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Peter C Van Metre (Former Employee)

Science and Products

Linking the Agricultural Landscape of the Midwest to Stream Health with Structural Equation Modeling: Model Input Data Linking the Agricultural Landscape of the Midwest to Stream Health with Structural Equation Modeling: Model Input Data

Biological, chemical, physical habitat, riparian, and land-use data collected from the Midwest streams by the National Water Quality Project Regional Stream Quality Team. Data were used to develop structural equation models for the purpose of understanding how networks of potential stressors influence stream ecological health. For more information about the Midwest Regional Stream...
By
Water Resources Mission Area, National Water Quality Program

Geospatial database of the study boundary, sampled sites, watersheds, and riparian zones for U.S. Geological Survey Southeast Stream Quality Assessment Geospatial database of the study boundary, sampled sites, watersheds, and riparian zones for U.S. Geological Survey Southeast Stream Quality Assessment

In 2015, the second of several Regional Stream Quality Assessments (RSQA) was done in the southeastern United States. The Southeast Stream Quality Assessment (SESQA) was a study by the U.S. Geological Survey (USGS) National Water Quality Assessment (NAWQA) project. One of the objectives of the RSQA, and thus the SESQA, is to characterize the relationships between water-quality stressors...
By
Water Resources Mission Area, National Water Quality Program

Concentrations of glyphosate and atrazine compounds in 100 Midwest United States streams in 2013 Concentrations of glyphosate and atrazine compounds in 100 Midwest United States streams in 2013

Glyphosate and atrazine are the most intensively used herbicides in the United States. Temporal patterns in glyphosate and atrazine concentrations were measured weekly by the USGS during the 2013 growing season in 100 small streams in the Midwestern United States. Concentrations also were measured every 2 days at a subset of 8 of the sites, all located in Missouri. Glyphosate was...
By
Oklahoma-Texas Water Science Center

Supporting Data: Complex Mixtures of Pesticides in Midwest U.S. Streams Indicated by POCIS Time-Integrating Samplers Supporting Data: Complex Mixtures of Pesticides in Midwest U.S. Streams Indicated by POCIS Time-Integrating Samplers

The Midwest United States is an intensely agricultural region where pesticides in streams pose risks to aquatic biota, but temporal variability in pesticide concentrations makes characterization of their exposure to organisms challenging. To compensate for the effects of temporal variability, we deployed polar organic chemical integrative samplers (POCIS) in 100 small streams across the...
By
Water Resources Mission Area, National Water Quality Program
Filter Total Items: 31
Sealed parking lot with wear marks from snow plows
Sealed parking lot with wear marks from snowplow
Sealed parking lot with wear marks from snowplow
Sealed parking lot with wear marks from snow plows

Sealed parking lot with wear marks from snowplow

Sealed parking lot with wear marks from snowplow

Once applied, sealcoat can be abraded by snowplows, as evidence here, or the abrasive action of car tires. Runoff carrying high-PAH sealcoat particles flows into storm drains, where it can be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealed parking lot with wear marks from snow plows

Sealed parking lot with wear marks from snowplow

Sealed parking lot with wear marks from snowplow

Once applied, sealcoat can be abraded by snowplows, as evidence here, or the abrasive action of car tires. Runoff carrying high-PAH sealcoat particles flows into storm drains, where it can be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealcoat parking lot adjacent to storm drain
Sealcoated lot and adjacent storm drain
Sealcoated lot and adjacent storm drain
Sealcoat parking lot adjacent to storm drain

Sealcoated lot and adjacent storm drain

Sealcoated lot and adjacent storm drain

Runoff from this sealcoated lot will flow into the storm drain, where it will be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealcoat parking lot adjacent to storm drain

Sealcoated lot and adjacent storm drain

Sealcoated lot and adjacent storm drain

Runoff from this sealcoated lot will flow into the storm drain, where it will be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealcoated parking lot adjacent to sidewalk
Sealcoated parking lot
Sealcoated parking lot
Sealcoated parking lot adjacent to sidewalk

Sealcoated parking lot

Sealcoated parking lot

Sealcoated parking lot. Runoff from coal-tar-sealcoated pavement contains extremely high concentrations of polycyclic aromatic hydrocarbons (PAHs), and is toxic to aquatic life.  Read more here.

