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{{short description|A geological group in South Africa, consisting predominantly of mudstones}}
{{Infobox rockunit
{{Infobox rockunit
| name=Bokkeveld Group
| name=Bokkeveld Group
| period=Devonian
| period=Devonian
| age= [[Early Devonian|Early]]-[[Middle Devonian]] ~{{fossilrange|450|400}}
| age= [[Early Devonian|Early]]-[[Middle Devonian]] ~{{fossilrange|419|382}}
| type=[[Geologic group]]
| type=[[Geological group]]
| prilithology=[[sandstone]], [[mudstone]], [[siltstone]], [[shale]], and [[Conglomerate (geology)|conglomerate]]s
| prilithology=[[sandstone]], [[mudstone]], [[siltstone]], [[shale]], and [[Conglomerate (geology)|conglomerate]]s
| otherlithology=[[calcite]]
| otherlithology=[[calcite]]
| named for=Bokkeveld mountains
| named for=Bokkeveld mountains
| region=Western and Eastern Cape Provinces
| region=Western Cape and Eastern Cape Provinces
| country={{flag|South Africa}}
| country={{flag|South Africa}}
| subunits=[[Gydo Formation]], [[Gamka Formation]], [[Voorstehoek Formation]], [[Hex River Formation]], [[Tra-Tra Formation]], [[Boplaas Formation]], [[Waboomberg Formation]], [[Wuppertal Formation]], [[Klipbokkop Formation]], [[Osberg Formation]] and [[Karoopoort Formation]]
| subunits= Gydo Formation, Gamka Formation, Voorstehoek Formation, Hex River Formation, Tra-Tra Formation, Boplaas Formation, Waboomberg Formation, Wuppertal Formation, Klipbokkop Formation, Osberg Formation and Karoopoort Formation
| overlies=[[Table Mountain Group]]
| overlies= [[Table Mountain Group]]
| underlies=[[Witteberg Group]]
| underlies= Witteberg Group
| map=
| map= File:Cederberg geology.jpg
| map_caption= Schematic diagram of a west-east (left - right) geological cross section through the Cedarberg portion of the Cape Fold Belt (South Africa). The rock layers represent the three main subdivisions of the Cape Supergroup. The Bokkeveld Group rocks are represented by the pale purple layer.
| map_caption=
}}
}}


The '''Bokkeveld Group''' is the second of the three main subdivisions of the [[Cape Supergroup]] in [[South Africa]]. It overlies the [[Table Mountain Group]] and underlies the Witteberg Group. The Bokkeveld Group rocks are considered to range between Lower [[Devonian]] ([[Lochkovian|Lochovian]]) to Middle [[Devonian]] ([[Givetian]]) in age<ref>{{Cite book|url=https://books.google.co.za/books?hl=en&lr=&id=UxipBgAAQBAJ&oi=fnd&pg=PR9&dq=Crustal+Evolution+of+Southern+Africa:+3.8+Billion+Years+of+Earth+History''.+pp.+333-363.+Springer-Verlag.+New+York&ots=W5l1s5vEtn&sig=DmrPYyN5W6D4daAzK5cdus1FDoA#v=onepage&q&f=false|title=Crustal Evolution of Southern Africa: 3.8 Billion Years of Earth History|last=Tankard|first=A. J.|last2=Martin|first2=Martin|last3=Eriksson|first3=K. A.|last4=Hobday|first4=D. K.|last5=Hunter|first5=D. R.|last6=Minter|first6=W. E. L.|date=2012-12-06|publisher=Springer Science & Business Media|isbn=9781461381471|language=en}}</ref><ref>{{Cite web|url=https://www.sciencedirect.com/science/article/pii/S1464343X17303904|title=Two hundred years of palaeontological discovery: Review of research on the Early to Middle Devonian Bokkeveld Group (Cape Supergroup) of South Africa|last=C.R.Penn-Clarke, B.S.Rubidge, Z.A.Jinnah|first=|date=2017-10-11|website=www.sciencedirect.com|archive-url=|archive-date=|dead-url=|access-date=2019-03-08}}</ref>.
The '''Bokkeveld Group''' is a [[geological]] group in [[South Africa]], consisting predominantly of mudstones. After the rocks of the Cape Supergroup had been folded into the Cape Fold Mountains, these soft mudstones readily washed away from the mountain tops, and only remain in the valleys. Here they form the fertile soils on which the vineyards and fruit orchards of the [[Western Cape]] flourish with the help of irrigation from the rivers that have their sources in the surrounding mountains.

