The Vergenoeg Magnetite-Fluorite Deposit, South Africa: Support for a Hydrothermal Model for Massive Iron Oxide Deposits

Vergenoeg is a fluorite-bearing massive iron oxide deposit that is genetically related to granites of the Bushveld Complex. It consists of a pipe-shaped body containing primary fayalite, fluorite, apatite, ilmenite, and magnetite that cuts Rooiberg rhyolites and is surrounded by stratiform bodies of...

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Published in:Economic Geology
Main Authors: Borrok, David M., Kesler, Stephen E., Boer, Rudolf H., Essene, Eric J.
Format: Text
Language:unknown
Published: Scholars' Mine 1998
Subjects:
fluorite
hydrothermal deposit
iron ore
South Africa
Geology
Kiruna
Mercado
Online Access:https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/438
https://doi.org/10.2113/gsecongeo.93.5.564
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spelling ftmissouriunivst:oai:scholarsmine.mst.edu:geosci_geo_peteng_facwork-1438 2023-05-15T17:04:20+02:00 The Vergenoeg Magnetite-Fluorite Deposit, South Africa: Support for a Hydrothermal Model for Massive Iron Oxide Deposits Borrok, David M. Kesler, Stephen E. Boer, Rudolf H. Essene, Eric J. 1998-08-01T07:00:00Z https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/438 https://doi.org/10.2113/gsecongeo.93.5.564 unknown Scholars' Mine https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/438 https://doi.org/10.2113/gsecongeo.93.5.564 © 1998 Society of Economic Geologists, Inc, All rights reserved. Geosciences and Geological and Petroleum Engineering Faculty Research & Creative Works fluorite hydrothermal deposit iron ore South Africa Geology text 1998 ftmissouriunivst https://doi.org/10.2113/gsecongeo.93.5.564 2022-08-09T21:07:41Z Vergenoeg is a fluorite-bearing massive iron oxide deposit that is genetically related to granites of the Bushveld Complex. It consists of a pipe-shaped body containing primary fayalite, fluorite, apatite, ilmenite, and magnetite that cuts Rooiberg rhyolites and is surrounded by stratiform bodies of felsite and fragmental hematite-fluorite debris. With the exception of its abundant fluorite, Vergenoeg is similar to massive iron oxide deposits such as Kiruna, Pea Ridge, and Cerro Mercado, all of which are related to felsic magmatism. Models suggested for the origin of these deposits can be divided into those invoking separation of an immiscible iron oxide magma from the parent felsic magma and those invoking a hydrothermal solution. Vergenoeg is an excellent place to try to resolve this controversy because the primary fluorite permits study of inclusions of the fluid or magma that formed the ore. Fluorite at Vergenoeg lacks inclusions that might represent an immiscible iron-rich melt but contains abundant aqueous inclusions. Inclusion petrography, heating-freezing measurements, and gas analyses indicate that the primary mineral assemblage at Vergenoeg formed from a high-temperature (>500°C), high-salinity (>67 wt % NaCl equiv) fluid that coexisted with a vapor phase rich in CO2 . Stable isotope analyses of primary fayalite and titanian magnetite from deep in the Vergenoeg pipe yield calculated water compositions for these temperatures that are typical of magmatic water (δ 18O (H2O) = 7-8ppm at 500°C). Alteration of the primary fayalite-fluorite-ilmenite assemblage is widespread in the Vergenoeg pipe. It consists of an early assemblage containing ferroactinolite, grunerite, and titanian magnetite, and later assemblages containing various combinations of siderite, hematite, magnetite, ferropyrosmalite, stilpnomelane, biotite, sphene, quartz, and apatite, which are most common in the upper part of the pipe. Fluid inclusions related to these alteration assemblages homogenize at 150° to 500°C and have salinities ... Text Kiruna Missouri University of Science and Technology (Missouri S&T): Scholars' Mine Kiruna Mercado ENVELOPE(-57.467,-57.467,-63.267,-63.267) Economic Geology 93 5 564 586
institution Open Polar
collection Missouri University of Science and Technology (Missouri S&T): Scholars' Mine
op_collection_id ftmissouriunivst
language unknown
topic fluorite
hydrothermal deposit
iron ore
South Africa
Geology