By
Water Resources, National Water Quality Program
Sealcoated parking lot adjacent to sidewalk

Sealcoated parking lot

Sealcoated parking lot

Sealcoated parking lot. Runoff from coal-tar-sealcoated pavement contains extremely high concentrations of polycyclic aromatic hydrocarbons (PAHs), and is toxic to aquatic life.  Read more here.

By
Water Resources, National Water Quality Program
Sealcoated pavement and storm drain
Sealcoated pavement and storm drain
Sealcoated pavement and storm drain
Sealcoated pavement and storm drain

Sealcoated pavement and storm drain

Sealcoated pavement and storm drain

Runoff from this sealcoated lot will flow into the storm drain, where it will be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealcoated pavement and storm drain

Sealcoated pavement and storm drain

Sealcoated pavement and storm drain

Runoff from this sealcoated lot will flow into the storm drain, where it will be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Midwest farm landscape
Farm in Iowa with silos
Farm in Iowa with silos
Midwest farm landscape

Farm in Iowa with silos

Farm in Iowa with silos

This farm in Iowa sits amid a field of corn.  USGS researches the effects of agricultural use of fertilizers, pesticides, and other chemicals on surface-water and groundwater quality.

By
National Water Quality Program
Midwest farm landscape

Farm in Iowa with silos

Farm in Iowa with silos

This farm in Iowa sits amid a field of corn.  USGS researches the effects of agricultural use of fertilizers, pesticides, and other chemicals on surface-water and groundwater quality.

By
National Water Quality Program
Farm in Iowa in morning mist
Farm in Iowa in morning mist amid cornfield
Farm in Iowa in morning mist amid cornfield
Farm in Iowa in morning mist

Farm in Iowa in morning mist amid cornfield

Farm in Iowa in morning mist amid cornfield

Iowa farm in a cornfield in the early morning mist.  USGS research investigates the effects of agricultural use of fertilizers, pesticides, and other chemicals in the quality of surface water and groundwater.

By
National Water Quality Program
Farm in Iowa in morning mist

Farm in Iowa in morning mist amid cornfield

Farm in Iowa in morning mist amid cornfield

Iowa farm in a cornfield in the early morning mist.  USGS research investigates the effects of agricultural use of fertilizers, pesticides, and other chemicals in the quality of surface water and groundwater.

By
National Water Quality Program
Slicing a core of lake sediment for chemical analysis
Slicing a core of lake sediment
Slicing a core of lake sediment
Slicing a core of lake sediment for chemical analysis

Slicing a core of lake sediment

Slicing a core of lake sediment

Sediment cores from lakes and reservoirs can be used to reconstruct contaminant histories in watersheds. Sediment-core analyses indicate that concentrations of PAHs in many U.S. urban lakes are increasing, and multiple lines of evidence indicate that the source of the PAHs in coal-tar-based pavement sealants.

By
Water Resources
Slicing a core of lake sediment for chemical analysis

Slicing a core of lake sediment

Slicing a core of lake sediment

Sediment cores from lakes and reservoirs can be used to reconstruct contaminant histories in watersheds. Sediment-core analyses indicate that concentrations of PAHs in many U.S. urban lakes are increasing, and multiple lines of evidence indicate that the source of the PAHs in coal-tar-based pavement sealants.

By
Water Resources
Dustpan with pavement dust containing sealcoat flecks
Dust swept from coal-tar-sealed parking lot pavement
Dust swept from coal-tar-sealed parking lot pavement
Dustpan with pavement dust containing sealcoat flecks

Dust swept from coal-tar-sealed parking lot pavement

Dust swept from coal-tar-sealed parking lot pavement

Dust swept from parking lots sealed with coal-tar-based sealant contains concentrations of polycyclic aromatic hydrocarbons (PAHs) about 1,000 higher than dust from parking lots with other surface types (concrete, unsealed asphalt, asphalt-based sealcoat).

