Skip to main content
U.S. flag

An official website of the United States government

Integrated Methods Development Project

Completed
By Geology, Geophysics, and Geochemistry Science Center September 28, 2012

The Integrated Methods Development Project (IMDP) was an interdisciplinary project to develop tools and conduct research requiring integration of geologic, geophysical, geochemical, and remote-sensing expertise.

Circular 1413 cover showing scientists in field and oil spill
Sources/Usage: Public Domain. View Media Details
Cover of USGS Circular 1314 Developing Integrated Methods to Address Complex Resource and Environmental Issues, https://doi.org/10.3133/cir1413.

The Integrated Methods Development Project (IMDP) was an interdisciplinary project to develop tools and conduct research requiring integration of geologic, geophysical, geochemical, and remote-sensing expertise. The goals of the project were to:

  • Anticipate new technologies and research directions that will be needed in the future,
  • Maintain and expand existing laboratories, equipment, and capabilities,
  • Develop and evaluate new methods and applications,
  • Conduct innovative fundamental and applied research.

The project consisted of tasks and subtasks funded by the Mineral Resources Program and the Toxic Substances Hydrology Program. The Integrated Methods Development Project supported the development and maintenance of new and existing techniques, methods, and applications. New or improved research tools developed within this project will be incorporated into topical projects. 

Major Research Areas

Integrated Research Studies: Environmental challenges associated with understanding mineral systems, processes, and climatic factors require an integrated approach. Approaches may range in scale from the study of minerals under highly controlled laboratory conditions to methods applied to complex large field sites and geologic features. This task allowed for investigation and exploration of new applications, methodology, and research directions that require integratation of geologic, geochemical, and geophysical information for traditional and nontraditional mineral resource and mineral environmental applications. Topics included mineral carbonation as a means to mitigate negative effects of global climate change; petrophysical properties related to environmental rock properties; effects of volcanic processes on mineral alteration, identification of geologic features in ice-covered environments, metal sequestration in salts on playa, and integrated 3-D maps and interpretations of the formation of mineral deposits.

  • CO2 Sequestration Using Ultramafic and Carbonate Rocks
  • Linking Petrophysical Properties to Environmental and Geological Factors
  • East Antarctic Geophysical Surveys (Fire and Ice)
  • Metal Cycling in Arid Environments
  • Geophysics, Structure, and Fluid Flow

Geophysical Research: Evaluated and improved existing geophysical methods, software, and instrumentation used by USGS projects. Anticipated and developed new geophysical techniques and software applications that the USGS will need in the future. Maintained existing geophysical instrumentation and developed new instrumentation and techniques that lead to improved data resolution or provided new information about geological, hydrological, or cultural sources of geophysical anomalies.

  • Geophysical Theory and Software
  • Geophysical Instruments

Applied Geochemistry Research: Included a wide variety of applied geochemistry studies that have broad applications and frequently were conducted in collaboration with other USGS projects. These process-oriented research studies spanned scales (microscopic to regional) and environments (earth materials to human health) relevant to mineral and energy resources, water quality, climate change, ecosystem health, and human health. These studies frequently required specialized equipment and facilities, and numerous small laboratories support this work.

  • Characterization and Extraction of Solid-Phase Metals
  • Biogeochemical Methods
  • Biotic Ligand Model Studies
  • Dissolved Organic Carbon Studies
  • Development of the MiniSipper, a Segmented Water Sampler
  • Handcart Gulch Monitoring

Imaging Spectroscopy Research: Managed and enhanced the USGS Spectral Library, which forms the knowledge base for all imaging spectroscopy studies where materials identification and mineral mapping is a goal; the Library is a critical asset used by multiple projects under the Mineral Resources Program, the USGS response in Afghanistan, and USGS rapid responses (e.g., oil spill, and others). Maintained the spectroscopy laboratory and spectrometers, which are critical to all remote sensing studies conducted by the Geology, Geophysics, and Geochemistry Science Center in Denver.

  • Spectroscopy Research and Spectral Library
  • ASD and Lab Spectrometers

Toxic Substances Hydrology Program Activities: The USGS Toxic Substances Hydrology Program provided objective scientific information on environmental contamination to improve characterization and management of contaminated sites, to protect human and environmental health, and to reduce potential future contamination problems. Some research topics on this project are funded through this program.

