Draft:Bushveld Igneous Complex

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Declined by Robert McClenon 6 hours ago. Last edited by Citation bot 4 seconds ago. Reviewer: Inform author.

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Comment: It appears that this draft is information to be added to the existing article. Articles for Creation is used for review of new articles, not additions to articles. Additions to articles are discussed and added by normal editing. Please discuss on the article talk page,Talk:Bushveld Igneous Complex. Robert McClenon (talk) 19:12, 13 November 2024 (UTC)

BIC

This shall become a subsection of the “Bushveld Igneous Complex” Lemma

Structures

Faults and Shear Structures of The Bushveld Igneous Complex

The Bushveld Igneous Complex (BIC) contains several shear zones, some are within known faults, the most important of which are the Jagersfontein Shear Zone (JSZ), the Klerksdorp Shear Zone (KSZ), the Potgietersrus Shear Zone (PSZ), the Thabazimbi-Murchison Lineament (TML), the Brits Shear Zone (BSZ), the Olifants River Shear Zone (ORSZ) and the Steelpoort Shear Zone (SSZ).

These shear structures control several factors and have major geological implications within the Bushveld Igneous Complex, including structural, mineralogical, tectonic, metamorphic and economic. Some structural controls include the direction and flow of magma and intrusions, structural traps for mineralization and the structural evolution of the complex. Mineralization controls the Platinum Group Elements (PGEs) and Platinum Group Metals (PGMs), chromium, copper, nickel, gold and vanadium concentrates, reef formation and orientation, and affect the type of mineralization, for example magmatic and hydrothermal deposits.^[1]^[2] Tectonic controls and effects can be seen or indicated by stratigraphic and crustal thickening and thinning, record of tectonic activity by type of structure such as collision and rifting, and influence on the evolution of the BIC. Metamorphic controls are localised metamorphism and alteration in shear zones, they affect mineral formation and stability, and they may show evidence of pressure-temperature-time (P-T-T) paths.^[3] Economic controls include, mineral deposits, they help to guide mining and exploration and with resource and reserve estimation and extraction.

Eastern Lobe

The eastern lobe of the Bushveld Complex is comprised of three distinct zones, each of which is separated from the others by structural boundaries. The southern and central zones are separated by the Steelpoort Fault. The eastern lobe is further subdivided by the presence of the Stofpoort and Wonderkop Faults, which serve to differentiate the northeast from the central zone. The Stofpoort Fault is situated in close proximity to the Olifants River. The western zone is separated from the remainder of the region by two anticlines, namely the Katloof and Phosiri.^[4]

The Merensky Reef has been displaced by 2 km to the south in the vicinity of Zebediela, as a consequence of the Madika Fault. The Madika Fault is sub-parallel to the Wonderkop Fault, which is located in the Bojanala Platinum District Municipality in the vicinity of the town of Wonderkop. The critical zone of the Rustenburg Layered Suite is displaced 500 m to the south by the Makweng Fault.^[4]

The Sekhukhune Fault trends in a north-south direction and has a throw of up to 2 km to the west. The Sekhukhune Fault is situated to the east of the Fortdraai Anticline. The Laersdrift Fault is located to the NW of the eastern Bushveld Complex.^[5]

Western Lobe

The Pilanesberg Complex is situated in the western lobe of the Bushveld Complex. The southern part of the Pilanesberg Complex exhibits NW–SE isopach lines that trend parallel to the Rustenburg Fault, which dips in the same direction towards the center of the Western Bushveld Complex.^[5]

Southern Lobe

The Brits Graben is situated in the eastern region, in close proximity to Hartebeespoort. This Graben is delimited by a series of parallel faults, among which the most prominent is the Brits Fault, which trends NW–SE and intersects the Rustenburg Layered Suite, the Transvaal Supergroup and the Pretoria Group.^[5] The BSZ is NW–SE trending and is located within the Brits Fault.

Northern Lobe

The NE–SW trending Ysterberg–Planknek Fault (YPF) is situated within the northern lobe of the Bushveld Complex. An additional ENE–WSW trending fault is situated within the northern lobe and is designated the Grasvally Fault.^[5]

The boundary between the northern and southern lobes is defined by the Melinda Fault, which dips to the west and is situated within the Pietersburg terrane. The Melinda Fault extends in an eastern direction along the Palala Shear Zone (PSZ). This Fault and the PSZ are collectively designated as the Palala-Zoetfontein Lineament.^[6]

The TML represents the boundary between the southern portion of the Northern Limb and the remainder of the Bushveld. It demarcates the boundary between the Pietersburg terrane and the central portion of the Kaapvaal Craton.^[6] In general, the TML is a large EW trending shear zone that forms a boundary between the Bushveld Complex and the Limpopo Belt and is 20 and 30 km wide. The JSZ is located within the TML, it trends NE–SW and is between 10 and 15 km wide. The KSZ runs parallel to the JSZ, trends NS and can be up to 10 km thick in places, while the PSZ is located in the northern part of the BIC, trends EW and can be 5–10 km wide.