== Background ==

The [[Cape Supergroup]] rocks were deposited in a purely [[Ocean|marine]] setting, within a 1300 km wide passive margin basin known as the Cape Basin. The rocks were deposited over a 170-million-year period ranging from ~485Ma ([[Tremadocian]]) to the early [[Carboniferous]] (~330Ma upper [[Mississippian (geology)|Mississippian]]). Up to 10 km of [[Stratum|strata]] were preserved throughout. The Cape Supergroup rocks later underwent deformation during the Cape Orogeny, in which the rocks were [[Fold (geology)|folded]] and thrusted upwards. The Cape Orogeny formed the [[Cape Fold Belt]] and the mountains that range along the Cape and the southern parts of [[South Africa]]<ref>{{Citation|last=Blewett|first=Scarlett C. J.|title=An Overview of Cape Fold Belt Geochronology: Implications for Sediment Provenance and the Timing of Orogenesis|date=2016|url=https://doi.org/10.1007/978-3-319-40859-0_5|work=Origin and Evolution of the Cape Mountains and Karoo Basin|pages=45–55|editor-last=Linol|editor-first=Bastien|series=Regional Geology Reviews|publisher=Springer International Publishing|language=en|doi=10.1007/978-3-319-40859-0_5|isbn=9783319408590|access-date=2019-03-08|last2=Phillips|first2=David|editor2-last=de Wit|editor2-first=Maarten J.}}</ref>. An additional geological formation, the Msikaba Formation, found north of [[Port St. Johns]] in the [[Eastern Cape]] is considered to correlate with the Witteberg Group of the Cape Supergroup<ref>Truswell, J.F., 1977. ''The geological evolution of South Africa''. Purnell.</ref>.


==Geographic extent==
==Geographic extent==
The Bokkeveld Group does not extend on to the Cape Peninsula or its isthmus (the Cape Flats). Here the [[Stellenbosch]], [[Franschhoek]], [[Paarl]], [[Durbanville]], [[Tulbagh]] and [[Constantia, Cape Town|Constantia]] vineyards have been planted on the weathered [[Marine geology of the Cape Peninsula and False Bay#The geological structure of the region|Cape Granite and Malmesbury shale]] soils, which form the basement rocks on which the Cape Supergroup rocks in this region rest.


The Bokkeveld Group extends eastwards to [[Port Alfred]] (near [[Grahamstown]]), approximately 120&nbsp;km beyond the eastern extent of the Cape Fold Belt.<ref>''Geological Map of South Africa, Lesotho and Swaziland''. (1970). Council for Geoscience, Geological Survey of South Africa.</ref>
Bokkeveld Group [[Outcrop|outcrops]] and exposures range from the [[Breede River Valley]] in the west to [[Port Alfred]] near [[Grahamstown]] in the east. The group displays lateral continuity throughout the length of the Cape Fold Belt. The Msikaba Formation rocks appear north-northeast of [[Port St. Johns]] in the [[Eastern Cape]].


