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Christopher Mebane

Christopher Mebane is the Acting Center Director of the USGS Idaho Water Science Center in Boise, Idaho.

Chris describes himself as a "dirty water biologist" with interests and experience in water pollution ecology in streams, that is, relating human-influences on stream environments to biological effects and estimating risks of adverse effects. His recent interests and work have included effects of mining and trace elements on stream ecosystems, developing biotic ligand models (BLMs) to predict effects of metal mixtures in natural waters, and studies of nutrient enrichments and eutrophication in streams.

His professional interests and experience are focused on water pollution ecology in streams, that is, relating human-influences on stream environments to biological effects and estimating risks of adverse effects.  Particular areas of interests include:

  • Effects of nutrient enrichment on stream ecosystems.  Particular aspects of interest include 1) factors limiting nuisance growth in rooted aquatic plants vs. algae, 2) integrating experimental and field bioassessment information between factors such nutrients, flows, algae and plants.
  • Ecological risk assessment, in particular predicting risks, adverse effects, and safe concentrations of trace metals in freshwater ecosystems. Particular aspects of interest include 1) water quality criteria development; 2) expanding the use of predictive toxicity models, with a recent emphasis on the biotic ligand model (BLM) with cadmium, cobalt, copper, lead, nickel, and zinc; 3) relating ecotoxicology testing to natural systems through population modeling or field studies.
  • Use of aquatic bioassessment or biomonitoring techniques to interpret changing environmental conditions.

Science and Products

Filter Total Items: 53

Nutrient limitation of algae and macrophytes in streams: Integrating laboratory bioassays, field experiments, and field data Nutrient limitation of algae and macrophytes in streams: Integrating laboratory bioassays, field experiments, and field data

Successful eutrophication control strategies need to address the limiting nutrient. We conducted a battery of laboratory and in situ nutrient-limitation tests with waters collected from 9 streams in an agricultural region of the upper Snake River basin, Idaho, USA. Laboratory tests used the green alga Raphidocelis subcapitata, the macrophyte Lemna minor (duckweed) with native epiphytes...
Authors
Christopher A. Mebane, Andrew M. Ray, Amy M Marcarelli
By
Water Resources Mission Area, Idaho Water Science Center

Long-term monitoring reveals convergent patterns of recovery from mining contamination across 4 western US watersheds Long-term monitoring reveals convergent patterns of recovery from mining contamination across 4 western US watersheds

Long-term studies of stream ecosystems are essential for assessing restoration success because they allow researchers to quantify recovery trajectories, gauge the relative influence of episodic events, and determine the time required to achieve clean-up objectives. To quantify responses of benthic macroinvertebrate assemblages to stream remediation, we integrated results of 4 long-term...
Authors
William H. Clements, David B. Herbst, Michelle I. Hornberger, Christopher A. Mebane, Terry M. Short
By
Water Resources Mission Area, California Water Science Center, Idaho Water Science Center

Time-dependent accumulation of Cd, Co, Cu, Ni, and Zn in mayfly and caddisfly larvae in experimental streams: Metal sensitivity, uptake pathways, and mixture toxicity Time-dependent accumulation of Cd, Co, Cu, Ni, and Zn in mayfly and caddisfly larvae in experimental streams: Metal sensitivity, uptake pathways, and mixture toxicity

Conceptual and quantitative models were developed to assess time-dependent processes in four sequential experimental stream studies that determined abundances of natural communities of mayfly and caddisfly larvae dosed with single metals (Cd, Co, Cu, Ni, Zn) or multiple metals (Cd+Zn, Co+Cu, Cu+Ni, Cu+Zn, Ni+Zn, Cd+Cu+Zn, Co+Cu+Ni, Cu+Ni+Zn). Metal mixtures contained environmentally...
Authors
Laurie S. Balistrieri, Christopher A. Mebane, Travis S. Schmidt
By
Geology, Minerals, Energy, and Geophysics Science Center

Bioaccumulation and toxicity of cadmium, copper, nickel, and zinc and their mixtures to aquatic insect communities Bioaccumulation and toxicity of cadmium, copper, nickel, and zinc and their mixtures to aquatic insect communities