By
Water Resources
Dustpan with pavement dust containing sealcoat flecks

Dust swept from coal-tar-sealed parking lot pavement

Dust swept from coal-tar-sealed parking lot pavement

Dust swept from parking lots sealed with coal-tar-based sealant contains concentrations of polycyclic aromatic hydrocarbons (PAHs) about 1,000 higher than dust from parking lots with other surface types (concrete, unsealed asphalt, asphalt-based sealcoat).

By
Water Resources
Slicing sample of lake bed sediment
Sediment core from lake for PAH analysis
Sediment core from lake for PAH analysis
Slicing sample of lake bed sediment

Sediment core from lake for PAH analysis

Sediment core from lake for PAH analysis

Sediment cores from lakes and reservoirs can be used to reconstruct contaminant histories in watersheds. Sediment-core analyses indicate that concentrations of PAHs in many U.S. urban lakes are increasing, and multiple lines of evidence indicate that the source of the PAHs in coal-tar-based pavement sealants.

By
Water Resources Mission Area
Slicing sample of lake bed sediment

Sediment core from lake for PAH analysis

Sediment core from lake for PAH analysis

Sediment cores from lakes and reservoirs can be used to reconstruct contaminant histories in watersheds. Sediment-core analyses indicate that concentrations of PAHs in many U.S. urban lakes are increasing, and multiple lines of evidence indicate that the source of the PAHs in coal-tar-based pavement sealants.

By
Water Resources Mission Area
Pouring pavement dust into sample jar
Pouring dust from sealcoated pavement into sample jar
Pouring dust from sealcoated pavement into sample jar
Pouring pavement dust into sample jar

Pouring dust from sealcoated pavement into sample jar

Pouring dust from sealcoated pavement into sample jar

Dust was collected from sealcoated pavements across the U.S. Concentrations of polycyclic aromatic hydrocarbons (PAHs) in dust from sealed pavement in the East, where coal-tar-based products are used, was about 1,000 times higher than in dust from sealed pavement in the  West, where asphalt-based products are used.

By
Water Resources
Pouring pavement dust into sample jar

Pouring dust from sealcoated pavement into sample jar

Pouring dust from sealcoated pavement into sample jar

Dust was collected from sealcoated pavements across the U.S. Concentrations of polycyclic aromatic hydrocarbons (PAHs) in dust from sealed pavement in the East, where coal-tar-based products are used, was about 1,000 times higher than in dust from sealed pavement in the  West, where asphalt-based products are used.

By
Water Resources
Filter Total Items: 149

Inclusion of pesticide transformation products is key to estimating pesticide exposures and effects in small U.S. streams Inclusion of pesticide transformation products is key to estimating pesticide exposures and effects in small U.S. streams

Improved analytical methods can quantify hundreds of pesticide transformation products (TPs), but understanding of TP occurrence and potential toxicity in aquatic ecosystems remains limited. We quantified 108 parent pesticides and 116 TPs in more than 3 700 samples from 442 small streams in mostly urban basins across five major regions of the United States. TPs were detected nearly as...
Authors
Barbara Mahler, Lisa H. Nowell, Mark W. Sandstrom, Paul M. Bradley, Kristin M. Romanok, Christopher Konrad, Peter Van Metre
By
Ecosystems Mission Area, Water Resources Mission Area, Contaminant Biology, Environmental Health Program, Toxic Substances Hydrology, California Water Science Center, New Jersey Water Science Center, Oklahoma-Texas Water Science Center, South Atlantic Water Science Center (SAWSC), Washington Water Science Center, National Water Quality Laboratory

Multi-region assessment of chemical mixture exposures and predicted cumulative effects in USA wadeable urban/agriculture-gradient streams Multi-region assessment of chemical mixture exposures and predicted cumulative effects in USA wadeable urban/agriculture-gradient streams