  • Mineralogical Examination of Iron-Rich Precipitates and Metal-Mobility and Toxicity Studies
  • Bioaccessibility of Metals in Sediment to Tree Swallows near Montezuma, Colorado
  • Upper Arkansas River Fluvial Tailings

 

Return to Mineral Resources Program | Toxic Substances Hydrology Program | Geology, Geophysics, and Geochemistry Science Center

Below are other science projects associated with this project.

Below are publications associated with this project.

Developing integrated methods to address complex resource and environmental issues

IntroductionThis circular provides an overview of selected activities that were conducted within the U.S. Geological Survey (USGS) Integrated Methods Development Project, an interdisciplinary project designed to develop new tools and conduct innovative research requiring integration of geologic, geophysical, geochemical, and remote-sensing expertise. The project was supported by the USGS Mineral R
By
Mineral Resources Program, Alaska Science Center, Geology, Geophysics, and Geochemistry Science Center, Spectroscopy Lab
Filter Total Items: 86

Weathering of the New Albany Shale, Kentucky, USA: I. Weathering zones defined by mineralogy and major-element composition

Comprehensive understanding of chemical and mineralogical changes induced by weathering is valuable information when considering the supply of nutrients and toxic elements from rocks. Here minerals that release and fix major elements during progressive weathering of a bed of Devonian New Albany Shale in eastern Kentucky are documented. Samples were collected from unweathered core (parent shale) an
Authors
M.L.W. Tuttle, G. N. Breit

Processes affecting δ34S and δ18O values of dissolved sulfate in alluvium along the Canadian River, central Oklahoma, USA

The δ34S and δ18O values for dissolved sulfate in groundwater are commonly used in aquifer studies to identify sulfate reservoirs and describe biogeochemical processes. The utility of these data, however, often is compromised by mixing of sulfate sources within reservoirs and isotope fractionation during sulfur redox cycling. Our study shows that, after all potential sulfate sources are identified
Authors
Michele L. Tuttle, George N. Breit, Isabelle M. Cozzarelli
By
Ecosystems Mission Area, Toxic Substances Hydrology, Environmental Health Program, Reston Biogeochemical Processes in Groundwater Laboratory

An enriched stable-isotope approach to determine the gill-zinc binding properties of juvenile rainbow trout (Oncorhynchus mykiss) during acute zinc exposures in hard and soft waters

The objective of the present study was to employ an enriched stable-isotope approach to characterize Zn uptake in the gills of rainbow trout (Oncorhynchus mykiss) during acute Zn exposures in hard water (???140 mg/L as CaCO 3) and soft water (???30 mg/L as CaCO3). Juvenile rainbow trout were acclimated to the test hardnesses and then exposed for up to 72 h in static exposures to a range of Zn conc
Authors
A.S. Todd, S. Brinkman, R.E. Wolf, P. J. Lamothe, K. S. Smith, J. F. Ranville

Delineation of Magnesium-rich Ultramafic Rocks Available for Mineral Carbon Sequestration in the United States

The 2005 Intergovernmental Panel on Climate Change report on Carbon Dioxide Capture and Storage suggested that a major gap in mineral carbon sequestration is locating the magnesium-silicate bedrock available to sequester CO2. It is generally known that silicate minerals with high concentrations of magnesium are suitable for mineral carbonation. However, no assessment has been made covering the ent
Authors
S. C. Krevor, C. R. Graves, B. S. Van Gosen, A. E. McCafferty

Understanding contaminants associated with mineral deposits

Interdisciplinary studies by the U.S. Geological Survey (USGS) have resulted in substantial progress in understanding the processes that controlthe release of metals and acidic water from inactive mines and mineralized areas,the transport of metals and acidic water to streams, andthe fate and effect of metals and acidity on downstream ecosystems.The potential environmental effects associated with
Authors
Philip L. Verplanck
By
Energy and Minerals Mission Area, Mineral Resources Program, Geology, Geophysics, and Geochemistry Science Center, Denver Microbeam Laboratory, Spectroscopy Lab

