Trace element chemistry of sulfides and quartz, in situ sulfur isotope values of sulfides, cathodoluminescence of quartz, fluid inclusion microthermometry and raman, and radiogenic isotope and whole rock geochemistry from the Stibnite-Yellow Pine district, Idaho 2016-2022

Dates

Publication Date: 2023-11-17
Start Date: 2016
End Date: 2022

Citation

Marsh, E.E., Vikre, P.G., Hofstra, A.H., Bennett, M.M., Pribil, M.J., Lowers, H.A., Johnson, M.R., Koenig, A.E., Premo, W.R., Adams, D.T., and Hunt, A.G., 2023, Trace element chemistry of sulfides and quartz, in situ sulfur isotope values of sulfides, cathodoluminescence of quartz, fluid inclusion microthermometry and raman, and radiogenic isotope and whole rock geochemistry from the Stibnite-Yellow Pine district, Idaho 2016-2022: U.S. Geological Survey data release, https://doi.org/10.5066/P91ACJSC.

Summary

This dataset is a collection of geochemical data on samples from the Stibnite-Yellow Pine district of Idaho. The datasets include: whole rock geochemistry; lead, strontium and neodymium isotope chemistry of sulfides and whole rock samples by isotope dilution-thermal-mass spectrometry (ID-TIMS); in situ sulfur isotope chemistry of sulfides by laser ablation-multi collector-inductively coupled-mass spectrometry (LA-MC-ICP-MS); electron microprobe (EMP) images, cathodoluminescence (CL) images and spectra, along with EMP and laser ablation-inductively coupled-mass spectrometry (LA-ICP-MS) trace element analysis of sulfides and quartz; and fluid inclusion microthermometry and raman. Samples were collected from the surface and from a series [...]

Summary

This dataset is a collection of geochemical data on samples from the Stibnite-Yellow Pine district of Idaho. The datasets include: whole rock geochemistry; lead, strontium and neodymium isotope chemistry of sulfides and whole rock samples by isotope dilution-thermal-mass spectrometry (ID-TIMS); in situ sulfur isotope chemistry of sulfides by laser ablation-multi collector-inductively coupled-mass spectrometry (LA-MC-ICP-MS); electron microprobe (EMP) images, cathodoluminescence (CL) images and spectra, along with EMP and laser ablation-inductively coupled-mass spectrometry (LA-ICP-MS) trace element analysis of sulfides and quartz; and fluid inclusion microthermometry and raman. Samples were collected from the surface and from a series of drill holes transecting the Yellow Pine, Hangar Flats, and West End deposits within the district. Sample were submitted for USGS contract laboratory analysis and processed for ID-TIMS isotopic analysis. High-contrast backscattered electron (BSE) scanning electron microscope SEM imaging were collected to determine zonation, followed by of EMP analysis, followed by a selection of LA-ICP-MS and LA-MC-ICP-MS analysis. After determining mineral and fluid inclusion paragenesis by studying optical petrography and SEM imagery, fluid inclusion microthermometric data and raman spectra were collected.

Contacts

Point of Contact :: Erin E Marsh
Originator :: Erin E Marsh, Peter G Vikre, Albert H Hofstra, Mitchell M Bennett, Michael J Pribil, Heather A Lowers, Michaela (Mikki) R Johnson, Alan E Koenig, Wayne R Premo, David T Adams, Andrew G Hunt
Metadata Contact :: Erin E Marsh, GS GGGSC DM Team
Publisher :: U.S. Geological Survey
USGS Program :: Mineral Resources Program
Distributor :: U.S. Geological Survey - ScienceBase
SDC Data Owner :: Geology, Geophysics, and Geochemistry Science Center
USGS Mission Area :: Energy and Minerals

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YP_metadata.xml “FGDC Metadata” Original FGDC Metadata	View	24.55 KB	application/fgdc+xml
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306-694_A3_2-2019_As_300dpi2x2.jpg “Electron microprobe element map of arsenic content in pyrite.”		54.29 KB	image/jpeg
Microtherm_YP.csv		46.61 KB	text/csv

Purpose

With little or no visible gold identified in the vast sample collection from the deposits in the district, the EMP and LA-ICP-MS analyses were done to further understand the residence of gold and other metals in support of a paragenetic study of the mineralization. Microthermometry and raman were conducted to determine pressure temperature and composition of ore forming fluids. Isotope geochemistry and noble gas analysis was conducted to determine potential source of the ore forming components.

Trace element chemistry of sulfides and quartz, in situ sulfur isotope values of sulfides, cathodoluminescence of quartz, fluid inclusion microthermometry and raman, and radiogenic isotope and whole rock geochemistry from the Stibnite-Yellow Pine district, Idaho 2016-2022

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