recognized for U bioavailability after dissolved exposures, far less is known about the processes controlling U bioavailability after dietary exposures...
Authors
Marie Noele Croteau, Christopher C. Fuller, Daniel J. Cain, Kate M. Campbell
By
Geology, Minerals, Energy, and Geophysics Science Center

Metal-rich lacustrine sediments from legacy mining perpetuate copper exposure to aquatic-riparian food webs Metal-rich lacustrine sediments from legacy mining perpetuate copper exposure to aquatic-riparian food webs

Historic copper mining left a legacy of metal-rich tailings resulting in ecological impacts along and within Torch Lake, an area of concern in the Keweenaw Peninsula, Michigan, USA. Given the toxicity of copper to invertebrates, this study assessed the influence of this legacy on present day nearshore aquatic and terrestrial ecosystems. We measured the metal (Co, Cu, Ni, Zn, Cd) and...
Authors
Brittany G. Perrotta, Karen A. Kidd, Kate M. Campbell, Marie Noele Croteau, Tyler Kane, Amy M. Marcarelli, R. Blaine McCleskey, Gordon Paterson, Craig A. Stricker, David Walters
By
Ecosystems Mission Area, Columbia Environmental Research Center, Fort Collins Science Center, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center

A multidisciplinary approach that considers occurrence, geochemistry, bioavailability, and toxicity to prioritize critical minerals for environmental research A multidisciplinary approach that considers occurrence, geochemistry, bioavailability, and toxicity to prioritize critical minerals for environmental research

Critical minerals (or critical elements) are minerals or elements that are essential to global security and development and have supply chains vulnerable to disruption. In general, knowledge of the environmental behavior and health effects of critical elements is needed to support the development of safe and environmentally responsible supplies. This knowledge includes identifying...
Authors
Sarah Jane White, Tyler Kane, Kate M. Campbell, Marie Noele Croteau, Michael G. Iacchetta, Johanna Blake, Charles A. Cravotta, Bethany K. Kunz, Charles N. Alpers, Jill Jenkins, Katherine Walton-Day
By
Environmental Health Program, Mineral Resources Program, California Water Science Center, Colorado Water Science Center, Columbia Environmental Research Center, Geology, Energy & Minerals Science Center, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center, Pennsylvania Water Science Center, Wetland and Aquatic Research Center

Dissolved arsenic concentrations in surface waters within the upper portions of the Klamath River Basin, Oregon and California Dissolved arsenic concentrations in surface waters within the upper portions of the Klamath River Basin, Oregon and California

Arsenic toxicity is an environmental health problem. Levels of arsenic in surface waters at some locations in the Klamath River Basin in southern Oregon and northern California can exceed the U.S. Environmental Protection Agency (EPA) standard for drinking water. There are both anthropogenic and natural sources of arsenic. The Klamath River Basin consists primarily of volcanic deposits...
Authors
Marie Noele Croteau, Brent R. Topping, Rick A. Carlson
By
Geology, Minerals, Energy, and Geophysics Science Center

Balancing natural resource use and extraction of uranium and other elements in the Grand Canyon region Balancing natural resource use and extraction of uranium and other elements in the Grand Canyon region

The Grand Canyon region is an important natural, cultural, and archeological resource known worldwide. The region contains uranium resources that could be used to generate electricity. The U.S. Geological Survey (USGS), in cooperation with the National Park Service, Bureau of Land Management, and U.S. Department of Agriculture Forest Service, is conducting studies to answer questions...
Authors
Katherine Walton-Day, Benjamin J. Siebers, Jo Ellen Hinck, Kate M. Campbell, Marie Noele Croteau
By
Water Resources Mission Area, Colorado Water Science Center, Upper Midwest Water Science Center

Aquatic insect accumulation of uranium at spring outflows in the Grand Canyon region as influenced by aqueous and sediment geochemistry and biological factors: Implications for monitoring Aquatic insect accumulation of uranium at spring outflows in the Grand Canyon region as influenced by aqueous and sediment geochemistry and biological factors: Implications for monitoring