Preliminary model of porphyry copper deposits

The U.S. Geological Survey (USGS) Mineral Resources Program develops mineral-deposit models for application in USGS mineral-resource assessments and other mineral resource-related activities within the USGS as well as for nongovernmental applications. Periodic updates of models are published in order to incorporate new concepts and findings on the occurrence, nature, and origin of specific mineral
Authors
Byron R. Berger, Robert A. Ayuso, Jeffrey C. Wynn, Robert R. Seal
By
Geology, Energy & Minerals Science Center

Initial sediment transport model of the mining-affected Aries River Basin, Romania

The Romanian government is interested in understanding the effects of existing and future mining activities on long-term dispersal, storage, and remobilization of sediment-associated metals. An initial Soil and Water Assessment Tool (SWAT) model was prepared using available data to evaluate hypothetical failure of the Valea Sesei tailings dam at the Rosia Poieni mine in the Aries River basin. Usin
Authors
Michael J. Friedel, Joshua I. Linard

Results of the chemical and isotopic analyses of sediment and ground water from alluvium of the Canadian River near a closed municipal landfill, Norman, Oklahoma, part 2

Analytical results on sediment and associated ground water from the Canadian River alluvium collected subsequent to those described in Breit and others (2005) are presented in this report. The data presented herein were collected primarily to evaluate the iron and sulfur species within the sediment at well sites IC 36, IC 54, and IC South located at the USGS Norman Landfill study site. Cored sedim
Authors
George N. Breit, Michele L.W. Tuttle, Isabelle M. Cozzarelli, Cyrus J. Berry, Scott C. Christenson, Jeanne B. Jaeschke
By
Water Resources Mission Area, Ecosystems Mission Area, Toxic Substances Hydrology, Environmental Health Program, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center, Oklahoma-Texas Water Science Center, Reston Biogeochemical Processes in Groundwater Laboratory

Reconnaissance study of water quality in the mining-affected Aries River Basin, Romania

The Aries River basin of western Romania has been subject to mining activities as far back as Roman times. Present mining activities are associated with the extraction and processing of various metals including Au, Cu, Pb, and Zn. To understand the effects of these mining activities on the environment, this study focused on three objectives: (1) establish a baseline set of physical parameters, and
Authors
Michael J. Friedel, James A. Tindall, Daniel Sardan, David L. Fey, G.L. Poputa

Hydrogeochemical investigation of the Standard Mine Vicinity, Upper Elk Creek Basin, Colorado

Ground- and surface-water samples were collected in the vicinity of the Standard Mine in west-central Colorado in order to characterize the local ground-water flow system, determine metal concentrations in local ground water, and better understand factors controlling the discharge of metal-rich waters from the mine. The sampling program included a one-time sampling of springs, mine adits, and expl
Authors
Andrew H. Manning, Philip L. Verplanck, M. Alisa Mast, Richard B. Wanty
By
Water Resources Mission Area, Energy Resources Program, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center, Colorado Water Science Center, Central Energy Resources Science Center

Ground- and surface-water chemistry of Handcart Gulch, Park County, Colorado, 2003-2006

As part of a multidisciplinary project to determine the processes that control ground-water chemistry and flow in mineralized alpine environments, ground- and surface-water samples from Handcart Gulch, Colorado were collected for analysis of inorganic solutes and water and dissolved sulfate stable isotopes in selected samples. The primary aim of this study was to document variations in ground-wate
Authors
Philip L. Verplanck, Andrew H. Manning, Briant A. Kimball, R. Blaine McCleskey, Robert L. Runkel, Jonathan S. Caine, Monique Adams, Pamela A. Gemery-Hill, David L. Fey
By
Ecosystems Mission Area, Toxic Substances Hydrology, Environmental Health Program

Relationships between microbial communities and environmental parameters at sites impacted by mining of volcanogenic massive sulfide deposits, Prince William Sound, Alaska

The relations among geochemical parameters and sediment microbial communities were examined at three shoreline sites in the Prince William Sound, Alaska, which display varying degrees of impact by acid-rock drainage (ARD) associated with historic mining of volcanogenic massive sulfide deposits. Microbial communities were examined using total fatty acid methyl esters (FAMEs), a class of compounds d
Authors
A. L. Foster, L. Munk, R.A. Koski, Wayne C. Shanks, L.L. Stillings

Below are news stories associated with this project.