Chemical-contaminant mixtures are widely reported in large stream reaches in urban/agriculture-developed watersheds, but mixture compositions and aggregate biological effects are less well understood in corresponding smaller headwaters, which comprise most of stream length, riparian connectivity, and spatial biodiversity. During 2014–2017, the U.S. Geological Survey (USGS) measured 389...
Authors
Paul M. Bradley, Celeste A. Journey, Kristin M. Romanok, Sara E. Breitmeyer, Daniel T. Button, Daren M. Carlisle, Bradley Huffman, Barbara Mahler, Lisa H. Nowell, Sharon L. Qi, Kelly L. Smalling, Ian R. Waite, Peter C. Van Metre
By
Ecosystems Mission Area, Water Resources Mission Area, Contaminant Biology, Environmental Health Program, Toxic Substances Hydrology, California Water Science Center, Colorado Water Science Center, Maryland-Delaware-D.C. Water Science Center, New Jersey Water Science Center, Ohio-Kentucky-Indiana Water Science Center, Oklahoma-Texas Water Science Center, Oregon Water Science Center, South Atlantic Water Science Center (SAWSC)

Common insecticide disrupts aquatic communities: A mesocosm-to-field ecological risk assessment of fipronil and its degradates in U.S. streams Common insecticide disrupts aquatic communities: A mesocosm-to-field ecological risk assessment of fipronil and its degradates in U.S. streams

Insecticides in streams are increasingly a global concern, yet information on safe concentrations for aquatic ecosystems is sparse. In a 30-day mesocosm experiment exposing native benthic aquatic invertebrates to the common insecticide fipronil and four degradates, fipronil compounds caused altered emergence and trophic cascades. Effect concentrations eliciting a 50% response (EC50) were...
Authors
Janet L. Miller, Travis S. Schmidt, Peter C. Van Metre, Barbara Mahler, Mark W. Sandstrom, Lisa H. Nowell, Daren M. Carlisle, Patrick W. Moran
By
Water Resources Mission Area, California Water Science Center, Colorado Water Science Center, Oklahoma-Texas Water Science Center, Washington Water Science Center

Prioritizing river basins for intensive monitoring and assessment by the US Geological Survey Prioritizing river basins for intensive monitoring and assessment by the US Geological Survey

The US Geological Survey (USGS) is currently (2020) integrating its water science programs to better address the nation’s greatest water resource challenges now and into the future. This integration will rely, in part, on data from 10 or more intensively monitored river basins from across the USA. A team of USGS scientists was convened to develop a systematic, quantitative approach to...
Authors
Peter C. Van Metre, Sharon L. Qi, Jeffrey R. Deacon, Cheryl A. Dieter, Jessica M. Driscoll, Michael N. Fienen, Terry A. Kenney, Patrick M. Lambert, David P. Lesmes, Christopher Allen Mason, Anke Mueller-Solger, MaryLynn Musgrove, Jaime A. Painter, Donald O. Rosenberry, Lori A. Sprague, Anthony J. Tesoriero, Lisamarie Windham-Myers, David M. Wolock
By
Water Resources Mission Area, Integrated Water Availability Assessments, Wildland Fire Science

Design and methods of the California stream quality assessment (CSQA), 2017 Design and methods of the California stream quality assessment (CSQA), 2017

During 2017, as part of the National Water-Quality Assessment Project, the U.S. Geological Survey conducted the California Stream Quality Assessment to investigate the quality of streams in the Central California Foothills and Coastal Mountains ecoregion, United States. The goal of the California Stream Quality Assessment study was to assess the health of wadeable streams in the region...
Authors
Jason T. May, Lisa H. Nowell, James F. Coles, Daniel T. Button, Amanda H. Bell, Sharon L. Qi, Peter C. Van Metre
By
Water Resources Mission Area, California Water Science Center

Biofilms provide new insight into pesticide occurrence in streams and links to aquatic ecological communities Biofilms provide new insight into pesticide occurrence in streams and links to aquatic ecological communities

Streambed sediment is commonly analyzed to assess occurrence of hydrophobic pesticides and risks to aquatic communities. However, stream biofilms also have the potential to accumulate pesticides and may be consumed by aquatic organisms. To better characterize risks to aquatic life, the U.S. Geological Survey Regional Stream Quality Assessment measured 93 current-use and 3 legacy...
Authors
Barbara Mahler, Travis S. Schmidt, Lisa H. Nowell, Sharon L. Qi, Peter C. Van Metre, Michelle L. Hladik, Daren M. Carlisle, Mark D. Munn, Jason May
By
Water Resources Mission Area