Potential adverse ecological effects of expanded uranium (U) mining within the Grand Canyon region motivated studies to better understand U exposure and risk to endemic species. This study documents U exposures and analyzes geochemical and biological factors affecting U bioaccumulation at spring-fed systems within the Grand Canyon region. The principal objective was to determine if...
Authors
Daniel J. Cain, Marie Noele Croteau, Christopher C. Fuller, David Barasch, Kimberly R. Beisner, Kate M. Campbell, Deborah Stoliker, Edward J. Schenk
By
Geology, Minerals, Energy, and Geophysics Science Center

Non-USGS Publications**

Tangaa SR, Winther-Nielsen M, Selck H, Croteau MN. 2018. A biodynamic understanding of dietborne and waterborne Ag uptake from Ag NPs in the sediment-dwelling oligochaete, Tubifex tubifex. NanoImpact 11: 33-41.
Lead, JR; Batley, GE; Alvarez, P; Croteau, MN; Handy, R; McLaughlin, M; Judy, J; Schirmer, K. 2018. Nanomaterials in the environment: behavior, fate, bioavailability, and effects. An updated review. Environ. Toxicol. Chem. accepted

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

Science and Products

Draining mines

Life Cycle of Critical Minerals: A Balanced Approach to Meeting Our Nation's Resource Demands

Critical minerals are essential to the Nation’s economy and security. Demand for critical minerals is increasing, and it is essential to balance the societal need for these minerals with efforts to understand the effects of mining on other natural resources and to develop techniques to minimize these effects. The USGS Minerals Resources Life Cycle Integrated Science Team (IST) focuses on the life...
By
Ecosystems Mission Area, Geology, Energy, and Minerals Mission Area, Contaminant Biology, Environmental Health Program, Mineral Resources Program, Toxic Substances Hydrology, Columbia Environmental Research Center, Geology, Energy & Minerals Science Center, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center
Life Cycle of Critical Minerals: A Balanced Approach to Meeting Our Nation's Resource Demands

Life Cycle of Critical Minerals: A Balanced Approach to Meeting Our Nation's Resource Demands

Critical minerals are essential to the Nation’s economy and security. Demand for critical minerals is increasing, and it is essential to balance the societal need for these minerals with efforts to understand the effects of mining on other natural resources and to develop techniques to minimize these effects. The USGS Minerals Resources Life Cycle Integrated Science Team (IST) focuses on the life...
Learn More
Canyon Mine Sampling

Minerals Resources Life Cycle Integrated Science Team

The Minerals Resources Life Cycle Integrated Science Team focuses on contaminant exposures in the environment that might originate from mineral resource activities including, transportation, storage, extraction and waste management. Perceived health risks to humans and other organisms will be distinguished from actual risks, if any. If actual risks are identified the science produced by this team...
By
Ecosystems Mission Area, Contaminant Biology, Environmental Health Program, Toxic Substances Hydrology
Minerals Resources Life Cycle Integrated Science Team

Minerals Resources Life Cycle Integrated Science Team

The Minerals Resources Life Cycle Integrated Science Team focuses on contaminant exposures in the environment that might originate from mineral resource activities including, transportation, storage, extraction and waste management. Perceived health risks to humans and other organisms will be distinguished from actual risks, if any. If actual risks are identified the science produced by this team...
Learn More
GMEG Exhibit poster

Environmental Health-Minerals

This project provides scientific data about how contaminants, that might originate from mineral resource activities, are transported through the environment; their pathways of exposure; and where they ultimately end up. Contaminant exposures can originate from transportation, storage, extraction, and waste management mineral resource activities. This project distinguishes perceived health risks to...
By
Geology, Minerals, Energy, and Geophysics Science Center
Environmental Health-Minerals

