Drakensberg Group

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Drakensberg Group
Stratigraphic range: Lower Jurassic
~182–180  Ma
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Type Geologic group
Sub-unitsBarkly East Formation, Lesotho Formation
Overlies Stormberg Group
Thicknessup to 22,965.88 feet (7,000 m)
Lithology
Primary Basalt
Location
Region Eastern Cape, KwaZulu-Natal, Free State, and Lesotho
CountryFlag of South Africa.svg  South Africa Flag of Lesotho.svg  Lesotho
Type section
Named forDrakensberg mountains
Geology of Karoo Supergroup.png
A simplified geological map of the outcrops of Karoo Supergroup rocks in Southern Africa. The Drakensberg Group is represented by the blue key on the map.

The Drakensberg Group is a geological group named after the Drakensberg mountain range where in its uppermost sections the rocks are found. The Drakensberg Group lies over most of Lesotho and localities in the Eastern Cape, KwaZulu-Natal, and Free State provinces of South Africa. It forms part of the greater Karoo Igneous Province, which occurs over an extensive area of southern Africa. [1]

Contents

Steep, fluted Drakensberg basalt (not dolerite) with typical uniform, vertical crack-lines, deposited on cave sandstone of the Clarens formation along the western limit of Platberg, Harrismith, Free State Platberg, basalt op sandsteen.jpg
Steep, fluted Drakensberg basalt (not dolerite) with typical uniform, vertical crack-lines, deposited on cave sandstone of the Clarens formation along the western limit of Platberg, Harrismith, Free State

Background

Diagram detailing how a large igneous province is formed Mantle Plume.jpg
Diagram detailing how a large igneous province is formed

The Drakensberg Group was formed approximately 182 million years ago during the early Jurassic period. [2] Rifting tectonics in response to the breakup of the supercontinent Gondwana are believed to have been the cause for the formation of the Drakensberg Group. [3] Networks of hyperbyssal (shallow intrusives) dikes and sills represent the conduits through the crust that brought basaltic and andesitic lava to the surface, and caused the formation of the extrusive flood basalts of the Drakensberg Group. [4] The dikes and sills are preserved throughout the Karoo Basin, and have served as a weathering barrier for much of the Karoo Supergroup rocks. [5] [6]

The Drakensberg Group comprises minor sedimentary (ie. sandstones, lapilli deposits, pyroclastic deposits, and igneous (ie. continental flood basalt/andesite sequences, shallow intrusive dikes and sills, and diatremes) and is part of the greater volcanic extrusive rock sequences of the Karoo Igneous Province. [7] In its entirety, the Karoo Igneous Province represents a vast suite of sedimentary, extrusive and intrusive rocks ranging from 200 - 130 million years in age. Past studies have shown that there are major geochemical changes in the provinces from the north and the south. The provinces of the central to southern areas are composed of Titanium - Zirconium low (Ti-Zr) tholeiitic basalt, and andesitic compositions also occur. [8] [9]

The Drakensberg Group has been subdivided into two recognized geological formations. While both formations are composed of tholeiitic basalt, they have minor geochemical differences. The two formations are listed below (from oldest to youngest):

Geographic extent

The Drakensberg Group lavas compose the upper levels of the entire Drakensberg mountain range. The lavas stretch out over most of Lesotho and into the northeastern Eastern Cape, the southern Free State, and eastern KwaZulu-Natal provinces of South Africa. Basalt provinces of the same low Ti-Zr chemical composition as the Drakensberg lavas are found in the Springbok Flats province in Limpopo, and other basalt sub-outcrops are found in eastern Botswana and central Namibia. These occurrences suggest that the Drakensberg Group lavas once covered a vast area over southern Africa. In addition, basalt xenoliths of the same chemical structure as the Drakensberg lavas have been found in the Northern Cape within Cretaceous-aged kimberlite pipes (~ 90 Ma) that intruded older rocks of the Karoo Supergroup. [10] In the Lesotho highlands and the highest sections of the Drakensberg mountain range, only erosional remnants of the Drakensberg lavas remain. [11]

Correlation

The Drakensberg Group is part of the greater Mesozoic-aged Karoo Igneous Province of southern Africa and the Ferrar Large Igneous Province of Antarctica (Karoo-Ferrar). The Kirwan basalts of Antarctica particularly resemble the Drakensberg Group, because Antarctica was close to the southern Lebombo province before the break up of Gondwana. [12] The Drakensberg basalts are geochemically identical to the Springbok Flats volcanics. It was thought for some time that the Drakensberg volcanics were associated with the Parana Igneous Province of Brazil [13] and the Etendeka Province in northern Namibia. [14] However, these provinces have since been dated some 50 million years younger than the Karoo-Ferrar provinces. [15]