We describe 2 artificial stream experiments that exposed aquatic insect communities to zinc (Zn), copper (Cu), and cadmium (year 2014) and to Zn, Cu, and nickel (year 2015). The testing strategy was to concurrently expose insect communities to single metals and mixtures. Single-metal tests were repeated to evaluate the reproducibility of the methods and year-to-year variability. Metals...
Authors
Christopher A. Mebane, Travis S. Schmidt, Janet L. Miller, Laurie S. Balistrieri
By
Water Resources Mission Area, Geology, Minerals, Energy, and Geophysics Science Center, Idaho Water Science Center

Copper concentrations in the upper Columbia River as a limiting factor in White Sturgeon recruitment and recovery Copper concentrations in the upper Columbia River as a limiting factor in White Sturgeon recruitment and recovery

Currently there is little natural recruitment of white sturgeon (Acipenser transmontanus) in the Upper Columbia River located in British Columbia, Canada and Washington, USA. This review of life history, physiology, and behavior of white sturgeon, along with data from recent toxicological studies, suggest that trace metals, especially Cu, affect survival and behavior of early life stage...
Authors
Holly J. Puglis, Aida Farag, Christopher A. Mebane
By
Ecosystems Mission Area, Columbia Environmental Research Center

Metal bioavailability models: Current status, lessons learned, considerations for regulatory use, and the path forward Metal bioavailability models: Current status, lessons learned, considerations for regulatory use, and the path forward

Since the early 2000s, biotic ligand models and related constructs have been a dominant paradigm for risk assessment of aqueous metals in the environment. We critically review 1) the evidence for the mechanistic approach underlying metal bioavailability models; 2) considerations for the use and refinement of bioavailability-based toxicity models; 3) considerations for the incorporation...
Authors
Christopher A. Mebane, M. Jasim Chowdhury, Karel A.C. De Schamphelaere, Stephen Lofts, Paul R. Paquin, Robert C. Santore, Chris M. Wood
By
Water Resources Mission Area, Idaho Water Science Center

Non-USGS Publications**

Mebane, C.A., Simon, N.S. & Maret, T.R. Hydrobiologia (2014) 722: 143. https://doi.org/10.1007/s10750-013-1693-4
Essig, D. A., C. A. Mebane, and T. W. Hillman. 2003. Update of bull trout temperature requirements. Idaho Department of Environmental Quality, Boise, ID and BioAnalysts, Inc., Eagle, ID, Boise. 48.
Mebane, C.A. 1994. Preliminary Natural Resource Survey - Blackbird Mine, Lemhi County, Idaho. National Oceanic and Atmospheric Administration, Hazardous Materials Assessment and Response Division, Seattle, WA. 130 pp.
Dillon, F. S. and C. A. Mebane. 2002. Development of site-specific water quality criteria for the South Fork Coeur d'Alene River, Idaho: application of site-specific water quality criteria developed in headwater reaches to downstream waters. Idaho Department of Environmental Quality and Windward Environmental, Seattle, WA. 95 pp. Idaho. 44 pp.
Royer, T. V. and C. A. Mebane. 2002. River Macroinvertebrate Index. Pages 3-1 to 3-21 in C. S. Grafe, editor. Idaho River Ecological Assessment Framework: an Integrated Approach. Idaho Department of Environmental Quality, Boise.
Mebane, C. A. and D. L. Arthaud. 2010. Extrapolating growth reductions in fish to changes in population extinction risks: copper and Chinook salmon. Human and Ecological Risk Assessment: 16(5):1026-1065
Mebane, C. A. 2001. Testing bioassessment metrics: macroinvertebrate, sculpin, and salmonid responses to stream habitat, sediment, and metals. Environmental Monitoring and Assessment 67:292-322.
Maret, T. R. and C. A. Mebane. 2005. Historical and current perspectives on fish assemblages of the Snake River, Idaho and Wyoming. Pages 41-59
Mebane, C. A. 2002. Effects of metals on freshwater macroinvertebrates: a review and case study of the correspondence between a multimetric index, toxicity testing, and copper concentrations in sediment and water. Pages 281-306 in T. P. Simon, editor.
Janz, D.M., D.K. DeForest, M.L. Brooks, P.M. Chapman, G. Gilron, D. Hoff, W.A. Hopkins, D.O. McIntyre, C.A. Mebane, V.P. Palace, J.P. Skorupa, and M. Wayland. 2010. Selenium toxicity to aquatic organisms. Pages 139-230 in P. M. Chapman, W. J. Adams, M. L. Brooks, C. G. Delos, S. N. Luoma, W. A. Maher, H. M. Ohlendorf, T. S. Presser, and D. P. Shaw, editors.
Balistrieri, L.S. and C.A. Mebane. 2012
Poole, G. C., J. B. Dunham, M. P. Hicks, D. M. Keenan, J. C. Lockwood, E. J. Materna, D. A. McCullough, C. A. Mebane, J. C. Risley, S. T. Sauter, S. A. Spalding, and D. J. Sturdevant. 2001
Dunham, J. B., J. C. Lockwood, and C. A. Mebane. 2001

