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Cynognathus Assemblage Zone

January 01, 1970

The Cynognathus Assemblage Zone is a tetrapod biozone utilized in the Karoo Basin of South Africa. It is equivalent to the Burgersdorp Formation, the youngest lithostratigraphic formation in the Beaufort Group, which is part of the fossiliferous and geologically important Karoo Supergroup. The Cynognathus Assemblage Zone is the youngest of the eight biozones found in the Beaufort Group, and is considered to be late Early Triassic (Olenekian) to early Middle Triassic (Anisian) in age (around 247 Ma). The name of the biozone refers to Cynognathus crateronotus, a large and carnivorous cynodont therapsid which occurs throughout the entire biozone.[1]

Cynognathus Assemblage Zone
Stratigraphic range: Early-Mid Triassic
~249–244 Ma
Cynognathus crateronotus
TypeBiozone
Unit ofBurgersdorp Formation (Beaufort Group)
UnderliesMolteno Formation (Stormberg Group)
OverliesLystrosaurus Assemblage Zone
Thicknessup to 1,968.5 feet (600 m)
Location
RegionEastern Cape, Free State
Country South Africa
ExtentKaroo Basin
Type section
Named forCynognathus
Named byHarry Govier Seeley (1892)
Robert Broom (1906, 1909)

History edit

The first fossils to be found in the Beaufort Group rocks that encompass the current eight biozones were discovered by Andrew Geddes Bain in 1856.[2] However, it was not until 1892 that it was observed that the geological strata of the Beaufort Group could be differentiated based on their fossil taxa. The initial undertaking was done by Harry Govier Seeley who subdivided the Beaufort Group into three biozones,[3][4] which he named (from oldest to youngest):

Under Seeley's system, the "highly specialized theriodonts" zone corresponds to the modern Cynognathus Assemblage Zone. Seeley's proposed biozones were subdivided further by Robert Broom between 1906 and 1909.[5] Broom proposed the following biozones (from oldest to youngest):

These biozone divisions were approved by paleontologists of the time and were left largely unchanged for several decades.[6] James Kitching retained the name of the Cynognathus zone in his revision of the biozones in the 1970s and 1980s.[7][8][9] In 1995, he formalized the biozone under the name "Cynognathus Assemblage Zone".[1]

In the mid-1990s, new discoveries of additional outcrops presented the possibility that the Cynognathus Assemblage Zone could be subdivided further. A 1995 paper split it into three subzones: a lower subzone characterized by Kestrosaurus, a middle subzone characterized by the "classic" zone fauna which was already well-established, and an upper zone with reduced diversity.[10] This informal three-part subdivision scheme was later labelled with letters (as subzones A, B, and C from oldest to youngest) until it was formalized with robust index taxa and type sections in 2020. Subzone A was formalized as the Langbergia-Garjainia Subzone, subzone B as the Trirachodon-Kannemeyeria Subzone, and subzone C as the Cricodon-Ufudocyclops Subzone.[1]

From the late 1970s onwards, some authors argued that Cynognathus was less common than previously considered, so they instead renamed the biozone to the Kannemeyeria Assemblage Zone or Kannemeyeria-Diademodon Assemblage Zone.[11][12] However, later work found that Kannemeyeria fossils were absent from Subzone A, and while Diademodon was found throughout the biozone it had been usurped as a dominant taxon by larger trirachodontids by Subzone C.[13][14][15] This meant that these species were not ideal index taxa for the biozone. As Cynognathus fossils are found consistently throughout, the current name for the biozone was retained.

Lithology edit

The Cynognathus Assemblage Zone correlates with the Burgersdorp Formation in the upper Tarkastad Subgroup of the Beaufort Group.[13] The Cynognathus Assemblage Zone contains argillaceous mudstone successions varying from maroon to reddish, blueish-green, and greyish-green in colour.[16] The mudstones are interbedded with lenticular and feldspathic sandstones which appear greenish-grey when fresh and brownish-yellow when eroded out.[17][18] Clay-rich pebble conglomerates are also observed in some areas. Complete, articulated fossils are frequently found encased in calcareous nodules within the mudstone layers while complete skulls are mainly found in the sandstone. The mudstones were likely deposited in low-energy, meandering fluvial environments alongside sand-rich river channels. The environment during time of deposition was semi-arid, but with seasonal rain and flooding due to the presence of crevasse splays in the mudstone layers. A lack of well developed channel sandstones provides evidence for more lacustrine areas in the more northerly occurring outcrops of the biozone.[15]