Related Research Articles

Basalt Magnesium- and iron-rich extrusive igneous rock

Basalt is an aphanitic extrusive igneous rock formed from the rapid cooling of low-viscosity lava rich in magnesium and iron exposed at or very near the surface of a rocky planet or moon. More than 90% of all volcanic rock on Earth is basalt. Rapid-cooling, fine-grained basalt is chemically equivalent to slow-cooling, coarse-grained gabbro. The eruption of basalt lava is observed by geologists at about 20 volcanoes per year. Basalt is also an important rock type on other planetary bodies in the Solar System. For example, the bulk of the plains of Venus, which cover ~80% of the surface, are basaltic; the lunar maria are plains of flood-basaltic lava flows; and basalt is a common rock on the surface of Mars.

Rhyolite Igneous, volcanic rock, of felsic (silica-rich) composition

Rhyolite is the most silica-rich of volcanic rocks. It is generally glassy or fine-grained (aphanitic) in texture, but may be porphyritic, containing larger mineral crystals (phenocrysts) in an otherwise fine-grained groundmass. The mineral assemblage is predominantly quartz, sanidine, and plagioclase. It is the extrusive equivalent to granite.

Drakensberg Mountain range in South Africa

The Drakensberg is the eastern portion of the Great Escarpment, which encloses the central Southern African plateau. The Great Escarpment reaches its greatest elevation – 2,000 to 3,482 metres within the border region of South Africa and Lesotho.

Flood basalt The result of a very large volume eruption of basalt lava

A flood basalt is the result of a giant volcanic eruption or series of eruptions that covers large stretches of land or the ocean floor with basalt lava. Many flood basalts have been attributed to the onset of a hotspot reaching the surface of the earth via a mantle plume. Flood basalt provinces such as the Deccan Traps of India are often called traps, after the Swedish word trappa, due to the characteristic stairstep geomorphology of many associated landscapes.

Large igneous province Huge regional accumulation of igneous rocks

A large igneous province (LIP) is an extremely large accumulation of igneous rocks, including intrusive and extrusive, arising when magma travels through the crust towards the surface. The formation of LIPs is variously attributed to mantle plumes or to processes associated with divergent plate tectonics. The formation of some of the LIPs in the past 500 million years coincide in time with mass extinctions and rapid climatic changes, which has led to numerous hypotheses about causal relationships. LIPs are fundamentally different from any other currently active volcanoes or volcanic systems.

Karoo Supergroup Widespread Mesozoic stratigraphic unit in southern Africa

The Karoo Supergroup is the most widespread stratigraphic unit in Africa south of the Kalahari Desert. The supergroup consists of a sequence of units, mostly of nonmarine origin, deposited between the Late Carboniferous and Early Jurassic, a period of about 120 million years.

The Karoo and Ferrar Large Igneous Provinces (LIPs) are two large igneous provinces in Southern Africa and Antarctica respectively, collectively known as the Karoo-Ferrar, Gondwana, or Southeast African LIP, associated with the initial break-up of the Gondwana supercontinent at c.183Ma. Its flood basalt mostly covers South Africa and Antarctica but portions extend further into southern Africa and into South America, India, Australia and New Zealand.

Clarens Formation Geological formation of the Stormberg Group in southern Africa

The Clarens Formation is a geological formation found in several localities in Lesotho and in the Free State, KwaZulu-Natal, and Eastern Cape provinces in South Africa. It is the uppermost of the three formations found in the Stormberg Group of the greater Karoo Supergroup rocks and represents the final phase of preserved sedimentation of the Karoo Basin.

Batoka Formation

The Batoka Formation is a geological formation in the Zambezi valley in Botswana, Zambia and Zimbabwe. It is predominantly a volcanic unit comprising mainly basalts. It was formerly thought to contain sand stones containing the dinosaur Vulcanodon, however this was shown to be in error resulting from interpreting folding of the rocks as separate layers, with the sandstone layers actually being from the underlying Forest Sandstone.

Volcanism of Northern Canada History of volcanic activity in Northern Canada

Volcanism of Northern Canada has produced hundreds of volcanic areas and extensive lava formations across Northern Canada. The region's different volcano and lava types originate from different tectonic settings and types of volcanic eruptions, ranging from passive lava eruptions to violent explosive eruptions. Northern Canada has a record of very large volumes of magmatic rock called large igneous provinces. They are represented by deep-level plumbing systems consisting of giant dike swarms, sill provinces and layered intrusions.