Two distinct fault orientations have been identified within the Pietersburg terrane: a NE–SW orientation and an ENE–WSW orientation. The most conspicuous faults with these orientations are the YPF and the Zebediela Faults.^[6]

Mineralization within Shear Zones

Different mineral occurrences are more strongly associated in the BIC^[3] in specific shear zones. PGEs are generally associated with the Jagersfontein, Klerksdorp and Potgietersrus shear zones and the Thabazimbi-Murchison lineament, chromium with the Rustenburg Layered Suites (RLS) critical zone and the TML, and gold with the Jagersfontein and Klerksdorp shear zones. Vanadium deposits are associated with the vanadium-rich magnetite deposits of the Bushveld, such as the TML, some of which may be associated with shear zones, and copper and nickel deposits, which often occur together in the same deposit, are associated with mafic and ultramafic intrusions and shear zones, such as the JSZ.

References

^ Micklethwaite, Steven; Sheldon, Heather A.; Baker, Timothy (2010). "Active fault and shear processes and their implications for mineral deposit formation and discovery". Journal of Structural Geology. 32 (2): 151–165. Bibcode:2010JSG....32..151M. doi:10.1016/j.jsg.2009.10.009. ISSN 0191-8141.
^ Klemd, Reiner; Beinlich, Andreas; Kern, Matti; Junge, Malte; Martin, Laure; Regelous, Marcel; Schouwstra, Robert (2020-06-25). "Magmatic PGE Sulphide Mineralization in Clinopyroxenite from the Platreef, Bushveld Complex, South Africa". Minerals. 10 (6): 570. Bibcode:2020Mine...10..570K. doi:10.3390/min10060570. ISSN 2075-163X.
^ ^a ^b "PorterGeo Database - Ore Deposit Description". portergeo.com.au. Retrieved 2024-10-10.
^ ^a ^b Lea, S.D. (1996). "The geology of the Upper Critical Zone, northeastern Bushveld Complex". South African Journal of Geology. 99 (3): 263–283.
^ ^a ^b ^c ^d Bamisaiye, O.A.; Eriksson, P.G.; Van Rooy, J.L.; Brynard, H.M.; Foya, S.; Billay, A.Y.; Nxumalo, V. (2017). "Subsurface mapping of Rustenburg Layered Suite (RLS), Bushveld Complex, South Africa: Inferred structural features using borehole data and spatial analysis". Journal of African Earth Sciences. 132: 139–167. Bibcode:2017JAfES.132..139B. doi:10.1016/j.jafrearsci.2017.05.003. hdl:2263/61117. ISSN 1464-343X.
^ ^a ^b ^c Brits, J. A. N.; Grobler, D. F.; Crossingham, A.; Blenkinsop, T. G.; Maier, W. D. (2024). "Structural context of the Flatreef in the Northern Limb of the Bushveld Complex". Mineralium Deposita. Bibcode:2024MinDe.tmp...67B. doi:10.1007/s00126-024-01289-w. ISSN 1432-1866.{{cite journal}}: CS1 maint: bibcode (link)

[1] Micklethwaite, Steven; Sheldon, Heather A.; Baker, Timothy (2010). "Active fault and shear processes and their implications for mineral deposit formation and discovery". Journal of Structural Geology. 32 (2): 151–165. Bibcode:2010JSG....32..151M. doi:10.1016/j.jsg.2009.10.009. ISSN 0191-8141.

[2] Klemd, Reiner; Beinlich, Andreas; Kern, Matti; Junge, Malte; Martin, Laure; Regelous, Marcel; Schouwstra, Robert (2020-06-25). "Magmatic PGE Sulphide Mineralization in Clinopyroxenite from the Platreef, Bushveld Complex, South Africa". Minerals. 10 (6): 570. Bibcode:2020Mine...10..570K. doi:10.3390/min10060570. ISSN 2075-163X.

[:PorterGeo-3] "PorterGeo Database - Ore Deposit Description". portergeo.com.au. Retrieved 2024-10-10.

[:Lea-4] Lea, S.D. (1996). "The geology of the Upper Critical Zone, northeastern Bushveld Complex". South African Journal of Geology. 99 (3): 263–283.

[:Bamisaiye-5] Bamisaiye, O.A.; Eriksson, P.G.; Van Rooy, J.L.; Brynard, H.M.; Foya, S.; Billay, A.Y.; Nxumalo, V. (2017). "Subsurface mapping of Rustenburg Layered Suite (RLS), Bushveld Complex, South Africa: Inferred structural features using borehole data and spatial analysis". Journal of African Earth Sciences. 132: 139–167. Bibcode:2017JAfES.132..139B. doi:10.1016/j.jafrearsci.2017.05.003. hdl:2263/61117. ISSN 1464-343X.

[:Brits-6] Brits, J. A. N.; Grobler, D. F.; Crossingham, A.; Blenkinsop, T. G.; Maier, W. D. (2024). "Structural context of the Flatreef in the Northern Limb of the Bushveld Complex". Mineralium Deposita. Bibcode:2024MinDe.tmp...67B. doi:10.1007/s00126-024-01289-w. ISSN 1432-1866.{{cite journal}}: CS1 maint: bibcode (link)

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