Environmental Health-Minerals

This project provides scientific data about how contaminants, that might originate from mineral resource activities, are transported through the environment; their pathways of exposure; and where they ultimately end up. Contaminant exposures can originate from transportation, storage, extraction, and waste management mineral resource activities. This project distinguishes perceived health risks to...
Learn More
Freshwater snail (Lymnaea stagnalis) used in the laboratory exposure tests to understand metal uptake and bioavailability

Study Reveals Processes that Control Uranium Bioavailability in a Freshwater Snail—Relevance to Aquatic Biota in the Grand Canyon Area

Scientists refined an existing speciation model to identify key biogeochemical processes controlling dissolved uranium bioavailability to a freshwater snail. This information is important to advance current understanding and prediction of the ecological risk posed by uranium mining to freshwater ecosystems, including federally managed lands such as in the Grand Canyon area.
By
Ecosystems Mission Area, Contaminant Biology, Environmental Health Program, Toxic Substances Hydrology
Study Reveals Processes that Control Uranium Bioavailability in a Freshwater Snail—Relevance to Aquatic Biota in the Grand Canyon Area

Study Reveals Processes that Control Uranium Bioavailability in a Freshwater Snail—Relevance to Aquatic Biota in the Grand Canyon Area

Scientists refined an existing speciation model to identify key biogeochemical processes controlling dissolved uranium bioavailability to a freshwater snail. This information is important to advance current understanding and prediction of the ecological risk posed by uranium mining to freshwater ecosystems, including federally managed lands such as in the Grand Canyon area.
Learn More
Filter Total Items: 14

Data acquired in laboratory experiments conducted to characterize Ag bioaccumulation kinetics in Daphnia magna after exposures to polystyrene microplastics and Ag nanoparticles Data acquired in laboratory experiments conducted to characterize Ag bioaccumulation kinetics in Daphnia magna after exposures to polystyrene microplastics and Ag nanoparticles

Microplastics (MPs) are an environmental concern. They can interact with other contaminants and pose new threats to organisms. We assessed the effect MPs on silver (Ag) bioaccumulation in the filter-feeding zooplankton Daphnia magna exposed to Ag nanoparticles at environmentally relevant concentrations.
By
Geology, Minerals, Energy, and Geophysics Science Center

Water-quality, bed-sediment, and invertebrate tissue trace-element data for the Clark Fork and tributaries in the upper Clark Fork Basin, Montana, October 2021-September 2022 Water-quality, bed-sediment, and invertebrate tissue trace-element data for the Clark Fork and tributaries in the upper Clark Fork Basin, Montana, October 2021-September 2022

Water, bed sediment, and invertebrate tissue were sampled in streams from Butte to near Missoula, Montana, as part of a long-term monitoring program in the upper Clark Fork Basin. The sampling program was completed by the U.S. Geological Survey (USGS), in cooperation with the U.S. Environmental Protection Agency, to characterize aquatic resources in the upper Clark Fork Basin and monitor...
By
Wyoming-Montana Water Science Center

Acute toxicity of nine critical elements to Hyalella azteca, Lampsilis siliquoidea, Lymnaea stagnalis, Neocloeon triangulifer, and Pimephales promelas with bioaccumulation data of three elements in Lymnaea stagnalis Acute toxicity of nine critical elements to Hyalella azteca, Lampsilis siliquoidea, Lymnaea stagnalis, Neocloeon triangulifer, and Pimephales promelas with bioaccumulation data of three elements in Lymnaea stagnalis

We conducted nineteen acute toxicity assays to address knowledge gaps associated with nine critical elements: cerium (Ce), cobalt (Co), indium (In), lanthanum (La), lithium (Li), neodymium (Nd), osmium (Os), platinum (Pt), and praseodymium (Pr). Acute aquatic exposures of these elements were conducted with five organisms: an amphipod (Hyalella azteca), a mussel (Lampsilis siliquoidea), a...
By
Columbia Environmental Research Center

Data acquired in laboratory experiments conducted with a model freshwater invertebrate to characterize dietary bioavailability of uranium Data acquired in laboratory experiments conducted with a model freshwater invertebrate to characterize dietary bioavailability of uranium

