Sampling in the Animas River, Colorado
The Minerals 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 can inform how to economically and effectively minimize exposures by providing scientific data and understandings about the environmental transport, fate, and exposure pathways of contaminants.
Mineral mining is an essential part of a healthy economy. U.S. mines produced an estimated $75.2 billion in nonfuel minerals during 2017 including industrial minerals, aggregates, and metals. The mining industry and government regulators work together to prevent the release of contaminants such as metals into the environment from mining activities.
The USGS Minerals Integrated Science Team (IST), a part of the Environmental Health Program, in the Ecosystems Mission Area focuses on the lifecycle of metals and radionuclides in the environment to inform best management practices for waste materials associated with mineral extraction including transportation, storage, recycling of materials, and other activities where there are perceived or actual hazards from contaminant exposures originating from mineral resource activities.
The team works to distinguish naturally sourced toxicants in the environment from those that may originate from mineral resource activities. They use this information to understand fish, wildlife, and human exposure and to determine If their are health risks upon exposure. If health risks are identified, this Team will inform how to economically and effectively minimize risk by providing scientific data and understandings about the environmental transport, fate, and exposure pathways of contaminants. The team also directly addresses the 2012 DOI Record of Decision to understand actual versus perceived risks due to uranium mining in the Grand Canyon region. Much of this work is driven by concerns over potential mining impacts to the Grand Canyon, its natural resources, and Tribal members.
Research is accomplished at a range of scales, including laboratory-based studies, modeling, and targeted field studies in watersheds across the Nation to collectively deliver science on exposures and risks to wildlife, humans, ecosystems, and water resources. The team is unique in that it bring together geologists, hydrologists, biologists, chemists, microbiologists, ecologists, toxicologists, and geophysicists from across USGS to address this science.
The team provides science to support the utilization and protection of our Nation’s resources.
- Identify hydrologic, geochemical and biological processes that govern the source, transport, and fate of metals and radionuclides as determinants of ecosystem health
- Characterize the geochemical and biological processes governing the environmental fate, exposure, bioaccumulation, and effects of metals to reduce uncertainty and to inform risk assessment
- Characterize transport pathways of mining-related contaminants in abiotic and biotic media to improve understanding of exposure pathways and biological effects of uranium and co-occurring elements related to uranium mines in the Grand Canyon watershed.
- Develop methods and execute a geo-environmental assessment of developing undiscovered uranium deposits in the Texas Gulf coast uranium province
- Investigate multi-metal exposures, critical minerals, and multi-stressor effects on ecosystems influenced by mineral resource extraction and processing
The following are the data releases from this science team’s research activities.
Below are publications associated with this science team.
Effect of calcium on the bioavailability of dissolved uranium(VI) in plant roots under circumneutral pH
Understanding the captivity effect on invertebrate communities transplanted into an experimental stream laboratory
Potential toxicity of dissolved metal mixtures (Cd, Cu, Pb, Zn) to early life stage white sturgeon (Acipenser transmontanus) in the Upper Columbia River, Washington, United States
Cinnamon gulch revisited: Another look at separating natural and mining-impacted contributions to instream metal load
Disentangling the effects of low pH and metal mixture toxicity on macroinvertebrate diversity
Quantifying differences in responses of aquatic insects to trace metal exposure in field studies and short-term stream mesocosm experiments
Water-quality, bed-sediment, and biological data (October 2015 through September 2016) and statistical summaries of data for streams in the Clark Fork Basin, Montana
Metabarcoding of environmental DNA samples to explore the use of uranium mine containment ponds as a water source for wildlife
A comparison of four porewater sampling methods for metal mixtures and dissolved organic carbon and the implications for sediment toxicity evaluations
Geochemical characterization of groundwater discharging from springs north of the Grand Canyon, Arizona, 2009–2016
Water-quality, bed-sediment, and biological data (October 2014 through September 2015) and statistical summaries of data for streams in the Clark Fork Basin, Montana
Quantifying fish swimming behavior in response to acute exposure of aqueous copper using computer assisted video and digital image analysis
The Minerals 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 can inform how to economically and effectively minimize exposures by providing scientific data and understandings about the environmental transport, fate, and exposure pathways of contaminants.
Mineral mining is an essential part of a healthy economy. U.S. mines produced an estimated $75.2 billion in nonfuel minerals during 2017 including industrial minerals, aggregates, and metals. The mining industry and government regulators work together to prevent the release of contaminants such as metals into the environment from mining activities.
The USGS Minerals Integrated Science Team (IST), a part of the Environmental Health Program, in the Ecosystems Mission Area focuses on the lifecycle of metals and radionuclides in the environment to inform best management practices for waste materials associated with mineral extraction including transportation, storage, recycling of materials, and other activities where there are perceived or actual hazards from contaminant exposures originating from mineral resource activities.
The team works to distinguish naturally sourced toxicants in the environment from those that may originate from mineral resource activities. They use this information to understand fish, wildlife, and human exposure and to determine If their are health risks upon exposure. If health risks are identified, this Team will inform how to economically and effectively minimize risk by providing scientific data and understandings about the environmental transport, fate, and exposure pathways of contaminants. The team also directly addresses the 2012 DOI Record of Decision to understand actual versus perceived risks due to uranium mining in the Grand Canyon region. Much of this work is driven by concerns over potential mining impacts to the Grand Canyon, its natural resources, and Tribal members.
Research is accomplished at a range of scales, including laboratory-based studies, modeling, and targeted field studies in watersheds across the Nation to collectively deliver science on exposures and risks to wildlife, humans, ecosystems, and water resources. The team is unique in that it bring together geologists, hydrologists, biologists, chemists, microbiologists, ecologists, toxicologists, and geophysicists from across USGS to address this science.
The team provides science to support the utilization and protection of our Nation’s resources.
- Identify hydrologic, geochemical and biological processes that govern the source, transport, and fate of metals and radionuclides as determinants of ecosystem health
- Characterize the geochemical and biological processes governing the environmental fate, exposure, bioaccumulation, and effects of metals to reduce uncertainty and to inform risk assessment
- Characterize transport pathways of mining-related contaminants in abiotic and biotic media to improve understanding of exposure pathways and biological effects of uranium and co-occurring elements related to uranium mines in the Grand Canyon watershed.
- Develop methods and execute a geo-environmental assessment of developing undiscovered uranium deposits in the Texas Gulf coast uranium province
- Investigate multi-metal exposures, critical minerals, and multi-stressor effects on ecosystems influenced by mineral resource extraction and processing
The following are the data releases from this science team’s research activities.
Below are publications associated with this science team.