spellingShingle fluorite
hydrothermal deposit
iron ore
South Africa
Geology
Borrok, David M.
Kesler, Stephen E.
Boer, Rudolf H.
Essene, Eric J.
The Vergenoeg Magnetite-Fluorite Deposit, South Africa: Support for a Hydrothermal Model for Massive Iron Oxide Deposits
topic_facet fluorite
hydrothermal deposit
iron ore
South Africa
Geology
description Vergenoeg is a fluorite-bearing massive iron oxide deposit that is genetically related to granites of the Bushveld Complex. It consists of a pipe-shaped body containing primary fayalite, fluorite, apatite, ilmenite, and magnetite that cuts Rooiberg rhyolites and is surrounded by stratiform bodies of felsite and fragmental hematite-fluorite debris. With the exception of its abundant fluorite, Vergenoeg is similar to massive iron oxide deposits such as Kiruna, Pea Ridge, and Cerro Mercado, all of which are related to felsic magmatism. Models suggested for the origin of these deposits can be divided into those invoking separation of an immiscible iron oxide magma from the parent felsic magma and those invoking a hydrothermal solution. Vergenoeg is an excellent place to try to resolve this controversy because the primary fluorite permits study of inclusions of the fluid or magma that formed the ore. Fluorite at Vergenoeg lacks inclusions that might represent an immiscible iron-rich melt but contains abundant aqueous inclusions. Inclusion petrography, heating-freezing measurements, and gas analyses indicate that the primary mineral assemblage at Vergenoeg formed from a high-temperature (>500°C), high-salinity (>67 wt % NaCl equiv) fluid that coexisted with a vapor phase rich in CO2 . Stable isotope analyses of primary fayalite and titanian magnetite from deep in the Vergenoeg pipe yield calculated water compositions for these temperatures that are typical of magmatic water (δ 18O (H2O) = 7-8ppm at 500°C). Alteration of the primary fayalite-fluorite-ilmenite assemblage is widespread in the Vergenoeg pipe. It consists of an early assemblage containing ferroactinolite, grunerite, and titanian magnetite, and later assemblages containing various combinations of siderite, hematite, magnetite, ferropyrosmalite, stilpnomelane, biotite, sphene, quartz, and apatite, which are most common in the upper part of the pipe. Fluid inclusions related to these alteration assemblages homogenize at 150° to 500°C and have salinities ...
format Text
author Borrok, David M.
Kesler, Stephen E.
Boer, Rudolf H.
Essene, Eric J.
author_facet Borrok, David M.
Kesler, Stephen E.
Boer, Rudolf H.
Essene, Eric J.
author_sort Borrok, David M.
title The Vergenoeg Magnetite-Fluorite Deposit, South Africa: Support for a Hydrothermal Model for Massive Iron Oxide Deposits
title_short The Vergenoeg Magnetite-Fluorite Deposit, South Africa: Support for a Hydrothermal Model for Massive Iron Oxide Deposits
title_full The Vergenoeg Magnetite-Fluorite Deposit, South Africa: Support for a Hydrothermal Model for Massive Iron Oxide Deposits
title_fullStr The Vergenoeg Magnetite-Fluorite Deposit, South Africa: Support for a Hydrothermal Model for Massive Iron Oxide Deposits
title_full_unstemmed The Vergenoeg Magnetite-Fluorite Deposit, South Africa: Support for a Hydrothermal Model for Massive Iron Oxide Deposits
title_sort vergenoeg magnetite-fluorite deposit, south africa: support for a hydrothermal model for massive iron oxide deposits
publisher Scholars' Mine
publishDate 1998
url https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/438
https://doi.org/10.2113/gsecongeo.93.5.564
long_lat ENVELOPE(-57.467,-57.467,-63.267,-63.267)
geographic Kiruna
Mercado
geographic_facet Kiruna
Mercado
genre Kiruna
genre_facet Kiruna
op_source Geosciences and Geological and Petroleum Engineering Faculty Research & Creative Works
op_relation https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/438
https://doi.org/10.2113/gsecongeo.93.5.564
op_rights © 1998 Society of Economic Geologists, Inc, All rights reserved.
op_doi https://doi.org/10.2113/gsecongeo.93.5.564
container_title Economic Geology
container_volume 93
container_issue 5
container_start_page 564
op_container_end_page 586
_version_ 1766058405339856896

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