Determining the environmental health effects of uranium (U) to aquatic species requires understanding its exposure pathways, which include both the aqueous and dietary uptake routes. But little is known about the drivers of U bioavailability from solid phases. In this study, we characterized U bioavailability from 8 solids using a freshwater invertebrate as a model species. Solids...
By
Geology, Minerals, Energy, and Geophysics Science Center

Water chemistry, stable isotopes, and trace metals in sediment, water and biota in Torch Lake and Gratiot Lake, Keweenaw Peninsula, Michigan, USA, July and October 2021 Water chemistry, stable isotopes, and trace metals in sediment, water and biota in Torch Lake and Gratiot Lake, Keweenaw Peninsula, Michigan, USA, July and October 2021

This data release includes sampling location data, laboratory processed surface water chemistry data (anions, cations, total nitrogen, dissolved organic carbon, deuterium, trace metals), laboratory processed pore water chemistry data (anions, cations, total nitrogen, dissolved organic carbon, trace metals), laboratory process sediment data (trace metals), and whole-body trace metal...
By
Columbia Environmental Research Center

Water-Quality, Bed-Sediment, and Invertebrate Tissue Trace-Element Concentrations for the Clark Fork River and Tributaries in the Upper Clark Fork Basin, Montana, October 2020-September 2021 Water-Quality, Bed-Sediment, and Invertebrate Tissue Trace-Element Concentrations for the Clark Fork River and Tributaries in the Upper Clark Fork Basin, Montana, October 2020-September 2021

Water, bed sediment, and invertebrate tissue were sampled in streams from Butte to near Missoula, Montana (MT), as part of a long-term monitoring program within the Upper Clark Fork Basin. The sampling program was completed by the U.S. Geological Survey, in cooperation with the U.S. Environmental Protection Agency, to characterize aquatic resources in the Upper Clark Fork Basin and...
By
Wyoming-Montana Water Science Center
Caddisfly larva in its case made of colorful particles
Caddisfly larva (Limnephilus sp.)
Caddisfly larva (Limnephilus sp.)
Caddisfly larva in its case made of colorful particles

Caddisfly larva (Limnephilus sp.)

Caddisfly larva (Limnephilus sp.)

Aquatic insects such as the caddisfly larva (Limnephilus sp.) are dominant macroinvertebrates in the spring systems in the Grand Canyon region.

By
Geology, Minerals, Energy, and Geophysics Science Center
Caddisfly larva in its case made of colorful particles

Caddisfly larva (Limnephilus sp.)

Caddisfly larva (Limnephilus sp.)

Aquatic insects such as the caddisfly larva (Limnephilus sp.) are dominant macroinvertebrates in the spring systems in the Grand Canyon region.

By
Geology, Minerals, Energy, and Geophysics Science Center
Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies
Diatom mat used during a feeding experiment to study dietary uptake
Diatom mat used during a feeding experiment to study dietary uptake
Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies

Diatom mat used during a feeding experiment to study dietary uptake

Diatom mat used during a feeding experiment to study dietary uptake

Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies

Diatom mat used during a feeding experiment to study dietary uptake

Diatom mat used during a feeding experiment to study dietary uptake

Diatom mat used during a feeding experiment to study the dietary uptake of uranium by mayflies

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Study area located in the Grand Canyon, Arizona
Study area located in the Grand Canyon, Arizona
Study area located in the Grand Canyon, Arizona
Study area located in the Grand Canyon, Arizona

Study area located in the Grand Canyon, Arizona

Study area located in the Grand Canyon, Arizona

A scientist walking on a trail in Grand Canyon, National Park

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Study area located in the Grand Canyon, Arizona

Study area located in the Grand Canyon, Arizona

Study area located in the Grand Canyon, Arizona

A scientist walking on a trail in Grand Canyon, National Park

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Formation of Fe and Al hydroxide precipitates after acidic water is discharged into a circum-neutral river
Mixing zone of an acid mine drainage impacted river
Mixing zone of an acid mine drainage impacted river
Formation of Fe and Al hydroxide precipitates after acidic water is discharged into a circum-neutral river

Mixing zone of an acid mine drainage impacted river

Mixing zone of an acid mine drainage impacted river

Acidic waters from Cement Creek are discharged in the circum-neutral Animas River near Keystone, Colorado. Mixing of the waters produces colloidal-size iron and aluminum hydroxide precipitates.