**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.

Image: A Rainbow Trout Rests Among Substrate in Panther Creek

Panther Creek: Evaluating Recovery of a Mining-Damaged Stream Ecosystem

Historically, Idaho has been home to many productive underground and open-pit mining operations. These activities have also produced water quality problems in some areas. One such example is the Blackbird Mine in central Idaho. Following mining operations from the 1940s through the 1960s, Panther Creek and its tributaries were severely damaged by runoff from the Blackbird Mine. Water-quality...
By
Idaho Water Science Center
Panther Creek: Evaluating Recovery of a Mining-Damaged Stream Ecosystem

Panther Creek: Evaluating Recovery of a Mining-Damaged Stream Ecosystem

Historically, Idaho has been home to many productive underground and open-pit mining operations. These activities have also produced water quality problems in some areas. One such example is the Blackbird Mine in central Idaho. Following mining operations from the 1940s through the 1960s, Panther Creek and its tributaries were severely damaged by runoff from the Blackbird Mine. Water-quality...
Learn More
Osprey pair nesting on a sign in Coeur d'Alene Lake

Coeur d'Alene Lake Water Quality

The mining district in the South Fork Coeur d’Alene River valley was among the Nation’s largest producers of silver, lead, zinc, and other metals from the 1880s to the 1980s. These activities have produced large quantities of waste material that contain environmentally hazardous contaminants such as cadmium, lead, and zinc. Much of this material has been discharged directly to or washed into the...
By
Idaho Water Science Center
Coeur d'Alene Lake Water Quality

Coeur d'Alene Lake Water Quality

The mining district in the South Fork Coeur d’Alene River valley was among the Nation’s largest producers of silver, lead, zinc, and other metals from the 1880s to the 1980s. These activities have produced large quantities of waste material that contain environmentally hazardous contaminants such as cadmium, lead, and zinc. Much of this material has been discharged directly to or washed into the...
Learn More
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Science and Products

Filter Total Items: 53

Nutrient limitation of algae and macrophytes in streams: Integrating laboratory bioassays, field experiments, and field data Nutrient limitation of algae and macrophytes in streams: Integrating laboratory bioassays, field experiments, and field data

Successful eutrophication control strategies need to address the limiting nutrient. We conducted a battery of laboratory and in situ nutrient-limitation tests with waters collected from 9 streams in an agricultural region of the upper Snake River basin, Idaho, USA. Laboratory tests used the green alga Raphidocelis subcapitata, the macrophyte Lemna minor (duckweed) with native epiphytes...
Authors
Christopher A. Mebane, Andrew M. Ray, Amy M Marcarelli
By
Water Resources Mission Area, Idaho Water Science Center

Long-term monitoring reveals convergent patterns of recovery from mining contamination across 4 western US watersheds Long-term monitoring reveals convergent patterns of recovery from mining contamination across 4 western US watersheds

Long-term studies of stream ecosystems are essential for assessing restoration success because they allow researchers to quantify recovery trajectories, gauge the relative influence of episodic events, and determine the time required to achieve clean-up objectives. To quantify responses of benthic macroinvertebrate assemblages to stream remediation, we integrated results of 4 long-term...
Authors
William H. Clements, David B. Herbst, Michelle I. Hornberger, Christopher A. Mebane, Terry M. Short
By
Water Resources Mission Area, California Water Science Center, Idaho Water Science Center