The thickest outcrops of the Cynognathus Assemblage Zone, reaching approximately 600 metres (2,000 ft), occur between Queenstown and Lady Frere in the Eastern Cape. Outcrops then thin out to between 200 and 100 metres (660 and 330 ft) around Aliwal North, Burgersdorp, Steynsburg, and Rouxville. Thin outcrops are also found in areas in the Free State that border Lesotho.[17][19][20]

The Langbergia-Garjainia Subzone (Subzone A) is most well-exposed and fossiliferous in northeast Free State, between Senekal and Bethlehem. At the stratotype near Bethlehem, it reaches around 50 m in thickness. Exposures of this subzone rapidly decrease to the east, disappearing around Bergville. Although the subzone thickens further south (to up to 100 m) towards Aliwal North, fossils diminish in abundance. Sediments of Subzone A are likely present in the Eastern Cape, though a lack of sufficient fossil material prevents it from being distinguished from younger strata.[1]

The Trirachodon-Kannemeyeria Subzone (Subzone B) is the thickest and historically the most well-studied portion of the Assemblage Zone. It is primarily exposed in the Eastern Cape south of Lesotho. Subzone B reaches up to 500 m thick at the stratotype between Queenstown and Lady Frere, thinning northwards until it disappears east of Thaba 'Nchu. The Cricodon-Ufudocyclops Subzone (Subzone C) has limited exposures in the vicinity of Molteno and Sterkstroom in the Eastern Cape. It reaches up to 150 m at its stratotype in Sterkstroom.[1]

Biostratigraphy edit

The Cynognathus Assemblage Zone holds a rich diversity of fossil species, of which it is most renowned for its cynodont fossils.[13][21] Cynognathids, diademodontids, and trirachodontids are found throughout the Assemblage Zone. In Subzone B, the diademodontid Diademodon is far more common than trirachodontids. However, by the contact with Subzone C, trirachodontids had become the dominant taxa. Cynognathus is the common denominator, with its fossils found throughout Subzones A – C, confirming its place as the index taxon of the biozone as a whole. The large dicynodont Kannemeyeria simocephalus[22] appears in Subzone B alongside other anomodonts, and therocephalian species can be found throughout the biozone. Apart from synapsids, the biozone is rich in other fossil fauna, including procolophonid parareptiles and archosauromorph reptiles. Plant fossils such as Dicroidium, Dadoxylon, and Schizoneura have been uncovered from limited areas corresponding to Subzones B - C. Aquatic life is well represented: numerous species of temnospondyl amphibian, fishes, rare occurrences of molluscs, and ichnofossils of arthropod trackways and vertebrate burrows have been discovered.[17]

Subzone A edit

The Langbergia-Garjainia Subzone (Subzone A) is the oldest subzone in the Cynognathus Assemblage Zone. Its base is defined by the first appearance of Cynognathus crateronotus, as well as the trirachodontid cynodont Langbergia modisei and the erythrosuchid archosauriform Garjainia madiba. The temnospondyl amphibians Kestrosaurus and Parotosuchus haughtoni are also common and distinctive fossils of the Langbergia-Garjainia Subzone. Dicynodonts are absent, unlike every other zone and subzone in the Beaufort Group.[1]

Subzone B edit

The Trirachodon-Kannemeyeria Subzone (Subzone B) corresponds to traditional conceptions of the Cynognathus Assemblage Zone. Alongside abundant fossils of Cynognathus crateronotus, the base of Subzone B sees the first appearance of fellow cynodonts Diademodon tetragonus and Trirachodon berryi. Dicynodonts reappear with Kannemeyeria simocephalus, while Xenotosuchus africanus is the most common temnospondyl in this subzone. The Trirachodon-Kannemeyeria Subzone also has the highest diversity of fish, plants, and archosauromorph reptiles in the entire Assemblage Zone. The erythrosuchid Erythrosuchus africanus is a common component of the fauna,[23] living alongside its smaller relative Euparkeria capensis[24] and several species of early rhynchosaurs (Howesia browni,[25] Eohyosaurus wolvaardti, Mesosuchus browni).[1]