By
Geology, Minerals, Energy, and Geophysics Science Center
Formation of Fe and Al hydroxide precipitates after acidic water is discharged into a circum-neutral river

Mixing zone of an acid mine drainage impacted river

Mixing zone of an acid mine drainage impacted river

Acidic waters from Cement Creek are discharged in the circum-neutral Animas River near Keystone, Colorado. Mixing of the waters produces colloidal-size iron and aluminum hydroxide precipitates.

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Geology, Minerals, Energy, and Geophysics Science Center
Confluence of Cement Creek and the Animas River in Colorado
Confluence of Cement Creek and the Animas River in Colorado
Confluence of Cement Creek and the Animas River in Colorado
Confluence of Cement Creek and the Animas River in Colorado

Confluence of Cement Creek and the Animas River in Colorado

Confluence of Cement Creek and the Animas River in Colorado

Although the visual picture of mixing zones at stream confluences appears straightforward, such as this one at the confluence of Cement Creek and the Animas River in Colorado, the chemical reactions that occur make them extremely complex from a water-quality perspective.

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Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Confluence of Cement Creek and the Animas River in Colorado

Confluence of Cement Creek and the Animas River in Colorado

Confluence of Cement Creek and the Animas River in Colorado

Although the visual picture of mixing zones at stream confluences appears straightforward, such as this one at the confluence of Cement Creek and the Animas River in Colorado, the chemical reactions that occur make them extremely complex from a water-quality perspective.

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.
The mayfly is an insect scientists use to study bioaccumulation
The mayfly is an insect scientists use to study bioaccumulation
The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.

The mayfly is an insect scientists use to study bioaccumulation

The mayfly is an insect scientists use to study bioaccumulation

The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.

The mayfly is an insect scientists use to study bioaccumulation

The mayfly is an insect scientists use to study bioaccumulation

The mayfly (Cinygmula) is one of the insects scientists use to study the bioaccumulation of dissolved and dietary metals.

By
Toxic Substances Hydrology, Contaminant Biology, Environmental Health Program
Filter Total Items: 47

Dietary bioavailability of uranium to a model freshwater invertebrate Dietary bioavailability of uranium to a model freshwater invertebrate

Uranium (U) mining increases environmental exposures. Understanding how U is taken up by organisms can aid in evaluating the potential for bioaccumulation and toxicity. Although the importance of aqueous geochemical speciation is well recognized for U bioavailability after dissolved exposures, far less is known about the processes controlling U bioavailability after dietary exposures...
Authors
Marie Noele Croteau, Christopher C. Fuller, Daniel J. Cain, Kate M. Campbell
By
Geology, Minerals, Energy, and Geophysics Science Center

Metal-rich lacustrine sediments from legacy mining perpetuate copper exposure to aquatic-riparian food webs Metal-rich lacustrine sediments from legacy mining perpetuate copper exposure to aquatic-riparian food webs

Historic copper mining left a legacy of metal-rich tailings resulting in ecological impacts along and within Torch Lake, an area of concern in the Keweenaw Peninsula, Michigan, USA. Given the toxicity of copper to invertebrates, this study assessed the influence of this legacy on present day nearshore aquatic and terrestrial ecosystems. We measured the metal (Co, Cu, Ni, Zn, Cd) and...
Authors
Brittany G. Perrotta, Karen A. Kidd, Kate M. Campbell, Marie Noele Croteau, Tyler Kane, Amy M. Marcarelli, R. Blaine McCleskey, Gordon Paterson, Craig A. Stricker, David Walters
By
Ecosystems Mission Area, Columbia Environmental Research Center, Fort Collins Science Center, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center

