Absence of magnetite microlites, geochemistry of magnetite veins and replacements in IOA deposits, SE Missouri, USA: Relations to intermediate intrusions

Corey J. Meighan; Albert H. Hofstra; David Adams; Erin E. Marsh; Heather A. Lowers; Alan Koenig

Absence of magnetite microlites, geochemistry of magnetite veins and replacements in IOA deposits, SE Missouri, USA: Relations to intermediate intrusions

By: Corey J. Meighan, Albert H. Hofstra, David Adams, Erin E. Marsh, Heather A. Lowers, and Alan Koenig

Links

More information: Publisher Index Page
Download citation as: RIS | Dublin Core

Abstract

The paragenesis, textures, and chemical compositions of magnetite in two mafic to intermediate intrusions and four IOA deposits in SE Missouri were studied to discriminate between igneous and hydrothermal sources. In this study, we found that replacement magnetite with mineral inclusion-rich cores yields erroneously high Ti, Al, Si, Mg, and Mn contents as determined by EMP and LA-ICP-MS due to rutile and silicate inclusions. Thus, identification of high-Ti microlites on the basis of inclusion-rich cores with high Ti contents is an analytical artefact. Since the high-Ti magnetite microlite flotation model is critically dependent on this type of analysis, it may be invalid. The presence of coarse-grained high-Ti vein magnetite with ilmenite lamellae enveloped by replacement magnetite with inclusion-rich cores in ore zones suggests that the veins were high-temperature conduits for low-temperature replacement ores. The trace element compositions of vein and replacement magnetite suggest that iron was sourced from mafic to intermediate intrusions. These results support a magmatic-hydrothermal origin for IOA systems in SE Missouri.

Study Area

Additional publication details
Publication type	Conference Paper
Publication Subtype	Conference Paper
Title	Absence of magnetite microlites, geochemistry of magnetite veins and replacements in IOA deposits, SE Missouri, USA: Relations to intermediate intrusions
Volume	1
Year Published	2019
Language	English
Publisher	Society for Geology Applied to Mineral Deposits (SGA)
Contributing office(s)	Central Mineral and Environmental Resources Science Center
Description	4 p.
Larger Work Type	Book
Larger Work Subtype	Conference publication
Larger Work Title	Life with Ore Deposits on Earth – 15th SGA Biennial Meeting 2019
First page	396
Last page	399
Conference Title	15th SGA Biennial Meeting 2019
Conference Location	Glasgow, Scotland
Conference Date	August 27-30, 2019
Country	United States
State	Missouri
Other Geospatial	St. Francois Mountains
Google Analytic Metrics	Metrics page