Subzone C edit

The Cricodon-Ufudocyclops Subzone (Subzone C) is the youngest subzone, and has the most restricted exposures and fossil content. Its base is defined by the first appearance of the trirachodontid Cricodon metabolus and the dicynodont Ufudocyclops mukanelai, the only species which are common in this subzone. Cynognathus and Diademodon still persist, though they are far more rare than in the previous subzone. Other species with utility for correlation include the temnospondyl Paracyclotosaurus morganorum and the dicynodont Shansiodon sp., which co-occur in the lower part of the subzone.[1]

Paleobiota edit

Color key
Taxon Reclassified taxon Taxon falsely reported as present Dubious taxon or junior synonym Ichnotaxon Ootaxon Morphotaxon
Notes
Uncertain or tentative taxa are in small text; crossed out taxa are discredited.

Temnospondyls edit

Temnospondyls of the Burgersdorp Formation
Genus / Taxon Species Subzone Notes Images
Bathignathus B. poikilops Langbergia-Garjainia Subzone (A) A brachyopid
 
Jammerbergia formops
 
Laidleria gracilis
Batrachosuchus B. browni Trirachodon-Kannemeyeria Subzone (B) A brachyopid
Jammerbergia J. formops Trirachodon-Kannemeyeria Subzone (B) A mastodonsaurid
Kestrosaurus K. dreyeri Langbergia-Garjainia Subzone (A) A mastodonsaurid
K. kitchingi Langbergia-Garjainia Subzone (A) A mastodonsaurid
Laidleria L. gracilis Trirachodon-Kannemeyeria Subzone (B) A laidleriid
Microposaurus M. casei Trirachodon-Kannemeyeria Subzone (B) A trematosaurid
Paracyclotosaurus P. morganorum Cricodon-Ufudocyclops Subzone (C) A mastodonsaurid
Parotosuchus P. haughtoni Langbergia-Garjainia Subzone (A) A mastodonsaurid
Trematosuchus T. sobeyi Langbergia-Garjainia Subzone (A) A trematosaurid
Vanastega V. plurimidens Trirachodon-Kannemeyeria Subzone (B) A brachyopid
Xenotosuchus X. africanus Trirachodon-Kannemeyeria Subzone (B) A mastodonsaurid

Synapsids edit

Synapsids of the Burgersdorp Formation
Genus / Taxon Species Subzone Notes Images
Bauria B. cynops Trirachodon-Kannemeyeria Subzone (B) A bauriid therocephalian
 
Bauria cynops
 
Diademodon tetragonus
 
Ufudocylcops mukanelai
Bolotridon B. frerensis Trirachodon-Kannemeyeria Subzone (B) An epicynodontian cynodont
Cricodon C. kannemeyeri Trirachodon-Kannemeyeria Subzone (B) A trirachodontid cynodont
C. metabolus Cricodon-Ufudocyclops Subzone (C) A trirachodontid cynodont
Cynognathus C. crateronotus Langbergia-Garjainia Subzone (A), Trirachodon-Kannemeyeria Subzone (B), Cricodon-Ufudocyclops Subzone (C) A basal cynognathian cynodont
Diademodon D. tetragonus Trirachodon-Kannemeyeria Subzone (B), Cricodon-Ufudocyclops Subzone (C) A diademodontid cynodont
Guttigomphus G. avilionis Cricodon-Ufudocyclops Subzone (C)[26] A trirachodontid cynodont
Impidens I. hancoxi Cricodon-Ufudocyclops Subzone (C) A trirachodontid cynodont
Kannemeyeria K. simocephalus Trirachodon-Kannemeyeria Subzone (B) A kannemeyeriiform dicynodont
Kombuisia K. frerensis Trirachodon-Kannemeyeria Subzone (B) A kingoriid dicynodont
Langbergia L. modisei Langbergia-Garjainia Subzone (A) A trirachodontid cynodont
Lumkuia L. fuzzi Trirachodon-Kannemeyeria Subzone (B) A eucynodontian cynodont
Microgomphodon M. oligocynus Langbergia-Garjainia Subzone (A), Trirachodon-Kannemeyeria Subzone (B) A bauriid therocephalian
Shansiodon S. sp. Cricodon-Ufudocyclops Subzone (C) A shansiodontid dicynodont
Trirachodon T. berryi Trirachodon-Kannemeyeria Subzone (B) A trirachodontid cynodont
Ufudocyclops U. mukanelai Cricodon-Ufudocyclops Subzone (C) A stahleckeriid dicynodont