Science and Products

Linking the Agricultural Landscape of the Midwest to Stream Health with Structural Equation Modeling: Model Input Data Linking the Agricultural Landscape of the Midwest to Stream Health with Structural Equation Modeling: Model Input Data

Biological, chemical, physical habitat, riparian, and land-use data collected from the Midwest streams by the National Water Quality Project Regional Stream Quality Team. Data were used to develop structural equation models for the purpose of understanding how networks of potential stressors influence stream ecological health. For more information about the Midwest Regional Stream...
By
Water Resources Mission Area, National Water Quality Program

Geospatial database of the study boundary, sampled sites, watersheds, and riparian zones for U.S. Geological Survey Southeast Stream Quality Assessment Geospatial database of the study boundary, sampled sites, watersheds, and riparian zones for U.S. Geological Survey Southeast Stream Quality Assessment

In 2015, the second of several Regional Stream Quality Assessments (RSQA) was done in the southeastern United States. The Southeast Stream Quality Assessment (SESQA) was a study by the U.S. Geological Survey (USGS) National Water Quality Assessment (NAWQA) project. One of the objectives of the RSQA, and thus the SESQA, is to characterize the relationships between water-quality stressors...
By
Water Resources Mission Area, National Water Quality Program

Concentrations of glyphosate and atrazine compounds in 100 Midwest United States streams in 2013 Concentrations of glyphosate and atrazine compounds in 100 Midwest United States streams in 2013

Glyphosate and atrazine are the most intensively used herbicides in the United States. Temporal patterns in glyphosate and atrazine concentrations were measured weekly by the USGS during the 2013 growing season in 100 small streams in the Midwestern United States. Concentrations also were measured every 2 days at a subset of 8 of the sites, all located in Missouri. Glyphosate was...
By
Oklahoma-Texas Water Science Center

Supporting Data: Complex Mixtures of Pesticides in Midwest U.S. Streams Indicated by POCIS Time-Integrating Samplers Supporting Data: Complex Mixtures of Pesticides in Midwest U.S. Streams Indicated by POCIS Time-Integrating Samplers

The Midwest United States is an intensely agricultural region where pesticides in streams pose risks to aquatic biota, but temporal variability in pesticide concentrations makes characterization of their exposure to organisms challenging. To compensate for the effects of temporal variability, we deployed polar organic chemical integrative samplers (POCIS) in 100 small streams across the...
By
Water Resources Mission Area, National Water Quality Program
Filter Total Items: 31
Sealed parking lot with wear marks from snow plows
Sealed parking lot with wear marks from snowplow
Sealed parking lot with wear marks from snowplow
Sealed parking lot with wear marks from snow plows

Sealed parking lot with wear marks from snowplow

Sealed parking lot with wear marks from snowplow

Once applied, sealcoat can be abraded by snowplows, as evidence here, or the abrasive action of car tires. Runoff carrying high-PAH sealcoat particles flows into storm drains, where it can be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealed parking lot with wear marks from snow plows

Sealed parking lot with wear marks from snowplow

Sealed parking lot with wear marks from snowplow

Once applied, sealcoat can be abraded by snowplows, as evidence here, or the abrasive action of car tires. Runoff carrying high-PAH sealcoat particles flows into storm drains, where it can be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealcoat parking lot adjacent to storm drain
Sealcoated lot and adjacent storm drain
Sealcoated lot and adjacent storm drain
Sealcoat parking lot adjacent to storm drain

Sealcoated lot and adjacent storm drain

Sealcoated lot and adjacent storm drain

Runoff from this sealcoated lot will flow into the storm drain, where it will be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealcoat parking lot adjacent to storm drain

Sealcoated lot and adjacent storm drain

Sealcoated lot and adjacent storm drain

Runoff from this sealcoated lot will flow into the storm drain, where it will be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealcoated parking lot adjacent to sidewalk
Sealcoated parking lot
Sealcoated parking lot
Sealcoated parking lot adjacent to sidewalk

Sealcoated parking lot

Sealcoated parking lot

Sealcoated parking lot. Runoff from coal-tar-sealcoated pavement contains extremely high concentrations of polycyclic aromatic hydrocarbons (PAHs), and is toxic to aquatic life.  Read more here.