Igneous rock Rock formed through the cooling and solidification of magma or lava

Igneous rock, or magmatic rock, is one of the three main rock types, the others being sedimentary and metamorphic. Igneous rock is formed through the cooling and solidification of magma or lava.

Stormberg Group Triassic/Jurassic geological group in the Karoo Supergroup in South Africa

The Stormberg Group is one of the four geological groups that comprises the Karoo Supergroup in South Africa. It is the uppermost geological group representing the final phase of preserved sedimentation of the Karoo Basin. The Stormberg Group rocks are considered to range between Lower Triassic (Olenekian) to Lower Jurassic (Pliensbachian) in age. These estimates are based on means of geological dating including stratigraphic position, lithostratigraphic and biostratigraphic correlations, and palynological analyses.

Geology of Uruguay

The geology of Uruguay combines areas of Precambrian-aged shield units with a region of volcanic rock erupted during the Cretaceous and copious sedimentary facies the oldest of which date from the Devonian. Big events that have shaped the geology of Uruguay include the Transamazonian orogeny, the breakup of Rodinia and the opening of the South Atlantic.

Lesotho Highlands Natural region in Lesotho

The Lesotho Highlands are formed by the Drakensberg and Maloti mountain ranges in the east and central parts of the country of Lesotho. Foothills form a divide between the lowlands and the highlands. Snow is common in the highlands in the winter.

Okavango Dyke Swarm

The Okavango Dyke Swarm is a giant dyke swarm of the Karoo Large Igneous Province in northeast Botswana, southern Africa. It consists of a group of Proterozoic and Jurassic dykes, trending east-southeast across Botswana, spanning a region nearly 2,000 kilometres (1,200 mi) long and 110 kilometres (68 mi) wide. The Jurassic dykes were formed approximately 179 million years ago, composed of mainly tholeiitic mafic rocks. The formation is related to the magmatism at the Karoo triple junction, induced by the plate tectonic break up of the Gondwana supercontinent in the early Jurassic.

The Chon Aike Formation is an extensive geological formation, present in the Deseado Massif in north-central Santa Cruz Province, Patagonia, Argentina. It covers an area of approximately 100,000 square kilometres (39,000 sq mi) and consists of rhyolitic volcanic rocks, particularly ignimbrites and lavas, with smaller amounts of agglomerates and tuffs. Within dacitic rocks, plant fossils have been found.

The geology of Lesotho is built on ancient crystalline basement rock up to 3.6 billion years old, belonging to the Kaapvaal Craton, a section of stable primordial crust. Most of the rocks in the country are sedimentary or volcanic units, belonging to the Karoo Supergroup. The country is notable for large fossil deposits and intense erosion due to high rainfall and a rare case of southern African glaciation during the last ice age. Lesotho has extensive diamonds and other natural resources and has the highest concentration of kimberlite pipes anywhere in the world.

The geology of Eswatini formed beginning 3.6 billion years ago, in the Archean Eon of the Precambrian. Eswatini is the only country entirely underlain by the Kaapvaal Craton, one of the oldest pieces of stable continental crust and the only craton regarded as "pristine" by geologists, other than the Yilgarn Craton in Australia. As such, the country has very ancient granite, gneiss and in some cases sedimentary rocks from the Archean into the Proterozoic, overlain by sedimentary rocks and igneous rocks formed during the last 541 million years of the Phanerozoic as part of the Karoo Supergroup. Intensive weathering has created thick zones of saprolite and heavily weathered soils.

Mawson Formation

The Mawson Formation is a geological formation in Antarctica, dating to roughly between 182-177 million years ago and covering the Toarcian stages of the Jurassic Period in the Mesozoic Era. Vertebrate remains are known from the formation. The Mawson Formation is the South Victoria Land equivalent of the Karoo Large Igneous Province in South Africa, as well the Lonco Trapial Formation and the Cañadón Asfalto Formation of Argentina.

Madagascar flood basalt

The Madagascar flood basalt, also known as the Madagascar large igneous province (LIP), is one of the major magmatic events of the Late Cretaceous. They cover a large area of basaltic and rhyolitic lava flows that erupted during an episode of widespread basaltic volcanism during the Cretaceous period. The flood basalts are characterized by lava flows, dykes, sills, and intrusions, and other volcanic features include plugs, scoria, and spatter cones. Tholeiitic basalt constitutes the primary rock type.