Reptiles edit

Reptiles of the Burgersdorp Formation
Genus / Taxon Species Subzone Notes Images
Eohyosaurus E. wolvaardti Trirachodon-Kannemeyeria Subzone (B) A basal rhynchosaur
 
Erythrosuchus africanus
 
Euparkeria capensis
 
Garjainia madiba
 
Mesosuchus browni
Erythrosuchus E. africanus Trirachodon-Kannemeyeria Subzone (B) An erythrosuchid archosauriform
Euparkeria E. capensis Trirachodon-Kannemeyeria Subzone (B) A euparkeriid archosauriform
Garjainia G. madiba Langbergia-Garjainia Subzone (A) An erythrosuchid archosauriform
Howesia H. browni Trirachodon-Kannemeyeria Subzone (B) A basal rhynchosaur
Mesosuchus M. browni Trirachodon-Kannemeyeria Subzone (B) A basal rhynchosaur
Myocephalus M. crassidens Trirachodon-Kannemeyeria Subzone (B) A procolophonid parareptile
Palacrodon P. browni Langbergia-Garjainia Subzone (A), Trirachodon-Kannemeyeria Subzone (B) An indeterminate diapsid
Procolophonidae indet. Langbergia-Garjainia Subzone (A) Indeterminate procolophonid parareptiles
Teratophon T. spinigenis Trirachodon-Kannemeyeria Subzone (B) A procolophonine procolophonid parareptile
Theledectes T. perforates Trirachodon-Kannemeyeria Subzone (B) A theledectine procolophonid parareptile
Thelephon T. contritus Trirachodon-Kannemeyeria Subzone (B) A procolophonine procolophonid parareptile
Thelerpeton T. oppressus Trirachodon-Kannemeyeria Subzone (B) A procolophonine procolophonid parareptile

Age and correlations edit

Based on tentative biostratigraphic correlations, the Cynognathus Assemblage Zone is considered to have been emplaced from approximately 249 to 244 Ma, in the later part of the Early Triassic and early part of the Middle Triassic. Based on the presence of Garjainia and Parotosuchus, the Langbergia-Garjainia Subzone is correlated with the Yarenskian Gorizont ("Parotosuchus fauna") of Russia. The "Parotosuchus fauna", exemplified by the Petropavlovskya Svita (a local lithological unit), is assigned to the late Olenekian Stage (latest Early Triassic, about 249-247 Ma) based on correlation with nearby marine fauna.[1]

The classic faunal assemblage of the Trirachodon-Kannemeyeria Subzone is correlated with a wide variety of geological formations.[27] Similar cynodont and dicynodont species are known from the Lower Omingonde Formation of Namibia,[28][29] the Lower Ntawere Formation of Zambia,[30] and the lower Lifua Member of the Tanzanian Manda Beds.[31] These correlations can be extended beyond Africa, as far as the Fremouw Formation of Antarctica, Donguz Formation ("Eryosuchus fauna") of Russia, and Lower Ermaying Formation of China.[1] Cynognathus and Diademodon fossils have even been found in the Río Seco de la Quebrada Formation of Mendoza Province, Argentina.[32] These formations are often considered early Anisian in age (earliest Middle Triassic, about 247 Ma).[1] However, there is some debate over their age; one ash bed below the Rio Seco de la Quebrada Formation was radiometrically dated to around 236 Ma (early Carnian), much younger than previously suggested purely based on tetrapod biostratigraphy.[33] The classic Cynognathus Assemblage Zone has been equated with the Nonesian Land Vertebrate Faunachron, part of a heavily-debated global system of Triassic tetrapod biostratigraphy.[34]