By
Water Resources, National Water Quality Program
Sealcoated parking lot adjacent to sidewalk

Sealcoated parking lot

Sealcoated parking lot

Sealcoated parking lot. Runoff from coal-tar-sealcoated pavement contains extremely high concentrations of polycyclic aromatic hydrocarbons (PAHs), and is toxic to aquatic life.  Read more here.

By
Water Resources, National Water Quality Program
Sealcoated pavement and storm drain
Sealcoated pavement and storm drain
Sealcoated pavement and storm drain
Sealcoated pavement and storm drain

Sealcoated pavement and storm drain

Sealcoated pavement and storm drain

Runoff from this sealcoated lot will flow into the storm drain, where it will be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Sealcoated pavement and storm drain

Sealcoated pavement and storm drain

Sealcoated pavement and storm drain

Runoff from this sealcoated lot will flow into the storm drain, where it will be transported to streams and lakes.

By
Water Resources, National Water Quality Program
Midwest farm landscape
Farm in Iowa with silos
Farm in Iowa with silos
Midwest farm landscape

Farm in Iowa with silos

Farm in Iowa with silos

This farm in Iowa sits amid a field of corn.  USGS researches the effects of agricultural use of fertilizers, pesticides, and other chemicals on surface-water and groundwater quality.

By
National Water Quality Program
Midwest farm landscape

Farm in Iowa with silos

Farm in Iowa with silos

This farm in Iowa sits amid a field of corn.  USGS researches the effects of agricultural use of fertilizers, pesticides, and other chemicals on surface-water and groundwater quality.

By
National Water Quality Program
Farm in Iowa in morning mist
Farm in Iowa in morning mist amid cornfield
Farm in Iowa in morning mist amid cornfield
Farm in Iowa in morning mist

Farm in Iowa in morning mist amid cornfield

Farm in Iowa in morning mist amid cornfield

Iowa farm in a cornfield in the early morning mist.  USGS research investigates the effects of agricultural use of fertilizers, pesticides, and other chemicals in the quality of surface water and groundwater.

By
National Water Quality Program
Farm in Iowa in morning mist

Farm in Iowa in morning mist amid cornfield

Farm in Iowa in morning mist amid cornfield

Iowa farm in a cornfield in the early morning mist.  USGS research investigates the effects of agricultural use of fertilizers, pesticides, and other chemicals in the quality of surface water and groundwater.

By
National Water Quality Program
Slicing a core of lake sediment for chemical analysis
Slicing a core of lake sediment
Slicing a core of lake sediment
Slicing a core of lake sediment for chemical analysis

Slicing a core of lake sediment

Slicing a core of lake sediment

Sediment cores from lakes and reservoirs can be used to reconstruct contaminant histories in watersheds. Sediment-core analyses indicate that concentrations of PAHs in many U.S. urban lakes are increasing, and multiple lines of evidence indicate that the source of the PAHs in coal-tar-based pavement sealants.

By
Water Resources
Slicing a core of lake sediment for chemical analysis

Slicing a core of lake sediment

Slicing a core of lake sediment

Sediment cores from lakes and reservoirs can be used to reconstruct contaminant histories in watersheds. Sediment-core analyses indicate that concentrations of PAHs in many U.S. urban lakes are increasing, and multiple lines of evidence indicate that the source of the PAHs in coal-tar-based pavement sealants.

By
Water Resources
Dustpan with pavement dust containing sealcoat flecks
Dust swept from coal-tar-sealed parking lot pavement
Dust swept from coal-tar-sealed parking lot pavement
Dustpan with pavement dust containing sealcoat flecks

Dust swept from coal-tar-sealed parking lot pavement

Dust swept from coal-tar-sealed parking lot pavement

Dust swept from parking lots sealed with coal-tar-based sealant contains concentrations of polycyclic aromatic hydrocarbons (PAHs) about 1,000 higher than dust from parking lots with other surface types (concrete, unsealed asphalt, asphalt-based sealcoat).