==Stratigraphic units (oldest to youngest)==
==Stratigraphic units==

Ceres Subgroup:
The Bokkeveld Group is subdivided into three subgroups: the Ceres Subgroup and Bidouw Subgroup that are found West of 24ºE, and the Traka Subgroup found East of 24ºE<ref>{{Cite journal|last=Jinnah|first=Zubair A.|last2=Rubidge|first2=Bruce S.|last3=Penn-Clarke|first3=Cameron R.|date=2018-09-01|title=High-Paleolatitude Environmental Change During the Early To Middle Devonian: Insights from Emsian–Eifelian (Lower–Middle Devonian) Siliciclastic Depositional Systems of the Ceres Subgroup (Bokkeveld Group) of South Africa|url=https://pubs.geoscienceworld.org/sepm/jsedres/article-abstract/88/9/1040/548356/high-paleolatitude-environmental-change-during-the|journal=Journal of Sedimentary Research|language=en|volume=88|issue=9|pages=1040–1075|doi=10.2110/jsr.2018.53|issn=1527-1404}}</ref>. The Ceres Subgroup is found throughout the extent of the lower Bokkeveld Group exposures. The Bokkeveld Group contains five complete coarsening-upward cycles and is arranged into three distinctive [[facies]] arrangements represented by the subgroups. The geological formations are also distinguished by their [[sedimentology]] of alternating [[mudstone]]/[[siltstone]] and [[Sandstone|sandstones]]<ref>{{Cite web|url=https://www.sciencedirect.com/science/article/pii/S1464343X15000837|title=Taphonomy and sedimentology of an echinoderm obrution bed in the Lower Devonian Voorstehoek formation (Bokkeveld Group, Cape Supergroup) of South Africa. Journal of African Earth Sciences, 110, pp.135-149.|last=Reid, M., Bordy, E.M. and Taylor, W., 2015.|first=|date=2015-04-09|website=www.sciencedirect.com|archive-url=|archive-date=|dead-url=|access-date=2019-03-08}}</ref><ref>{{Cite journal|last=Reid|first=Mhairi|date=2017|title=Taphonomy, palaeoecology and taxonomy of an ophiuroid-stylophoran obrution deposit from the Lower Devonian Bokkeveld Group, South Africa|url=https://open.uct.ac.za/handle/11427/25404}}</ref><ref>{{Cite journal|last=Ruta|first=Marcello|last2=Theron|first2=Johannes|date=1997-03-26|title=Two Devonian mitrates from South Africa|url=http://eprints.lincoln.ac.uk/9311/|journal=Palaeontology|language=en|volume=40|pages=201–243|issn=0031-0239}}</ref><ref>{{Cite web|url=https://www.sciencedirect.com/science/article/pii/S1464343X05001172|title=The Cape Basin, South Africa: A review. Journal of African Earth Sciences, 43(1-3), pp.196-210.|last=Shone, R.W. and Booth, P.W.K., 2005.|first=|date=|website=www.sciencedirect.com|archive-url=|archive-date=|dead-url=|access-date=2019-03-08}}</ref><ref>{{Cite book|url=https://books.google.co.za/books?hl=en&lr=&id=UxipBgAAQBAJ&oi=fnd&pg=PR9&dq=Tankard,+A.J.,+Martin,+M.,+Eriksson,+K.A.,+Hobday,+D.K.,+Hunter,+D.R.+and+Minter,+W.E.L.,+2012.+Crustal+evolution+of+southern+Africa:+3.8+billion+years+of+Earth+history.+Springer+Science+&+Business+Media.&ots=W5l1s6nAAs&sig=jOxMj831omo8Xl5nQK4vRIoj8ag#v=onepage&q=Tankard,%20A.J.,%20Martin,%20M.,%20Eriksson,%20K.A.,%20Hobday,%20D.K.,%20Hunter,%20D.R.%20and%20Minter,%20W.E.L.,%202012.%20Crustal%20evolution%20of%20southern%20Africa:%203.8%20billion%20years%20of%20Earth%20history.%20Springer%20Science%20&%20Business%20Media.&f=false|title=Crustal Evolution of Southern Africa: 3.8 Billion Years of Earth History|last=Tankard|first=A. J.|last2=Martin|first2=Martin|last3=Eriksson|first3=K. A.|last4=Hobday|first4=D. K.|last5=Hunter|first5=D. R.|last6=Minter|first6=W. E. L.|date=2012-12-06|publisher=Springer Science & Business Media|isbn=9781461381471|language=en}}</ref>. The Bokkeveld Group subgroups and their respective geological formations are listed below (from oldest to youngest):
* ''[[Gydo Formation]]''