The Cricodon-Ufudocyclops Subzone may be correlated with the upper parts of the Omingonde, Ntawere, and Manda Formations in Africa.[30] Paracyclotosaurus is also known from the Yerrapalli Formation and Upper Denwa Formation of India,[35] while Shansiodon is found in the Upper Ermaying Formation ("Sinokannemeyeria fauna") of China.[1] Shansiodon defines the base of the Perovkan Land Vertebrate Faunachron, which has been applied in a global context.[34] These formations may be late Anisian in age, a suggestion supported by radiometric dating which positions the Upper Ermaying Formation at around 244 Ma.[36]

See also edit

References edit

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Bibliography edit

  • Ezcurra, Martín D (2016). (PDF). PeerJ. 4e1778: e1778. doi:10.7717/peerj.1778. PMC 4860341. PMID 27162705. Archived from the original (PDF) on 2017-12-02. Retrieved 2019-03-14.

January 01, 1970
cynognathus, assemblage, zone, tetrapod, biozone, utilized, karoo, basin, south, africa, equivalent, burgersdorp, formation, youngest, lithostratigraphic, formation, beaufort, group, which, part, fossiliferous, geologically, important, karoo, supergroup, young. The Cynognathus Assemblage Zone is a tetrapod biozone utilized in the Karoo Basin of South Africa It is equivalent to the Burgersdorp Formation the youngest lithostratigraphic formation in the Beaufort Group which is part of the fossiliferous and geologically important Karoo Supergroup The Cynognathus Assemblage Zone is the youngest of the eight biozones found in the Beaufort Group and is considered to be late Early Triassic Olenekian to early Middle Triassic Anisian in age around 247 Ma The name of the biozone refers to Cynognathus crateronotus a large and carnivorous cynodont therapsid which occurs throughout the entire biozone 1 Cynognathus Assemblage ZoneStratigraphic range Early Mid Triassic 249 244 Ma PreꞒ Ꞓ O S D C P T J K Pg N Cynognathus crateronotusTypeBiozoneUnit ofBurgersdorp Formation Beaufort Group UnderliesMolteno Formation Stormberg Group OverliesLystrosaurus Assemblage ZoneThicknessup to 1 968 5 feet 600 m LocationRegionEastern Cape Free StateCountry South AfricaExtentKaroo BasinType sectionNamed forCynognathusNamed byHarry Govier Seeley 1892 Robert Broom 1906 1909 Contents 1 History 2 Lithology 3 Biostratigraphy 3 1 Subzone A 3 2 Subzone B 3 3 Subzone C 4 Paleobiota 4 1 Temnospondyls 4 2 Synapsids 4 3 Reptiles 5 Age and correlations 6 See also 7 References 7 1 BibliographyHistory editThe first fossils to be found in the Beaufort Group rocks that encompass the current eight biozones were discovered by Andrew Geddes Bain in 1856 2 However it was not until 1892 that it was observed that the geological strata of the Beaufort Group could be differentiated based on their fossil taxa The initial undertaking was done by Harry Govier Seeley who subdivided the Beaufort Group into three biozones 3 4 which he named from oldest to youngest Zone of Pareiasaurians Zone of Dicynodonts Zone of highly specialized group of theriodonts Under Seeley s system the highly specialized theriodonts zone corresponds to the modern Cynognathus Assemblage Zone Seeley s proposed biozones were subdivided further by Robert Broom between 1906 and 1909 5 Broom proposed the following biozones from oldest to youngest Pareiasaurus beds Endothiodon beds Kistecephalus beds Lystrosaurus beds Procolophon beds Cynognathus beds These biozone divisions were approved by paleontologists of the time and were left largely unchanged for several decades 6 James Kitching retained the name of the Cynognathus zone in his revision of the biozones in the 1970s and 1980s 7 8 9 In 1995 he formalized the biozone under the name Cynognathus Assemblage Zone 1 In the mid 1990s new discoveries of additional outcrops presented the possibility that the Cynognathus Assemblage Zone could be subdivided further A 1995 paper split it into three subzones a lower subzone characterized by Kestrosaurus a middle subzone characterized by the classic zone fauna which was already well established and an upper zone with reduced diversity 10 This informal three part subdivision scheme was later labelled with letters as subzones A B and C from oldest to youngest until it was formalized with robust index taxa and type sections in 2020 Subzone A was formalized as the Langbergia Garjainia Subzone subzone B as the Trirachodon Kannemeyeria