By
Water Resources
Dustpan with pavement dust containing sealcoat flecks

Dust swept from coal-tar-sealed parking lot pavement

Dust swept from coal-tar-sealed parking lot pavement

Dust swept from parking lots sealed with coal-tar-based sealant contains concentrations of polycyclic aromatic hydrocarbons (PAHs) about 1,000 higher than dust from parking lots with other surface types (concrete, unsealed asphalt, asphalt-based sealcoat).

By
Water Resources
Slicing sample of lake bed sediment
Sediment core from lake for PAH analysis
Sediment core from lake for PAH analysis
Slicing sample of lake bed sediment

Sediment core from lake for PAH analysis

Sediment core from lake for PAH analysis

Sediment cores from lakes and reservoirs can be used to reconstruct contaminant histories in watersheds. Sediment-core analyses indicate that concentrations of PAHs in many U.S. urban lakes are increasing, and multiple lines of evidence indicate that the source of the PAHs in coal-tar-based pavement sealants.

By
Water Resources Mission Area
Slicing sample of lake bed sediment

Sediment core from lake for PAH analysis

Sediment core from lake for PAH analysis

Sediment cores from lakes and reservoirs can be used to reconstruct contaminant histories in watersheds. Sediment-core analyses indicate that concentrations of PAHs in many U.S. urban lakes are increasing, and multiple lines of evidence indicate that the source of the PAHs in coal-tar-based pavement sealants.

By
Water Resources Mission Area
Pouring pavement dust into sample jar
Pouring dust from sealcoated pavement into sample jar
Pouring dust from sealcoated pavement into sample jar
Pouring pavement dust into sample jar

Pouring dust from sealcoated pavement into sample jar

Pouring dust from sealcoated pavement into sample jar

Dust was collected from sealcoated pavements across the U.S. Concentrations of polycyclic aromatic hydrocarbons (PAHs) in dust from sealed pavement in the East, where coal-tar-based products are used, was about 1,000 times higher than in dust from sealed pavement in the  West, where asphalt-based products are used.

By
Water Resources
Pouring pavement dust into sample jar

Pouring dust from sealcoated pavement into sample jar

Pouring dust from sealcoated pavement into sample jar

Dust was collected from sealcoated pavements across the U.S. Concentrations of polycyclic aromatic hydrocarbons (PAHs) in dust from sealed pavement in the East, where coal-tar-based products are used, was about 1,000 times higher than in dust from sealed pavement in the  West, where asphalt-based products are used.

By
Water Resources
Filter Total Items: 149

Inclusion of pesticide transformation products is key to estimating pesticide exposures and effects in small U.S. streams Inclusion of pesticide transformation products is key to estimating pesticide exposures and effects in small U.S. streams

Improved analytical methods can quantify hundreds of pesticide transformation products (TPs), but understanding of TP occurrence and potential toxicity in aquatic ecosystems remains limited. We quantified 108 parent pesticides and 116 TPs in more than 3 700 samples from 442 small streams in mostly urban basins across five major regions of the United States. TPs were detected nearly as...
Authors
Barbara Mahler, Lisa H. Nowell, Mark W. Sandstrom, Paul M. Bradley, Kristin M. Romanok, Christopher Konrad, Peter Van Metre
By
Ecosystems Mission Area, Water Resources Mission Area, Contaminant Biology, Environmental Health Program, Toxic Substances Hydrology, California Water Science Center, New Jersey Water Science Center, Oklahoma-Texas Water Science Center, South Atlantic Water Science Center (SAWSC), Washington Water Science Center, National Water Quality Laboratory

Multi-region assessment of chemical mixture exposures and predicted cumulative effects in USA wadeable urban/agriculture-gradient streams Multi-region assessment of chemical mixture exposures and predicted cumulative effects in USA wadeable urban/agriculture-gradient streams