Time-dependent accumulation of Cd, Co, Cu, Ni, and Zn in mayfly and caddisfly larvae in experimental streams: Metal sensitivity, uptake pathways, and mixture toxicity Time-dependent accumulation of Cd, Co, Cu, Ni, and Zn in mayfly and caddisfly larvae in experimental streams: Metal sensitivity, uptake pathways, and mixture toxicity

Conceptual and quantitative models were developed to assess time-dependent processes in four sequential experimental stream studies that determined abundances of natural communities of mayfly and caddisfly larvae dosed with single metals (Cd, Co, Cu, Ni, Zn) or multiple metals (Cd+Zn, Co+Cu, Cu+Ni, Cu+Zn, Ni+Zn, Cd+Cu+Zn, Co+Cu+Ni, Cu+Ni+Zn). Metal mixtures contained environmentally...
Authors
Laurie S. Balistrieri, Christopher A. Mebane, Travis S. Schmidt
By
Geology, Minerals, Energy, and Geophysics Science Center

Bioaccumulation and toxicity of cadmium, copper, nickel, and zinc and their mixtures to aquatic insect communities Bioaccumulation and toxicity of cadmium, copper, nickel, and zinc and their mixtures to aquatic insect communities

We describe 2 artificial stream experiments that exposed aquatic insect communities to zinc (Zn), copper (Cu), and cadmium (year 2014) and to Zn, Cu, and nickel (year 2015). The testing strategy was to concurrently expose insect communities to single metals and mixtures. Single-metal tests were repeated to evaluate the reproducibility of the methods and year-to-year variability. Metals...
Authors
Christopher A. Mebane, Travis S. Schmidt, Janet L. Miller, Laurie S. Balistrieri
By
Water Resources Mission Area, Geology, Minerals, Energy, and Geophysics Science Center, Idaho Water Science Center

Copper concentrations in the upper Columbia River as a limiting factor in White Sturgeon recruitment and recovery Copper concentrations in the upper Columbia River as a limiting factor in White Sturgeon recruitment and recovery

Currently there is little natural recruitment of white sturgeon (Acipenser transmontanus) in the Upper Columbia River located in British Columbia, Canada and Washington, USA. This review of life history, physiology, and behavior of white sturgeon, along with data from recent toxicological studies, suggest that trace metals, especially Cu, affect survival and behavior of early life stage...
Authors
Holly J. Puglis, Aida Farag, Christopher A. Mebane
By
Ecosystems Mission Area, Columbia Environmental Research Center

Metal bioavailability models: Current status, lessons learned, considerations for regulatory use, and the path forward Metal bioavailability models: Current status, lessons learned, considerations for regulatory use, and the path forward

Since the early 2000s, biotic ligand models and related constructs have been a dominant paradigm for risk assessment of aqueous metals in the environment. We critically review 1) the evidence for the mechanistic approach underlying metal bioavailability models; 2) considerations for the use and refinement of bioavailability-based toxicity models; 3) considerations for the incorporation...
Authors
Christopher A. Mebane, M. Jasim Chowdhury, Karel A.C. De Schamphelaere, Stephen Lofts, Paul R. Paquin, Robert C. Santore, Chris M. Wood
By
Water Resources Mission Area, Idaho Water Science Center