The Integrated Methods Development Project (IMDP) was an interdisciplinary project to develop tools and conduct research requiring integration of geologic, geophysical, geochemical, and remote-sensing expertise.

Circular 1413 cover showing scientists in field and oil spill
Sources/Usage: Public Domain. View Media Details
Cover of USGS Circular 1314 Developing Integrated Methods to Address Complex Resource and Environmental Issues, https://doi.org/10.3133/cir1413.

The Integrated Methods Development Project (IMDP) was an interdisciplinary project to develop tools and conduct research requiring integration of geologic, geophysical, geochemical, and remote-sensing expertise. The goals of the project were to:

  • Anticipate new technologies and research directions that will be needed in the future,
  • Maintain and expand existing laboratories, equipment, and capabilities,
  • Develop and evaluate new methods and applications,
  • Conduct innovative fundamental and applied research.

The project consisted of tasks and subtasks funded by the Mineral Resources Program and the Toxic Substances Hydrology Program. The Integrated Methods Development Project supported the development and maintenance of new and existing techniques, methods, and applications. New or improved research tools developed within this project will be incorporated into topical projects. 

Major Research Areas

Integrated Research Studies: Environmental challenges associated with understanding mineral systems, processes, and climatic factors require an integrated approach. Approaches may range in scale from the study of minerals under highly controlled laboratory conditions to methods applied to complex large field sites and geologic features. This task allowed for investigation and exploration of new applications, methodology, and research directions that require integratation of geologic, geochemical, and geophysical information for traditional and nontraditional mineral resource and mineral environmental applications. Topics included mineral carbonation as a means to mitigate negative effects of global climate change; petrophysical properties related to environmental rock properties; effects of volcanic processes on mineral alteration, identification of geologic features in ice-covered environments, metal sequestration in salts on playa, and integrated 3-D maps and interpretations of the formation of mineral deposits.

  • CO2 Sequestration Using Ultramafic and Carbonate Rocks
  • Linking Petrophysical Properties to Environmental and Geological Factors
  • East Antarctic Geophysical Surveys (Fire and Ice)
  • Metal Cycling in Arid Environments
  • Geophysics, Structure, and Fluid Flow

Geophysical Research: Evaluated and improved existing geophysical methods, software, and instrumentation used by USGS projects. Anticipated and developed new geophysical techniques and software applications that the USGS will need in the future. Maintained existing geophysical instrumentation and developed new instrumentation and techniques that lead to improved data resolution or provided new information about geological, hydrological, or cultural sources of geophysical anomalies.

  • Geophysical Theory and Software
  • Geophysical Instruments

Applied Geochemistry Research: Included a wide variety of applied geochemistry studies that have broad applications and frequently were conducted in collaboration with other USGS projects. These process-oriented research studies spanned scales (microscopic to regional) and environments (earth materials to human health) relevant to mineral and energy resources, water quality, climate change, ecosystem health, and human health. These studies frequently required specialized equipment and facilities, and numerous small laboratories support this work.

  • Characterization and Extraction of Solid-Phase Metals
  • Biogeochemical Methods
  • Biotic Ligand Model Studies
  • Dissolved Organic Carbon Studies
  • Development of the MiniSipper, a Segmented Water Sampler
  • Handcart Gulch Monitoring

Imaging Spectroscopy Research: Managed and enhanced the USGS Spectral Library, which forms the knowledge base for all imaging spectroscopy studies where materials identification and mineral mapping is a goal; the Library is a critical asset used by multiple projects under the Mineral Resources Program, the USGS response in Afghanistan, and USGS rapid responses (e.g., oil spill, and others). Maintained the spectroscopy laboratory and spectrometers, which are critical to all remote sensing studies conducted by the Geology, Geophysics, and Geochemistry Science Center in Denver.

  • Spectroscopy Research and Spectral Library
  • ASD and Lab Spectrometers

Toxic Substances Hydrology Program Activities: The USGS Toxic Substances Hydrology Program provided objective scientific information on environmental contamination to improve characterization and management of contaminated sites, to protect human and environmental health, and to reduce potential future contamination problems. Some research topics on this project are funded through this program.

