Genesis of monazite-rich, orthopyroxene-bearing veins in the Kliphoog area of the Concordia Granite, Springbok, Namaqualand, South Africa: Sources, fluids, and the mobility of actinides and REE

A network of monazite-rich, coarse-grained veins and fine-grained veins permeating the mid-Proterozoic Concordia Granite in the Kliphoog area near Springbok, Namaqualand, North Cape Province, South Africa, are described with respect to their whole-rock chemistry, petrography, mineralogy, and mineral...

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Published in:Lithos
Main Authors: Harlov, D., Ballouard, C., Elburg, M., Knoper, M., Wilke, F., Ning, W., Andreoli, M.
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
North Cape
Online Access:https://gfzpublic.gfz-potsdam.de/pubman/item/item_5003372
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spelling ftgfzpotsdam:oai:gfzpublic.gfz-potsdam.de:item_5003372 2023-05-15T17:38:00+02:00 Genesis of monazite-rich, orthopyroxene-bearing veins in the Kliphoog area of the Concordia Granite, Springbok, Namaqualand, South Africa: Sources, fluids, and the mobility of actinides and REE Harlov, D. Ballouard, C. Elburg, M. Knoper, M. Wilke, F. Ning, W. Andreoli, M. 2020 https://gfzpublic.gfz-potsdam.de/pubman/item/item_5003372 eng eng info:eu-repo/semantics/altIdentifier/doi/10.1016/j.lithos.2020.105762 https://gfzpublic.gfz-potsdam.de/pubman/item/item_5003372 Lithos info:eu-repo/semantics/article 2020 ftgfzpotsdam https://doi.org/10.1016/j.lithos.2020.105762 2022-09-14T05:57:43Z A network of monazite-rich, coarse-grained veins and fine-grained veins permeating the mid-Proterozoic Concordia Granite in the Kliphoog area near Springbok, Namaqualand, North Cape Province, South Africa, are described with respect to their whole-rock chemistry, petrography, mineralogy, and mineral chemistry along with zircon and monazite geochronology. Chondrite-normalized trace element data indicate that the coarse-grained veins are enriched in LREE relative to the Concordia Granite with HREE enrichment being somewhat variable. HREE in altered Concordia Granite, at the contact with the coarse-grained vein, are heavily depleted compared to unaltered Concordia Granite while the LREE show the same approximate abundances. Chloritization is common in the coarse-grained veins along mineral grain boundaries with chlorite replacing most of the orthopyroxene megacrysts, though occasional remnants of orthopyroxene remain in the core. A traverse across one of the coarse-grained veins showed no obvious mineral chemical trends between the vein and surrounding granite. Relic Fe-rich megacryst orthopyroxene has an Al2O3 content of around 2.0 wt% suggesting formation at around 700 °C. The Fe-rich biotite has mean Ti values ranging from TiO2 = 4.1 to 1.2 wt% indicating formation at 700–800 °C. The coarse-grained veins and fine-grained veins are characterized by abundant accessory Th-rich monazite, heterogeneously distributed in the veins. Lesser amounts of monazite are found in the granite. Other accessory minerals in the veins and granite include zircon and rare fluorapatite. Back-scattered electron imaging shows that the anhedral to euhedral monazite grains (up to more than 1500 μm in size) tend to be complexly zoned with light and dark areas. Lighter areas are more enriched in Th and/or Ce than darker areas. This complex zoning can occur as magmatic/sector zoning and more commonly as a complex series of metasomatic alteration events. Metasomatic textures, which are due to variable fluid-induced mobility of Th, U, and REE, ... Article in Journal/Newspaper North Cape GFZpublic (German Research Centre for Geosciences, Helmholtz-Zentrum Potsdam) North Cape ENVELOPE(165.700,165.700,-70.650,-70.650) Lithos 376-377 105762
institution Open Polar
collection GFZpublic (German Research Centre for Geosciences, Helmholtz-Zentrum Potsdam)
op_collection_id ftgfzpotsdam
language English
