Vitrinite is a maceral group that is derived from the remains of woody material from vascular plants and is composed of the thermally evolved products of lignin and cellulose. A maceral group is a set of organic matter types with similar properties and appearance. Vitrinite reflectance measures the percentage of incident light that is reflected from the surface of vitrinite as calibrated to a standard of known reflectance. This measurement is often regarded as the gold standard thermal maturity parameter and is used in oil and gas resource assessment and basin analysis studies. The Organic Petrology Laboratory (OPL) in Reston provides vitrinite reflectance measurements and qualitative organic petrography of shale, coal, and other unconventional reservoir samples as a routine service for various USGS Science Centers and external collaborators.
Objectives:
This project area has two main objectives. The first is to provide routine vitrinite reflectance measurements for Energy Resources Program-funded projects, the broader USGS community, and external partners. The second is to provide routine laboratory support functions for sample preparation for various analyses and micro-Fourier transform infrared spectroscopy (FTIR) research. These objectives allow for collaboration or case study investigations that reduce uncertainty in energy resource assessments, energy processes research, and environmental assessments.
Methodology:
Using equipment for preparation of mounted sample briquettes and several optical microscope systems (vitrinite reflectance, spectral fluorescence, transmitted polarized light microscopy) with imaging capability, laboratory staff provide quantitative vitrinite reflectance and qualitative organic petrographic data to internal and external customers using a Laboratory Information Management System (LIMS) per the requirements of the USGS Quality Management System (QMS). Measurement of vitrinite reflectance follows ASTM International method D7708 or D2798. In addition to vitrinite reflectance measurement, current laboratory processes also include sample preparation (mounting, grinding, polishing, wafering), transmitted light petrography, creation of sample maps through image stitching, spectral fluorescence measurement, and micro-FTIR analysis. Petrographers in the OPL pursue external accreditation in the specialized techniques of organic petrology investigation. The OPL has participated continuously since 2005 in a quarterly coal petrography interlaboratory exercise as a quality control check and operates under the requirements of the USGS QMS since 2017 to ensure that all data are of known and documented quality.
Listed below are other science projects or tasks associated with this task.
Listed below are data products associated with this project.
Listed below are publications associated with this project.
Nanoscale molecular composition of solid bitumen from the Eagle Ford Group across a natural thermal maturity gradient
Oil-source rock correlation studies in the unconventional Upper Cretaceous Tuscaloosa marine shale (TMS) petroleum system, Mississippi and Louisiana, USA
Evidence of wildfires and elevated atmospheric oxygen at the Frasnian–Famennian boundary in New York (USA): Implications for the Late Devonian mass extinction
Evidence of cosmic impact at Abu Hureyra, Syria at the Younger Dryas Onset (~12.8 ka): High-temperature melting at >2200 °C
Organic petrography of Leonardian (Wolfcamp A) mudrocks and carbonates, Midland Basin, Texas: The fate of oil-prone sedimentary organic matter in the oil window
Assessment of undiscovered oil and gas resources in the South Florida basin, 2016
High microscale variability in Raman thermal maturity estimates from shale organic matter
Application of Raman spectroscopy as thermal maturity probe in shale petroleum systems: Insights from natural and artificial maturation series
Using mercury injection pressure analyses to estimate sealing capacity of the Tuscaloosa marine shale in Mississippi, USA: Implications for carbon dioxide sequestration
Assessment of undiscovered continuous oil and gas resources in the Upper Cretaceous Tuscaloosa marine shale of the U.S. Gulf Coast, 2018
DDT and related compounds in pore water of shallow sediments on the Palos Verdes Shelf, California, USA
On the petrographic distinction of bituminite from solid bitumen in immature to early mature source rocks
Listed below are online interactive applications associated with this project.
Vitrinite is a maceral group that is derived from the remains of woody material from vascular plants and is composed of the thermally evolved products of lignin and cellulose. A maceral group is a set of organic matter types with similar properties and appearance. Vitrinite reflectance measures the percentage of incident light that is reflected from the surface of vitrinite as calibrated to a standard of known reflectance. This measurement is often regarded as the gold standard thermal maturity parameter and is used in oil and gas resource assessment and basin analysis studies. The Organic Petrology Laboratory (OPL) in Reston provides vitrinite reflectance measurements and qualitative organic petrography of shale, coal, and other unconventional reservoir samples as a routine service for various USGS Science Centers and external collaborators.
Objectives:
This project area has two main objectives. The first is to provide routine vitrinite reflectance measurements for Energy Resources Program-funded projects, the broader USGS community, and external partners. The second is to provide routine laboratory support functions for sample preparation for various analyses and micro-Fourier transform infrared spectroscopy (FTIR) research. These objectives allow for collaboration or case study investigations that reduce uncertainty in energy resource assessments, energy processes research, and environmental assessments.
Methodology:
Using equipment for preparation of mounted sample briquettes and several optical microscope systems (vitrinite reflectance, spectral fluorescence, transmitted polarized light microscopy) with imaging capability, laboratory staff provide quantitative vitrinite reflectance and qualitative organic petrographic data to internal and external customers using a Laboratory Information Management System (LIMS) per the requirements of the USGS Quality Management System (QMS). Measurement of vitrinite reflectance follows ASTM International method D7708 or D2798. In addition to vitrinite reflectance measurement, current laboratory processes also include sample preparation (mounting, grinding, polishing, wafering), transmitted light petrography, creation of sample maps through image stitching, spectral fluorescence measurement, and micro-FTIR analysis. Petrographers in the OPL pursue external accreditation in the specialized techniques of organic petrology investigation. The OPL has participated continuously since 2005 in a quarterly coal petrography interlaboratory exercise as a quality control check and operates under the requirements of the USGS QMS since 2017 to ensure that all data are of known and documented quality.
Listed below are other science projects or tasks associated with this task.
Listed below are data products associated with this project.
Listed below are publications associated with this project.
Nanoscale molecular composition of solid bitumen from the Eagle Ford Group across a natural thermal maturity gradient
Oil-source rock correlation studies in the unconventional Upper Cretaceous Tuscaloosa marine shale (TMS) petroleum system, Mississippi and Louisiana, USA
Evidence of wildfires and elevated atmospheric oxygen at the Frasnian–Famennian boundary in New York (USA): Implications for the Late Devonian mass extinction
Evidence of cosmic impact at Abu Hureyra, Syria at the Younger Dryas Onset (~12.8 ka): High-temperature melting at >2200 °C
Organic petrography of Leonardian (Wolfcamp A) mudrocks and carbonates, Midland Basin, Texas: The fate of oil-prone sedimentary organic matter in the oil window
Assessment of undiscovered oil and gas resources in the South Florida basin, 2016
High microscale variability in Raman thermal maturity estimates from shale organic matter
Application of Raman spectroscopy as thermal maturity probe in shale petroleum systems: Insights from natural and artificial maturation series
Using mercury injection pressure analyses to estimate sealing capacity of the Tuscaloosa marine shale in Mississippi, USA: Implications for carbon dioxide sequestration
Assessment of undiscovered continuous oil and gas resources in the Upper Cretaceous Tuscaloosa marine shale of the U.S. Gulf Coast, 2018
DDT and related compounds in pore water of shallow sediments on the Palos Verdes Shelf, California, USA
On the petrographic distinction of bituminite from solid bitumen in immature to early mature source rocks
Listed below are online interactive applications associated with this project.