Title

Minor- and Trace-Element Distributions in the Bonneterre Dolomite (Cambrian), Southeast Missouri: Evidence for Possible Multiple-Basin Fluid Sources and Pathways during Lead-Zinc Mineralization

Abstract

This study presents geochemical data for epigenetic dolomites of the Bonneterre Dolomite directly above the Lamotte Sandstone aquifer and from the Viburnum Trend orebodies. Samples of epigenetic replacement dolomite were collected at the Bonneterre Dolomite-Lamotte Sandstone contact from 35 drill cores covering an area of more than 25,000 km2 west of the St. Francois Mountains. There are distinct aerial trends in Fe, Mn, and Sr contents of the dolomite from values of 3.47 wt%, 0.38 wt%, and 27 ppm in the south to 0.82 wt%, 0.12 wt%, and 54 ppm in the north, respectively. In and near the Viburnum Trend lead-zinc subdistrict, the distributions of Fe, Mn, and Sr are reversed. Fe and Mn contents of gangue dolomite cement in the Viburnum Trend orebodies show a similar south-to-north enrichment. On the basis of fractionation of minor and trace elements between fluids and dolomites, the data are interpreted to indicate a regional south-to-north flow of water from the Arkoma Basin through the Lamotte Sandstone. A second fluid-flow system, with a northern source (possibly the Illinois Basin), precipitated the late phases of gangue dolomite cement in the Viburnum Trend and may have been active during the earlier precipitation of the dolomite at the Lamotte-Bonneterre contact. The inferred fluid-flow paths suggest a more complex, multiple-basin fluid involvement than previously suggested.

Department(s)

Geosciences and Geological and Petroleum Engineering

Keywords and Phrases

Flow Of Fluids--Underground; Geochemistry--Trace Elements; Mineralogy; Bonneterre Dolomite; Lead-Zinc Mineralization; Multiple-basin Fluid Sources; Lead Zinc Deposits; Cambrian; Cement; Data Set; Gangue; Replacement; Sandstone; Trace Element; Arkoma Basin; Missouri; United States; Viburnum Trend

Geographic Coverage

Southeastern Missouri

Time Period

Cambrian

International Standard Serial Number (ISSN)

0016-7606

Document Type

Article - Journal

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 1989 Geological Society of America (GSA), All rights reserved.

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