description A network of monazite-rich, coarse-grained veins and fine-grained veins permeating the mid-Proterozoic Concordia Granite in the Kliphoog area near Springbok, Namaqualand, North Cape Province, South Africa, are described with respect to their whole-rock chemistry, petrography, mineralogy, and mineral chemistry along with zircon and monazite geochronology. Chondrite-normalized trace element data indicate that the coarse-grained veins are enriched in LREE relative to the Concordia Granite with HREE enrichment being somewhat variable. HREE in altered Concordia Granite, at the contact with the coarse-grained vein, are heavily depleted compared to unaltered Concordia Granite while the LREE show the same approximate abundances. Chloritization is common in the coarse-grained veins along mineral grain boundaries with chlorite replacing most of the orthopyroxene megacrysts, though occasional remnants of orthopyroxene remain in the core. A traverse across one of the coarse-grained veins showed no obvious mineral chemical trends between the vein and surrounding granite. Relic Fe-rich megacryst orthopyroxene has an Al2O3 content of around 2.0 wt% suggesting formation at around 700 °C. The Fe-rich biotite has mean Ti values ranging from TiO2 = 4.1 to 1.2 wt% indicating formation at 700–800 °C. The coarse-grained veins and fine-grained veins are characterized by abundant accessory Th-rich monazite, heterogeneously distributed in the veins. Lesser amounts of monazite are found in the granite. Other accessory minerals in the veins and granite include zircon and rare fluorapatite. Back-scattered electron imaging shows that the anhedral to euhedral monazite grains (up to more than 1500 μm in size) tend to be complexly zoned with light and dark areas. Lighter areas are more enriched in Th and/or Ce than darker areas. This complex zoning can occur as magmatic/sector zoning and more commonly as a complex series of metasomatic alteration events. Metasomatic textures, which are due to variable fluid-induced mobility of Th, U, and REE, ...
format Article in Journal/Newspaper
author Harlov, D.
Ballouard, C.
Elburg, M.
Knoper, M.
Wilke, F.
Ning, W.
Andreoli, M.
spellingShingle Harlov, D.
Ballouard, C.
Elburg, M.
Knoper, M.
Wilke, F.
Ning, W.
Andreoli, M.
Genesis of monazite-rich, orthopyroxene-bearing veins in the Kliphoog area of the Concordia Granite, Springbok, Namaqualand, South Africa: Sources, fluids, and the mobility of actinides and REE
author_facet Harlov, D.
Ballouard, C.
Elburg, M.
Knoper, M.
Wilke, F.
Ning, W.
Andreoli, M.
author_sort Harlov, D.
title Genesis of monazite-rich, orthopyroxene-bearing veins in the Kliphoog area of the Concordia Granite, Springbok, Namaqualand, South Africa: Sources, fluids, and the mobility of actinides and REE
title_short Genesis of monazite-rich, orthopyroxene-bearing veins in the Kliphoog area of the Concordia Granite, Springbok, Namaqualand, South Africa: Sources, fluids, and the mobility of actinides and REE
title_full Genesis of monazite-rich, orthopyroxene-bearing veins in the Kliphoog area of the Concordia Granite, Springbok, Namaqualand, South Africa: Sources, fluids, and the mobility of actinides and REE
title_fullStr Genesis of monazite-rich, orthopyroxene-bearing veins in the Kliphoog area of the Concordia Granite, Springbok, Namaqualand, South Africa: Sources, fluids, and the mobility of actinides and REE
title_full_unstemmed Genesis of monazite-rich, orthopyroxene-bearing veins in the Kliphoog area of the Concordia Granite, Springbok, Namaqualand, South Africa: Sources, fluids, and the mobility of actinides and REE
title_sort genesis of monazite-rich, orthopyroxene-bearing veins in the kliphoog area of the concordia granite, springbok, namaqualand, south africa: sources, fluids, and the mobility of actinides and ree
publishDate 2020
url https://gfzpublic.gfz-potsdam.de/pubman/item/item_5003372
long_lat ENVELOPE(165.700,165.700,-70.650,-70.650)
geographic North Cape
geographic_facet North Cape
genre North Cape
genre_facet North Cape
op_source Lithos
op_relation info:eu-repo/semantics/altIdentifier/doi/10.1016/j.lithos.2020.105762
https://gfzpublic.gfz-potsdam.de/pubman/item/item_5003372
op_doi https://doi.org/10.1016/j.lithos.2020.105762
container_title Lithos
container_volume 376-377
container_start_page 105762
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