* ''[[Gamka Formation]]''
'''<u>Ceres Subgroup:</u>'''
* ''[[Voorstehoek Formation]]''

* ''[[Hex River Formation]]''
*'''Gydo Formation''': Composed mainly of [[mudrock]] and [[siltstone]] that contain minor [[sandstone]] layers. The rock sediments of the Gydo were deposited in low-energy, offshore-prodeltaic environments.
* ''[[Tra-Tra Formation]]''

* ''[[Boplaas Formation]]''
*'''Gamka Formation''': [[Sandstone]]-rich in contrast to the Gydo, composed of fine to medium-grained [[Feldspar|feldspathic]] [[wacke]], [[Arenite|arenites]] and some subordinate [[mudstone]]. The [[Sandstone|sandstones]] are arranged in coarsening upward cycles - a greater geological feature seen in the Bokkeveld Group as a whole. Hummocky [[cross-bedding]] structures are frequently observed in this formation. The [[Sandstone|sandstones]] exhibit coarsening-upward cycles and hummocky [[cross-bedding]]. These features indicate that the [[Depositional environment|depositional environment]] was a high-energy storm and wave reworked [[River delta|delta]] front or delta plain environment. The formation is abundant in [[invertebrate]] [[Fossil|fossils]], especially [[Brachiopod|brachiopods]]<ref>{{Cite journal|last=Barwis|first=John H.|last2=Tankard|first2=Anthony J.|date=1982-09-01|title=Wave-dominated deltaic sedimentation in the Devonian Bokkeveld Basin of South Africa|url=https://pubs.geoscienceworld.org/sepm/jsedres/article-abstract/52/3/959/97633/wave-dominated-deltaic-sedimentation-in-the|journal=Journal of Sedimentary Research|language=en|volume=52|issue=3|pages=959–974|doi=10.1306/212F809E-2B24-11D7-8648000102C1865D|issn=1527-1404}}</ref>.
Bidouw / Traka Subgroup:

* ''[[Waboomberg Formation]]''
*'''Voorstehoek Formation''': [[Mudstone]] and [[siltstone]]. Same depositional environment as the lower Gydo Formation.
* ''[[Wuppertal Formation]]''

* ''[[Klipbokkop Formation]]''
*'''Hex River Formation''': [[Sandstone|Sandstones]] arranged in coarsening-upward sequences much like the Gamka Formation. [[Trace fossil|Trace fossils]] of ''[[Planolites]]'', ''[[Skolithos]]'', and ''[[Arenicolites]]'' are found.
* ''[[Osberg Formation]]''

* ''[[Karoopoort Formation]]''
*'''Tra-Tra Formation''': [[Mudstone]] and [[siltstone]]-rich.

*'''Boplaas Formation''': Fine to medium-grained [[Feldspar|feldspathic]] [[Wacke|wackes]] and [[Arenite|arenites]] with minor [[Shale|shales]] and [[siltstone]].

'''<u>Bidouw Subgroup (West of 24ºE):</u>'''

*'''Waboomberg Formation''': [[Mudstone]] and [[siltstone]] interbedded with fine-grained [[Sandstone|sandstones]].

*'''Wuppertal Formation''': Fine to medium-grained [[Sandstone|sandstones]] and minor [[Siltstone|siltstones]].

*'''Klipbokkop Formation''': [[Shale|Shales]] and [[Siltstone|siltstones]] with subordinate fine-grained [[sandstone]].

*'''Osberg Formation''': Westernmost [[Outcrop|outcrops]] of this formation are dominated by [[sandstone]].

*'''Karoopoort Formation''': [[Shale]] and [[siltstone]] with some minor [[sandstone]] layers.

'''<u>Traka Subgroup (East of 24ºE):</u>'''

*'''Karies Formation''': Dark-coloured [[shale]] and [[Rhythmite|rhythmites]] are dominant. Deep marine ([[Pelagic zone|pelagic zone]]) [[Depositional environment|depositional environment]].

*'''Adolphspoort Formation''': Dark, wavy-bedded [[siltstone]] and [[micaceous]] [[Shale|shales]]. Eastern correlate of the Osberg Formation.