  • Mineralogical Examination of Iron-Rich Precipitates and Metal-Mobility and Toxicity Studies
  • Bioaccessibility of Metals in Sediment to Tree Swallows near Montezuma, Colorado
  • Upper Arkansas River Fluvial Tailings

 

Return to Mineral Resources Program | Toxic Substances Hydrology Program | Geology, Geophysics, and Geochemistry Science Center

Below are other science projects associated with this project.

Below are publications associated with this project.

Developing integrated methods to address complex resource and environmental issues

IntroductionThis circular provides an overview of selected activities that were conducted within the U.S. Geological Survey (USGS) Integrated Methods Development Project, an interdisciplinary project designed to develop new tools and conduct innovative research requiring integration of geologic, geophysical, geochemical, and remote-sensing expertise. The project was supported by the USGS Mineral R
By
Mineral Resources Program, Alaska Science Center, Geology, Geophysics, and Geochemistry Science Center, Spectroscopy Lab
Filter Total Items: 86

Weathering of the New Albany Shale, Kentucky, USA: I. Weathering zones defined by mineralogy and major-element composition

Comprehensive understanding of chemical and mineralogical changes induced by weathering is valuable information when considering the supply of nutrients and toxic elements from rocks. Here minerals that release and fix major elements during progressive weathering of a bed of Devonian New Albany Shale in eastern Kentucky are documented. Samples were collected from unweathered core (parent shale) an
Authors
M.L.W. Tuttle, G. N. Breit

Processes affecting δ34S and δ18O values of dissolved sulfate in alluvium along the Canadian River, central Oklahoma, USA

The δ34S and δ18O values for dissolved sulfate in groundwater are commonly used in aquifer studies to identify sulfate reservoirs and describe biogeochemical processes. The utility of these data, however, often is compromised by mixing of sulfate sources within reservoirs and isotope fractionation during sulfur redox cycling. Our study shows that, after all potential sulfate sources are identified
Authors
Michele L. Tuttle, George N. Breit, Isabelle M. Cozzarelli
By
Ecosystems Mission Area, Toxic Substances Hydrology, Environmental Health Program, Reston Biogeochemical Processes in Groundwater Laboratory

An enriched stable-isotope approach to determine the gill-zinc binding properties of juvenile rainbow trout (Oncorhynchus mykiss) during acute zinc exposures in hard and soft waters

The objective of the present study was to employ an enriched stable-isotope approach to characterize Zn uptake in the gills of rainbow trout (Oncorhynchus mykiss) during acute Zn exposures in hard water (???140 mg/L as CaCO 3) and soft water (???30 mg/L as CaCO3). Juvenile rainbow trout were acclimated to the test hardnesses and then exposed for up to 72 h in static exposures to a range of Zn conc
Authors
A.S. Todd, S. Brinkman, R.E. Wolf, P. J. Lamothe, K. S. Smith, J. F. Ranville

Delineation of Magnesium-rich Ultramafic Rocks Available for Mineral Carbon Sequestration in the United States

The 2005 Intergovernmental Panel on Climate Change report on Carbon Dioxide Capture and Storage suggested that a major gap in mineral carbon sequestration is locating the magnesium-silicate bedrock available to sequester CO2. It is generally known that silicate minerals with high concentrations of magnesium are suitable for mineral carbonation. However, no assessment has been made covering the ent
Authors
S. C. Krevor, C. R. Graves, B. S. Van Gosen, A. E. McCafferty

Understanding contaminants associated with mineral deposits

Interdisciplinary studies by the U.S. Geological Survey (USGS) have resulted in substantial progress in understanding the processes that controlthe release of metals and acidic water from inactive mines and mineralized areas,the transport of metals and acidic water to streams, andthe fate and effect of metals and acidity on downstream ecosystems.The potential environmental effects associated with
Authors
Philip L. Verplanck
By
Energy and Minerals Mission Area, Mineral Resources Program, Geology, Geophysics, and Geochemistry Science Center, Denver Microbeam Laboratory, Spectroscopy Lab

Preliminary model of porphyry copper deposits

The U.S. Geological Survey (USGS) Mineral Resources Program develops mineral-deposit models for application in USGS mineral-resource assessments and other mineral resource-related activities within the USGS as well as for nongovernmental applications. Periodic updates of models are published in order to incorporate new concepts and findings on the occurrence, nature, and origin of specific mineral
Authors
Byron R. Berger, Robert A. Ayuso, Jeffrey C. Wynn, Robert R. Seal
By
Geology, Energy & Minerals Science Center