Chemical-contaminant mixtures are widely reported in large stream reaches in urban/agriculture-developed watersheds, but mixture compositions and aggregate biological effects are less well understood in corresponding smaller headwaters, which comprise most of stream length, riparian connectivity, and spatial biodiversity. During 2014–2017, the U.S. Geological Survey (USGS) measured 389...
Authors
Paul M. Bradley, Celeste A. Journey, Kristin M. Romanok, Sara E. Breitmeyer, Daniel T. Button, Daren M. Carlisle, Bradley Huffman, Barbara Mahler, Lisa H. Nowell, Sharon L. Qi, Kelly L. Smalling, Ian R. Waite, Peter C. Van Metre
By
Ecosystems Mission Area, Water Resources Mission Area, Contaminant Biology, Environmental Health Program, Toxic Substances Hydrology, California Water Science Center, Colorado Water Science Center, Maryland-Delaware-D.C. Water Science Center, New Jersey Water Science Center, Ohio-Kentucky-Indiana Water Science Center, Oklahoma-Texas Water Science Center, Oregon Water Science Center, South Atlantic Water Science Center (SAWSC)

Common insecticide disrupts aquatic communities: A mesocosm-to-field ecological risk assessment of fipronil and its degradates in U.S. streams Common insecticide disrupts aquatic communities: A mesocosm-to-field ecological risk assessment of fipronil and its degradates in U.S. streams

Insecticides in streams are increasingly a global concern, yet information on safe concentrations for aquatic ecosystems is sparse. In a 30-day mesocosm experiment exposing native benthic aquatic invertebrates to the common insecticide fipronil and four degradates, fipronil compounds caused altered emergence and trophic cascades. Effect concentrations eliciting a 50% response (EC50) were...
Authors
Janet L. Miller, Travis S. Schmidt, Peter C. Van Metre, Barbara Mahler, Mark W. Sandstrom, Lisa H. Nowell, Daren M. Carlisle, Patrick W. Moran
By
Water Resources Mission Area, California Water Science Center, Colorado Water Science Center, Oklahoma-Texas Water Science Center, Washington Water Science Center

Prioritizing river basins for intensive monitoring and assessment by the US Geological Survey Prioritizing river basins for intensive monitoring and assessment by the US Geological Survey

The US Geological Survey (USGS) is currently (2020) integrating its water science programs to better address the nation’s greatest water resource challenges now and into the future. This integration will rely, in part, on data from 10 or more intensively monitored river basins from across the USA. A team of USGS scientists was convened to develop a systematic, quantitative approach to...
Authors
Peter C. Van Metre, Sharon L. Qi, Jeffrey R. Deacon, Cheryl A. Dieter, Jessica M. Driscoll, Michael N. Fienen, Terry A. Kenney, Patrick M. Lambert, David P. Lesmes, Christopher Allen Mason, Anke Mueller-Solger, MaryLynn Musgrove, Jaime A. Painter, Donald O. Rosenberry, Lori A. Sprague, Anthony J. Tesoriero, Lisamarie Windham-Myers, David M. Wolock
By
Water Resources Mission Area, Integrated Water Availability Assessments, Wildland Fire Science

Design and methods of the California stream quality assessment (CSQA), 2017 Design and methods of the California stream quality assessment (CSQA), 2017

During 2017, as part of the National Water-Quality Assessment Project, the U.S. Geological Survey conducted the California Stream Quality Assessment to investigate the quality of streams in the Central California Foothills and Coastal Mountains ecoregion, United States. The goal of the California Stream Quality Assessment study was to assess the health of wadeable streams in the region...
Authors
Jason T. May, Lisa H. Nowell, James F. Coles, Daniel T. Button, Amanda H. Bell, Sharon L. Qi, Peter C. Van Metre
By
Water Resources Mission Area, California Water Science Center

Biofilms provide new insight into pesticide occurrence in streams and links to aquatic ecological communities Biofilms provide new insight into pesticide occurrence in streams and links to aquatic ecological communities

Streambed sediment is commonly analyzed to assess occurrence of hydrophobic pesticides and risks to aquatic communities. However, stream biofilms also have the potential to accumulate pesticides and may be consumed by aquatic organisms. To better characterize risks to aquatic life, the U.S. Geological Survey Regional Stream Quality Assessment measured 93 current-use and 3 legacy...
Authors
Barbara Mahler, Travis S. Schmidt, Lisa H. Nowell, Sharon L. Qi, Peter C. Van Metre, Michelle L. Hladik, Daren M. Carlisle, Mark D. Munn, Jason May
By
Water Resources Mission Area
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