*'''Sandpoort Formation''': Reddish, lenticular bedded [[Sandstone|sandstones]] with minor [[Mudstone|mudstones]]. Plant fossils are common.


== Paleontology ==
== Paleontology ==
The bulk of the fossils found in the Cape Supergroup occur in the Bokkeveld mudstones. They include a variety of [[brachiopods]], as well as [[trilobites]], [[molluscs]], [[echinoderms]] (including [[starfish]], [[crinoids]], and the extinct [[blastoids]] and [[cystoids]]), [[foraminifera]] and fish with jaws ([[placoderms]]).<ref>Truswell, J.F. (1977). ''The Geological Evolution of South Africa''. pp. 93-96, 114-159. Purnell, Cape Town.</ref>
<ref>Tankard, A.J., Jackson, M.P.A., Erikson, K.A., Hobday, D.K., Hunter, D.R., Minter, W.E.L. (1982) ''Crustal Evolution of Southern Africa: 3.8 Billion Years of Earth History''. pp. 333-363. Springer-Verlag. New York.</ref>


The bulk of the [[Fossil|fossils]] found in the [[Cape Supergroup]] are eroded fragments of [[Benthic zone|benthic]] [[invertebrate]] Malvinokaffric fauna, particularly that of various [[Brachiopod|brachiopods]] such as ''Australocoelia''<ref>Boucot, A.J. and Gill, E.D., 1956. ''Australocoelia'', a new Lower Devonian brachiopod from South Africa, South America, and Australia. Journal of Paleontology, pp.1173-1178.</ref>, ''Australospirifer'', and [[Chonetidina|chonetids]]. [[Crinoid|Crinoids]] are also found, although their dis-articulated [[Ossicle (echinoderm)|ossicles]] are more common, as are [[Trace fossil|trace fossils]] such as worm burrows and feeding trails left by other invertebrates. Rarer are fossils of [[Trilobite|trilobites]], [[Bivalvia|bivalves]], [[Cephalopod|cephalopods]], [[Gastropoda|gastropods]], [[Brittle star|ophiuroids]], [[Hyolitha|hyoliths]], [[echinoids]], [[Echinoderm|echinoderms]], [[Conulariida|conulariids]], cricoconarids, and [[Coral|corals]]<ref>Almond, J.E., 2005. PALAEONTOLOGICAL IMPACT ASSESSMENT: Exceptional fossil starfish bed, Prince Albert District, Western Cape. John E. Almond  (Natura Viva cc, Cape Town) and Derek Ohland (Iziko Museums, Cape Town). January 2005.</ref><ref>Almond, J.E., 2013. PALAEONTOLOGICAL SPECIALIST STUDY: FIELD ASSESSMENT. Expansion of an existing Borrow Pit in the Prince Albert townlands, Prince Albert District, Western Cape. John E. Almond  (Natura Viva cc, Cape Town). March 2013.</ref><ref>{{Cite web|url=https://www.sciencedirect.com/science/article/pii/S0899536299000883|title=Devonian (Emsian-Eifelian) fish from the Lower Bokkeveld Group (Ceres Subgroup), South Africa. Journal of African Earth Sciences, 29(1), pp.179-193.|last=Anderson, M.E., Almond, J.E., Evans, F.J. and Long, J.A., 1999.|first=|date=|website=www.sciencedirect.com|archive-url=|archive-date=1999-10-10|dead-url=|access-date=}}</ref><ref>Anderson, M.E., Long, J.A., Evans, F.J., Almond, J.E., Theron, J.N. and Bender, P.A., 1999. Biogeographic affinities of Middle and Late Devonian fishes of South Africa. Records of the Western Australian Museum, Supplement, 57, pp.157-168