Initial sediment transport model of the mining-affected Aries River Basin, Romania

The Romanian government is interested in understanding the effects of existing and future mining activities on long-term dispersal, storage, and remobilization of sediment-associated metals. An initial Soil and Water Assessment Tool (SWAT) model was prepared using available data to evaluate hypothetical failure of the Valea Sesei tailings dam at the Rosia Poieni mine in the Aries River basin. Usin
Authors
Michael J. Friedel, Joshua I. Linard

Results of the chemical and isotopic analyses of sediment and ground water from alluvium of the Canadian River near a closed municipal landfill, Norman, Oklahoma, part 2

Analytical results on sediment and associated ground water from the Canadian River alluvium collected subsequent to those described in Breit and others (2005) are presented in this report. The data presented herein were collected primarily to evaluate the iron and sulfur species within the sediment at well sites IC 36, IC 54, and IC South located at the USGS Norman Landfill study site. Cored sedim
Authors
George N. Breit, Michele L.W. Tuttle, Isabelle M. Cozzarelli, Cyrus J. Berry, Scott C. Christenson, Jeanne B. Jaeschke
By
Water Resources Mission Area, Ecosystems Mission Area, Toxic Substances Hydrology, Environmental Health Program, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center, Oklahoma-Texas Water Science Center, Reston Biogeochemical Processes in Groundwater Laboratory

Reconnaissance study of water quality in the mining-affected Aries River Basin, Romania

The Aries River basin of western Romania has been subject to mining activities as far back as Roman times. Present mining activities are associated with the extraction and processing of various metals including Au, Cu, Pb, and Zn. To understand the effects of these mining activities on the environment, this study focused on three objectives: (1) establish a baseline set of physical parameters, and
Authors
Michael J. Friedel, James A. Tindall, Daniel Sardan, David L. Fey, G.L. Poputa

Hydrogeochemical investigation of the Standard Mine Vicinity, Upper Elk Creek Basin, Colorado

Ground- and surface-water samples were collected in the vicinity of the Standard Mine in west-central Colorado in order to characterize the local ground-water flow system, determine metal concentrations in local ground water, and better understand factors controlling the discharge of metal-rich waters from the mine. The sampling program included a one-time sampling of springs, mine adits, and expl
Authors
Andrew H. Manning, Philip L. Verplanck, M. Alisa Mast, Richard B. Wanty
By
Water Resources Mission Area, Energy Resources Program, Geology, Geophysics, and Geochemistry Science Center, Geology, Minerals, Energy, and Geophysics Science Center, Colorado Water Science Center, Central Energy Resources Science Center

Ground- and surface-water chemistry of Handcart Gulch, Park County, Colorado, 2003-2006

As part of a multidisciplinary project to determine the processes that control ground-water chemistry and flow in mineralized alpine environments, ground- and surface-water samples from Handcart Gulch, Colorado were collected for analysis of inorganic solutes and water and dissolved sulfate stable isotopes in selected samples. The primary aim of this study was to document variations in ground-wate
Authors
Philip L. Verplanck, Andrew H. Manning, Briant A. Kimball, R. Blaine McCleskey, Robert L. Runkel, Jonathan S. Caine, Monique Adams, Pamela A. Gemery-Hill, David L. Fey
By
Ecosystems Mission Area, Toxic Substances Hydrology, Environmental Health Program

Relationships between microbial communities and environmental parameters at sites impacted by mining of volcanogenic massive sulfide deposits, Prince William Sound, Alaska

The relations among geochemical parameters and sediment microbial communities were examined at three shoreline sites in the Prince William Sound, Alaska, which display varying degrees of impact by acid-rock drainage (ARD) associated with historic mining of volcanogenic massive sulfide deposits. Microbial communities were examined using total fatty acid methyl esters (FAMEs), a class of compounds d
Authors
A. L. Foster, L. Munk, R.A. Koski, Wayne C. Shanks, L.L. Stillings

Below are news stories associated with this project.

Was this page helpful?