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Scheepers, R., O'Brien, R.D., Schoch, A.E. (2017) An occurrence of bavenite in the Cape Granite Suite, southwestern Cape Province, South Africa, and its implication on the formation of the host pegmatite. South African Journal of Geology, 120 (2) 223-230 doi:10.25131/gssajg.120.2.223

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Reference TypeJournal (article/letter/editorial)
TitleAn occurrence of bavenite in the Cape Granite Suite, southwestern Cape Province, South Africa, and its implication on the formation of the host pegmatite
JournalSouth African Journal of Geology
AuthorsScheepers, R.Author
O'Brien, R.D.Author
Schoch, A.E.Author
Year2017 (June 1)Volume120
Issue2
PublisherGeological Society of South Africa
DOIdoi:10.25131/gssajg.120.2.223Search in ResearchGate
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Mindat Ref. ID506799Long-form Identifiermindat:1:5:506799:6
GUID0
Full ReferenceScheepers, R., O'Brien, R.D., Schoch, A.E. (2017) An occurrence of bavenite in the Cape Granite Suite, southwestern Cape Province, South Africa, and its implication on the formation of the host pegmatite. South African Journal of Geology, 120 (2) 223-230 doi:10.25131/gssajg.120.2.223
Plain TextScheepers, R., O'Brien, R.D., Schoch, A.E. (2017) An occurrence of bavenite in the Cape Granite Suite, southwestern Cape Province, South Africa, and its implication on the formation of the host pegmatite. South African Journal of Geology, 120 (2) 223-230 doi:10.25131/gssajg.120.2.223
In(2017, June) South African Journal of Geology Vol. 120 (2) Geological Society of South Africa
Abstract/NotesAbstract
Bavenite, (Ca4[(Al,Be)4(Si9(O,OH)26-n)](OH)2+n), is present in a pegmatite of the Paarl Pluton, a metaluminous I-type granite of Late Precambrian age. We are not aware of any other previous description of a beryllium mineral occurrence in the Cape Granite Suite. The pegmatite consists essentially of quartz and microcline microperthite together with albite, calcite and fluorite. A hydrothermal alteration assemblage of epidote, chlorite and bavenite occurs in vugs and veins within the pegmatite. Stilbite, which is stable below 170ºC, is also present, but not texturally related to the alteration assemblage.
Microthermometric analyses and mineral chemistry of associated minerals elucidate the conditions of formation for the bavenite. According to primary fluid inclusions in the cores of euhedral quartz, the minimum temperature of crystallization of the pegmatite is 450ºC. Homogenization temperatures of later fluids indicate a minimum temperature of 210ºC for the main hydrothermal event. Chlorite geothermometry yields crystallization temperatures around 320ºC. The bavenite formed between 210ºC and 320ºC, at a pressure of less than 2 kbar.

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Scheepers, R., O'Brien, R.D., Schoch, A.E. (2017) An occurrence of bavenite in the Cape Granite Suite, southwestern Cape Province, South Africa, and its implication on the formation of the host pegmatite. South African Journal of Geology: 120(2): 223–230.
Schoch, A.E.; Scheepers, R. (1990) The distribution of uranium and thorium in the cape columbine granite from the southwestern cape province, South Africa. Ore Geology Reviews, 5 (3). doi:10.1016/0169-1368(90)90012-c
Schoch, A.E., Scheepers, R. (2017) The Saldanha Bay Volcanic Complex: Clarifying the Cambrian geology of the Postberg-Saldanha area, West Coast, South Africa: Comment. South African Journal of Geology, 120 (2) 271-272 doi:10.25131/gssajg.120.2.271
Scheepers, R., Nortjé, A.N. (2000) Rhyolitic ignimbrites of the Cape Granite Suite, southwestern Cape Province, South Africa. Journal of African Earth Sciences, 31 (3) 647-656 doi:10.1016/s0899-5362(00)80012-3
Browning, C., Reid, M. (2017) Lithostratigraphy of the Kweekvlei Formation (Witteberg Group), Cape Supergroup. South African Journal of Geology, 120 (3) 421-432 doi:10.25131/gssajg.120.3.421
BROWNING, C., MACEY, P.H. (2015) LITHOSTRATIGRAPHY OF THE GEORGE PLUTON UNITS (CAPE GRANITE SUITE), SOUTH AFRICA. South African Journal of Geology, 118 (3) 323-330 doi:10.2113/gssajg.118.3.323
ROELOFSE, T., ROELOFSE, F. (2011) ON THE OCCURRENCE OF LOUGHLINITE (Na-SEPIOLITE) IN PANS OF THE NORTHERN CAPE PROVINCE, SOUTH AFRICA. South African Journal of Geology, 114 (2) 201-206 doi:10.2113/gssajg.114.2.201
HARRIS, C., VOGELI, J. (2010) OXYGEN ISOTOPE COMPOSITION OF GARNET IN THE PENINSULA GRANITE, CAPE GRANITE SUITE, SOUTH AFRICA: CONSTRAINTS ON MELTING AND EMPLACEMENT MECHANISMS. South African Journal of Geology, 113 (4) 401-412 doi:10.2113/gssajg.113.4.401
Braun, K., Bar-Matthews, M., Ayalon, A., Zilberman, T., Matthews, A. (2017) Rainfall isotopic variability at the intersection between winter and summer rainfall regimes in coastal South Africa (Mossel Bay, Western Cape Province) South African Journal of Geology, 120 (3) 323-340 doi:10.25131/gssajg.120.3.323
Jones, M.Q.W. (2017) Anomalous geothermal gradients and heat flow in the Limpopo Province, South Africa: Implications for geothermal energy exploration. South African Journal of Geology, 120 (2) 231-240 doi:10.25131/gssajg.120.2.231
Blignault, H.J., Theron, J.N. (2017) Diapirism and the Fold Zone controversy of the Ordovician glaciomarine Pakhuis Formation, South Africa. South African Journal of Geology, 120 (2) 209-222 doi:10.25131/gssajg.120.2.209
 
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