PDF: http://museum.wa.gov.au/sites/default/files/11.%20Anderson,%20Long,%20Evans,%20Almond,%20Theron,%20Bender.pdf</ref><ref>Becker, G., Bless, M. and Theron, J., 1994. Malvinokaffric ostracods from South Africa (Southern Cape; Bokkeveld Group, Devonian). Courier Forschunginstitut Senckenberg, 169, pp.239-259.</ref><ref>{{Cite journal|last=Lieberman|first=Bruce S.|date=1993-07-01|title=Systematics and biogeography of the “Metacryphaeus group” Calmoniidae (Trilobita, Devonian), with comments on adaptive radiations and the geological history of the Malvinokaffric Realm|url=https://www.cambridge.org/core/journals/journal-of-paleontology/article/systematics-and-biogeography-of-the-metacryphaeus-group-calmoniidae-trilobita-devonian-with-comments-on-adaptive-radiations-and-the-geological-history-of-the-malvinokaffric-realm/E6D24CF851046296DACE3A56DC6A96E3|journal=Journal of Paleontology|language=en|volume=67|issue=4|pages=549–570|doi=10.1017/S0022336000024902|issn=0022-3360|via=}}</ref>.

In the upper Bidouw and Traka Subgroups, plant and trace fossils are more common than invertebrate fossils. [[Lycopods]] and [[Trace fossil|trace fossils]] of ''[[Spirophyton]]'' have been recovered. Rare [[Osteichthyes|bony fish]] [[Fossil|fossils]] have also been found, mainly of [[Placodermi|placoderm]] fishes, although placoderm fish are mainly known from rocks of the overlying Witteberg Group.


== References ==
{{reflist}}


[[Category:Geological groups]]
[[Category:Geological groups]]
[[Category:Geologic formations of South Africa]]
[[Category:Geologic formations of South Africa]]
[[Category:Devonian South Africa]]
[[Category:Devonian South Africa]]

==References==

Revision as of 12:34, 11 March 2019

Bokkeveld Group
Stratigraphic range: Early-Middle Devonian ~419–382 Ma
TypeGeological group
Sub-unitsGydo Formation, Gamka Formation, Voorstehoek Formation, Hex River Formation, Tra-Tra Formation, Boplaas Formation, Waboomberg Formation, Wuppertal Formation, Klipbokkop Formation, Osberg Formation and Karoopoort Formation
UnderliesWitteberg Group
OverliesTable Mountain Group
Lithology
Primarysandstone, mudstone, siltstone, shale, and conglomerates
Othercalcite
Location
RegionWestern Cape and Eastern Cape Provinces
Country South Africa

Schematic diagram of a west-east (left - right) geological cross section through the Cedarberg portion of the Cape Fold Belt (South Africa). The rock layers represent the three main subdivisions of the Cape Supergroup. The Bokkeveld Group rocks are represented by the pale purple layer.

The Bokkeveld Group is the second of the three main subdivisions of the Cape Supergroup in South Africa. It overlies the Table Mountain Group and underlies the Witteberg Group. The Bokkeveld Group rocks are considered to range between Lower Devonian (Lochovian) to Middle Devonian (Givetian) in age[1][2].

Background

The Cape Supergroup rocks were deposited in a purely marine setting, within a 1300 km wide passive margin basin known as the Cape Basin. The rocks were deposited over a 170-million-year period ranging from ~485Ma (Tremadocian) to the early Carboniferous (~330Ma upper Mississippian). Up to 10 km of strata were preserved throughout. The Cape Supergroup rocks later underwent deformation during the Cape Orogeny, in which the rocks were folded and thrusted upwards. The Cape Orogeny formed the Cape Fold Belt and the mountains that range along the Cape and the southern parts of South Africa[3]. An additional geological formation, the Msikaba Formation, found north of Port St. Johns in the Eastern Cape is considered to correlate with the Witteberg Group of the Cape Supergroup[4].

Geographic extent

Bokkeveld Group outcrops and exposures range from the Breede River Valley in the west to Port Alfred near Grahamstown in the east. The group displays lateral continuity throughout the length of the Cape Fold Belt. The Msikaba Formation rocks appear north-northeast of Port St. Johns in the Eastern Cape.