References

  1. Erlank, A.J. ed., 1984. Petrogenesis of the Volcanic Rocks of the Karoo Province: National Geodynamics Programme Sponsored by the South African Council for Scientific and Industrial Research. Geological Society of South Africa.
  2. Miller, J. A.; Fitch, F. J. "Dating Karoo igneous rocks by the conventional K-Ar and 40Ar/39Ar age spectrum methods".{{cite journal}}: Cite journal requires |journal= (help)
  3. Johnson, M.R.; Vuuren, C.J. Van; Visser, J.N.J.; Cole, D.I.; Wickens, H. De V.; Christie, A.D.M.; Roberts, D.L. (1997). "Chapter 12 the foreland karoo basin, south africa". African Basins. Sedimentary Basins of the World. Vol. 3. pp. 269–317. doi:10.1016/S1874-5997(97)80015-9. ISBN   9780444825711.
  4. Cox, K. G. (1988). "The Karoo Province". Continental Flood Basalts. Petrology and Structural Geology. Vol. 3. pp. 239–271. doi:10.1007/978-94-015-7805-9_7. ISBN   978-90-481-8458-3.
  5. Lock, B.E., Paverd, A.L. & Broderick T.J. (1 May 1974). "Stratigraphy of the Karroo volcanic rocks in the Barkly East District". South African Journal of Geology. 77 (2): 117–129. hdl:10520/AJA10120750_343.
  6. Duncan, R. A.; Hooper, P. R.; Rehacek, J.; Marsh, J. S.; Duncan, A. R. (1997-08-10). "The timing and duration of the Karoo igneous event, southern Gondwana". Journal of Geophysical Research: Solid Earth. 102 (B8): 18127–18138. Bibcode:1997JGR...10218127D. doi: 10.1029/97JB00972 .
  7. Eales, H.V., Marsh, J.S. and Cox, K.G., 1984. The Karoo igneous province: an introduction. In Petrogenesis of the volcanic rocks of the Karoo Province (Vol. 13, pp. 1-26). Geological Society of South Africa Special Publication 13.
  8. Marsh, J.S; Eales, H. V. (1984). "The chemistry and petrogenesis of igneous rocks of the Karoo Central Area, Southern Africa". The Chemistry and Petrogenesis of Igneous Rocks of the Karoo Central Area, Southern Africa (13): 26–67. hdl:10962/133934. INIST:6519911.
  9. Visser, J. N. J. (1984). "A review of the Stormberg Group and Drakensberg volcanics in southern Africa". hdl:10539/16136.{{cite journal}}: Cite journal requires |journal= (help)
  10. Hanson, E.K.; Moore, J.M.; Bordy, E.M.; Marsh, J.S.; Howarth, G.; Robey, J.V.A. (1 September 2009). "Cretaceous Erosion in Central South Africa: Evidence from Upper-Crustal Xenoliths in Kimberlite Diatremes". South African Journal of Geology. 112 (2): 125–140. doi:10.2113/gssajg.112.2.125.
  11. Mahoney, John J.; Coffin, Millard F. (1997-01-23). Large Igneous Provinces: Continental, Oceanic, and Planetary Flood Volcanism. American Geophysical Union. ISBN   9780875900827.
  12. Harris, C.; Marsh, J. S.; Duncan, A. R.; Erlank, A. J. (1 April 1990). "The Petrogenesis of the Kirwan Basalts of Dronning Maud Land, Antarctica". Journal of Petrology. 31 (2): 341–369. Bibcode:1990JPet...31..341H. doi:10.1093/petrology/31.2.341.
  13. Renne, P. R.; Ernesto, M.; Pacca, I. G.; Coe, R. S.; Glen, J. M.; Prevot, M.; Perrin, M. (6 November 1992). "The Age of Parana Flood Volcanism, Rifting of Gondwanaland, and the Jurassic-Cretaceous Boundary". Science. 258 (5084): 975–979. Bibcode:1992Sci...258..975R. doi:10.1126/science.258.5084.975. PMID   17794593. S2CID   43246541.
  14. Renne, Paul R.; Glen, Jonathan M.; Milner, Simon C.; Duncan, Andrew R. (1 July 1996). "Age of Etendeka flood volcanism and associated intrusions in southwestern Africa". Geology. 24 (7): 659–662. Bibcode:1996Geo....24..659R. doi:10.1130/0091-7613(1996)024<0659:AOEFVA>2.3.CO;2.
  15. Encarnación, John; Fleming, Thomas H.; Elliot, David H.; Eales, Hugh V. (1 June 1996). "Synchronous emplacement of Ferrar and Karoo dolerites and the early breakup of Gondwana". Geology. 24 (6): 535–538. Bibcode:1996Geo....24..535E. doi:10.1130/0091-7613(1996)024<0535:SEOFAK>2.3.CO;2.
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