A multidisciplinary approach that considers occurrence, geochemistry, bioavailability, and toxicity to prioritize critical minerals for environmental research A multidisciplinary approach that considers occurrence, geochemistry, bioavailability, and toxicity to prioritize critical minerals for environmental research

Critical minerals (or critical elements) are minerals or elements that are essential to global security and development and have supply chains vulnerable to disruption. In general, knowledge of the environmental behavior and health effects of critical elements is needed to support the development of safe and environmentally responsible supplies. This knowledge includes identifying...
Authors
Sarah Jane White, Tyler Kane, Kate M. Campbell, Marie Noele Croteau, Michael G. Iacchetta, Johanna Blake, Charles A. Cravotta, Bethany K. Kunz, Charles N. Alpers, Jill Jenkins, Katherine Walton-Day
By
Environmental Health Program, Mineral Resources Program, California Water Science Center, Colorado Water Science Center, Columbia Environmental Research Center, Geology, Energy & Minerals Science Center, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center, Pennsylvania Water Science Center, Wetland and Aquatic Research Center

Dissolved arsenic concentrations in surface waters within the upper portions of the Klamath River Basin, Oregon and California Dissolved arsenic concentrations in surface waters within the upper portions of the Klamath River Basin, Oregon and California

Arsenic toxicity is an environmental health problem. Levels of arsenic in surface waters at some locations in the Klamath River Basin in southern Oregon and northern California can exceed the U.S. Environmental Protection Agency (EPA) standard for drinking water. There are both anthropogenic and natural sources of arsenic. The Klamath River Basin consists primarily of volcanic deposits...
Authors
Marie Noele Croteau, Brent R. Topping, Rick A. Carlson
By
Geology, Minerals, Energy, and Geophysics Science Center

Balancing natural resource use and extraction of uranium and other elements in the Grand Canyon region Balancing natural resource use and extraction of uranium and other elements in the Grand Canyon region

The Grand Canyon region is an important natural, cultural, and archeological resource known worldwide. The region contains uranium resources that could be used to generate electricity. The U.S. Geological Survey (USGS), in cooperation with the National Park Service, Bureau of Land Management, and U.S. Department of Agriculture Forest Service, is conducting studies to answer questions...
Authors
Katherine Walton-Day, Benjamin J. Siebers, Jo Ellen Hinck, Kate M. Campbell, Marie Noele Croteau
By
Water Resources Mission Area, Colorado Water Science Center, Upper Midwest Water Science Center

Aquatic insect accumulation of uranium at spring outflows in the Grand Canyon region as influenced by aqueous and sediment geochemistry and biological factors: Implications for monitoring Aquatic insect accumulation of uranium at spring outflows in the Grand Canyon region as influenced by aqueous and sediment geochemistry and biological factors: Implications for monitoring

Potential adverse ecological effects of expanded uranium (U) mining within the Grand Canyon region motivated studies to better understand U exposure and risk to endemic species. This study documents U exposures and analyzes geochemical and biological factors affecting U bioaccumulation at spring-fed systems within the Grand Canyon region. The principal objective was to determine if...
Authors
Daniel J. Cain, Marie Noele Croteau, Christopher C. Fuller, David Barasch, Kimberly R. Beisner, Kate M. Campbell, Deborah Stoliker, Edward J. Schenk
By
Geology, Minerals, Energy, and Geophysics Science Center

Non-USGS Publications**

Tangaa SR, Winther-Nielsen M, Selck H, Croteau MN. 2018. A biodynamic understanding of dietborne and waterborne Ag uptake from Ag NPs in the sediment-dwelling oligochaete, Tubifex tubifex. NanoImpact 11: 33-41.
Lead, JR; Batley, GE; Alvarez, P; Croteau, MN; Handy, R; McLaughlin, M; Judy, J; Schirmer, K. 2018. Nanomaterials in the environment: behavior, fate, bioavailability, and effects. An updated review. Environ. Toxicol. Chem. accepted

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

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