Non-USGS Publications**

Mebane, C.A., Simon, N.S. & Maret, T.R. Hydrobiologia (2014) 722: 143. https://doi.org/10.1007/s10750-013-1693-4
Essig, D. A., C. A. Mebane, and T. W. Hillman. 2003. Update of bull trout temperature requirements. Idaho Department of Environmental Quality, Boise, ID and BioAnalysts, Inc., Eagle, ID, Boise. 48.
Mebane, C.A. 1994. Preliminary Natural Resource Survey - Blackbird Mine, Lemhi County, Idaho. National Oceanic and Atmospheric Administration, Hazardous Materials Assessment and Response Division, Seattle, WA. 130 pp.
Dillon, F. S. and C. A. Mebane. 2002. Development of site-specific water quality criteria for the South Fork Coeur d'Alene River, Idaho: application of site-specific water quality criteria developed in headwater reaches to downstream waters. Idaho Department of Environmental Quality and Windward Environmental, Seattle, WA. 95 pp. Idaho. 44 pp.
Royer, T. V. and C. A. Mebane. 2002. River Macroinvertebrate Index. Pages 3-1 to 3-21 in C. S. Grafe, editor. Idaho River Ecological Assessment Framework: an Integrated Approach. Idaho Department of Environmental Quality, Boise.
Mebane, C. A. and D. L. Arthaud. 2010. Extrapolating growth reductions in fish to changes in population extinction risks: copper and Chinook salmon. Human and Ecological Risk Assessment: 16(5):1026-1065
Mebane, C. A. 2001. Testing bioassessment metrics: macroinvertebrate, sculpin, and salmonid responses to stream habitat, sediment, and metals. Environmental Monitoring and Assessment 67:292-322.
Maret, T. R. and C. A. Mebane. 2005. Historical and current perspectives on fish assemblages of the Snake River, Idaho and Wyoming. Pages 41-59
Mebane, C. A. 2002. Effects of metals on freshwater macroinvertebrates: a review and case study of the correspondence between a multimetric index, toxicity testing, and copper concentrations in sediment and water. Pages 281-306 in T. P. Simon, editor.
Janz, D.M., D.K. DeForest, M.L. Brooks, P.M. Chapman, G. Gilron, D. Hoff, W.A. Hopkins, D.O. McIntyre, C.A. Mebane, V.P. Palace, J.P. Skorupa, and M. Wayland. 2010. Selenium toxicity to aquatic organisms. Pages 139-230 in P. M. Chapman, W. J. Adams, M. L. Brooks, C. G. Delos, S. N. Luoma, W. A. Maher, H. M. Ohlendorf, T. S. Presser, and D. P. Shaw, editors.
Balistrieri, L.S. and C.A. Mebane. 2012
Poole, G. C., J. B. Dunham, M. P. Hicks, D. M. Keenan, J. C. Lockwood, E. J. Materna, D. A. McCullough, C. A. Mebane, J. C. Risley, S. T. Sauter, S. A. Spalding, and D. J. Sturdevant. 2001
Dunham, J. B., J. C. Lockwood, and C. A. Mebane. 2001

**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.

Image: A Rainbow Trout Rests Among Substrate in Panther Creek

Panther Creek: Evaluating Recovery of a Mining-Damaged Stream Ecosystem

Historically, Idaho has been home to many productive underground and open-pit mining operations. These activities have also produced water quality problems in some areas. One such example is the Blackbird Mine in central Idaho. Following mining operations from the 1940s through the 1960s, Panther Creek and its tributaries were severely damaged by runoff from the Blackbird Mine. Water-quality...
By
Idaho Water Science Center
Panther Creek: Evaluating Recovery of a Mining-Damaged Stream Ecosystem

Panther Creek: Evaluating Recovery of a Mining-Damaged Stream Ecosystem

Historically, Idaho has been home to many productive underground and open-pit mining operations. These activities have also produced water quality problems in some areas. One such example is the Blackbird Mine in central Idaho. Following mining operations from the 1940s through the 1960s, Panther Creek and its tributaries were severely damaged by runoff from the Blackbird Mine. Water-quality...
Learn More
Osprey pair nesting on a sign in Coeur d'Alene Lake

Coeur d'Alene Lake Water Quality

The mining district in the South Fork Coeur d’Alene River valley was among the Nation’s largest producers of silver, lead, zinc, and other metals from the 1880s to the 1980s. These activities have produced large quantities of waste material that contain environmentally hazardous contaminants such as cadmium, lead, and zinc. Much of this material has been discharged directly to or washed into the...
By
Idaho Water Science Center
Coeur d'Alene Lake Water Quality

Coeur d'Alene Lake Water Quality

The mining district in the South Fork Coeur d’Alene River valley was among the Nation’s largest producers of silver, lead, zinc, and other metals from the 1880s to the 1980s. These activities have produced large quantities of waste material that contain environmentally hazardous contaminants such as cadmium, lead, and zinc. Much of this material has been discharged directly to or washed into the...
Learn More
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