Stratigraphic units

The Bokkeveld Group is subdivided into three subgroups: the Ceres Subgroup and Bidouw Subgroup that are found West of 24ºE, and the Traka Subgroup found East of 24ºE[5]. The Ceres Subgroup is found throughout the extent of the lower Bokkeveld Group exposures. The Bokkeveld Group contains five complete coarsening-upward cycles and is arranged into three distinctive facies arrangements represented by the subgroups. The geological formations are also distinguished by their sedimentology of alternating mudstone/siltstone and sandstones[6][7][8][9][10]. The Bokkeveld Group subgroups and their respective geological formations are listed below (from oldest to youngest):

Ceres Subgroup:

  • Gydo Formation: Composed mainly of mudrock and siltstone that contain minor sandstone layers. The rock sediments of the Gydo were deposited in low-energy, offshore-prodeltaic environments.
  • Voorstehoek Formation: Mudstone and siltstone. Same depositional environment as the lower Gydo Formation.

Bidouw Subgroup (West of 24ºE):

Traka Subgroup (East of 24ºE):

  • Sandpoort Formation: Reddish, lenticular bedded sandstones with minor mudstones. Plant fossils are common.

Paleontology

The bulk of the fossils found in the Cape Supergroup are eroded fragments of benthic invertebrate Malvinokaffric fauna, particularly that of various brachiopods such as Australocoelia[12], Australospirifer, and chonetids. Crinoids are also found, although their dis-articulated ossicles are more common, as are trace fossils such as worm burrows and feeding trails left by other invertebrates. Rarer are fossils of trilobites, bivalves, cephalopods, gastropods, ophiuroids, hyoliths, echinoids, echinoderms, conulariids, cricoconarids, and corals[13][14][15][16][17][18].

In the upper Bidouw and Traka Subgroups, plant and trace fossils are more common than invertebrate fossils. Lycopods and trace fossils of Spirophyton have been recovered. Rare bony fish fossils have also been found, mainly of placoderm fishes, although placoderm fish are mainly known from rocks of the overlying Witteberg Group.

References

  1. ^ Tankard, A. J.; Martin, Martin; Eriksson, K. A.; Hobday, D. K.; Hunter, D. R.; Minter, W. E. L. (2012-12-06). .+pp.+333-363.+Springer-Verlag.+New+York&ots=W5l1s5vEtn&sig=DmrPYyN5W6D4daAzK5cdus1FDoA#v=onepage&q&f=false Crustal Evolution of Southern Africa: 3.8 Billion Years of Earth History. Springer Science & Business Media. ISBN 9781461381471.
  2. ^ C.R.Penn-Clarke, B.S.Rubidge, Z.A.Jinnah (2017-10-11). "Two hundred years of palaeontological discovery: Review of research on the Early to Middle Devonian Bokkeveld Group (Cape Supergroup) of South Africa". www.sciencedirect.com. Retrieved 2019-03-08. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)CS1 maint: multiple names: authors list (link)
  3. ^ Blewett, Scarlett C. J.; Phillips, David (2016), Linol, Bastien; de Wit, Maarten J. (eds.), "An Overview of Cape Fold Belt Geochronology: Implications for Sediment Provenance and the Timing of Orogenesis", Origin and Evolution of the Cape Mountains and Karoo Basin, Regional Geology Reviews, Springer International Publishing, pp. 45–55, doi:10.1007/978-3-319-40859-0_5, ISBN 9783319408590, retrieved 2019-03-08
  4. ^ Truswell, J.F., 1977. The geological evolution of South Africa. Purnell.
  5. ^ Jinnah, Zubair A.; Rubidge, Bruce S.; Penn-Clarke, Cameron R. (2018-09-01). "High-Paleolatitude Environmental Change During the Early To Middle Devonian: Insights from Emsian–Eifelian (Lower–Middle Devonian) Siliciclastic Depositional Systems of the Ceres Subgroup (Bokkeveld Group) of South Africa". Journal of Sedimentary Research. 88 (9): 1040–1075. doi:10.2110/jsr.2018.53. ISSN 1527-1404.
  6. ^ Reid, M., Bordy, E.M. and Taylor, W., 2015. (2015-04-09). "Taphonomy and sedimentology of an echinoderm obrution bed in the Lower Devonian Voorstehoek formation (Bokkeveld Group, Cape Supergroup) of South Africa. Journal of African Earth Sciences, 110, pp.135-149". www.sciencedirect.com. Retrieved 2019-03-08. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
  7. ^ Reid, Mhairi (2017). "Taphonomy, palaeoecology and taxonomy of an ophiuroid-stylophoran obrution deposit from the Lower Devonian Bokkeveld Group, South Africa". {{cite journal}}: Cite journal requires |journal= (help)
  8. ^ Ruta, Marcello; Theron, Johannes (1997-03-26). "Two Devonian mitrates from South Africa". Palaeontology. 40: 201–243. ISSN 0031-0239.
  9. ^ Shone, R.W. and Booth, P.W.K., 2005. "The Cape Basin, South Africa: A review. Journal of African Earth Sciences, 43(1-3), pp.196-210". www.sciencedirect.com. Retrieved 2019-03-08. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
  10. ^ Tankard, A. J.; Martin, Martin; Eriksson, K. A.; Hobday, D. K.; Hunter, D. R.; Minter, W. E. L. (2012-12-06). Crustal Evolution of Southern Africa: 3.8 Billion Years of Earth History. Springer Science & Business Media. ISBN 9781461381471.
  11. ^ Barwis, John H.; Tankard, Anthony J. (1982-09-01). "Wave-dominated deltaic sedimentation in the Devonian Bokkeveld Basin of South Africa". Journal of Sedimentary Research. 52 (3): 959–974. doi:10.1306/212F809E-2B24-11D7-8648000102C1865D. ISSN 1527-1404.
  12. ^ Boucot, A.J. and Gill, E.D., 1956. Australocoelia, a new Lower Devonian brachiopod from South Africa, South America, and Australia. Journal of Paleontology, pp.1173-1178.
  13. ^ Almond, J.E., 2005. PALAEONTOLOGICAL IMPACT ASSESSMENT: Exceptional fossil starfish bed, Prince Albert District, Western Cape. John E. Almond  (Natura Viva cc, Cape Town) and Derek Ohland (Iziko Museums, Cape Town). January 2005.
  14. ^ Almond, J.E., 2013. PALAEONTOLOGICAL SPECIALIST STUDY: FIELD ASSESSMENT. Expansion of an existing Borrow Pit in the Prince Albert townlands, Prince Albert District, Western Cape. John E. Almond  (Natura Viva cc, Cape Town). March 2013.
  15. ^ Anderson, M.E., Almond, J.E., Evans, F.J. and Long, J.A., 1999. "Devonian (Emsian-Eifelian) fish from the Lower Bokkeveld Group (Ceres Subgroup), South Africa. Journal of African Earth Sciences, 29(1), pp.179-193". www.sciencedirect.com. {{cite web}}: |archive-date= requires |archive-url= (help); Cite has empty unknown parameter: |dead-url= (help)CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link)
  16. ^ Anderson, M.E., Long, J.A., Evans, F.J., Almond, J.E., Theron, J.N. and Bender, P.A., 1999. Biogeographic affinities of Middle and Late Devonian fishes of South Africa. Records of the Western Australian Museum, Supplement, 57, pp.157-168 PDF: http://museum.wa.gov.au/sites/default/files/11.%20Anderson,%20Long,%20Evans,%20Almond,%20Theron,%20Bender.pdf
  17. ^ Becker, G., Bless, M. and Theron, J., 1994. Malvinokaffric ostracods from South Africa (Southern Cape; Bokkeveld Group, Devonian). Courier Forschunginstitut Senckenberg, 169, pp.239-259.
  18. ^ Lieberman, Bruce S. (1993-07-01). "Systematics and biogeography of the "Metacryphaeus group" Calmoniidae (Trilobita, Devonian), with comments on adaptive radiations and the geological history of the Malvinokaffric Realm". Journal of Paleontology. 67 (4): 549–570. doi:10.1017/S0022336000024902. ISSN 0022-3360.
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