Subzone and subzone C as the Cricodon Ufudocyclops Subzone 1 From the late 1970s onwards some authors argued that Cynognathus was less common than previously considered so they instead renamed the biozone to the Kannemeyeria Assemblage Zone or Kannemeyeria Diademodon Assemblage Zone 11 12 However later work found that Kannemeyeria fossils were absent from Subzone A and while Diademodon was found throughout the biozone it had been usurped as a dominant taxon by larger trirachodontids by Subzone C 13 14 15 This meant that these species were not ideal index taxa for the biozone As Cynognathus fossils are found consistently throughout the current name for the biozone was retained Lithology editThe Cynognathus Assemblage Zone correlates with the Burgersdorp Formation in the upper Tarkastad Subgroup of the Beaufort Group 13 The Cynognathus Assemblage Zone contains argillaceous mudstone successions varying from maroon to reddish blueish green and greyish green in colour 16 The mudstones are interbedded with lenticular and feldspathic sandstones which appear greenish grey when fresh and brownish yellow when eroded out 17 18 Clay rich pebble conglomerates are also observed in some areas Complete articulated fossils are frequently found encased in calcareous nodules within the mudstone layers while complete skulls are mainly found in the sandstone The mudstones were likely deposited in low energy meandering fluvial environments alongside sand rich river channels The environment during time of deposition was semi arid but with seasonal rain and flooding due to the presence of crevasse splays in the mudstone layers A lack of well developed channel sandstones provides evidence for more lacustrine areas in the more northerly occurring outcrops of the biozone 15 The thickest outcrops of the Cynognathus Assemblage Zone reaching approximately 600 metres 2 000 ft occur between Queenstown and Lady Frere in the Eastern Cape Outcrops then thin out to between 200 and 100 metres 660 and 330 ft around Aliwal North Burgersdorp Steynsburg and Rouxville Thin outcrops are also found in areas in the Free State that border Lesotho 17 19 20 The Langbergia Garjainia Subzone Subzone A is most well exposed and fossiliferous in northeast Free State between Senekal and Bethlehem At the stratotype near Bethlehem it reaches around 50 m in thickness Exposures of this subzone rapidly decrease to the east disappearing around Bergville Although the subzone thickens further south to up to 100 m towards Aliwal North fossils diminish in abundance Sediments of Subzone A are likely present in the Eastern Cape though a lack of sufficient fossil material prevents it from being distinguished from younger strata 1 The Trirachodon Kannemeyeria Subzone Subzone B is the thickest and historically the most well studied portion of the Assemblage Zone It is primarily exposed in the Eastern Cape south of Lesotho Subzone B reaches up to 500 m thick at the stratotype between Queenstown and Lady Frere thinning northwards until it disappears east of Thaba Nchu The Cricodon Ufudocyclops Subzone Subzone C has limited exposures in the vicinity of Molteno and Sterkstroom in the Eastern Cape It reaches up to 150 m at its stratotype in Sterkstroom 1 Biostratigraphy editThe Cynognathus Assemblage Zone holds a rich diversity of fossil species of which it is most renowned for its cynodont fossils 13 21 Cynognathids diademodontids and trirachodontids are found throughout the Assemblage Zone In Subzone B the diademodontid Diademodon is far more common than trirachodontids However by the contact with Subzone C trirachodontids had become the dominant taxa Cynognathus is the common denominator with its fossils found throughout Subzones A C confirming its place as the index taxon of the biozone as a whole The large dicynodont Kannemeyeria simocephalus 22 appears in Subzone B alongside other anomodonts and therocephalian species can be found throughout the biozone Apart from synapsids the biozone is rich in other fossil fauna including procolophonid parareptiles and archosauromorph reptiles Plant fossils such as Dicroidium Dadoxylon and Schizoneura have been uncovered from limited areas corresponding to Subzones B C Aquatic life is well represented numerous species of temnospondyl amphibian fishes rare occurrences of molluscs and ichnofossils of arthropod trackways and vertebrate burrows have been discovered 17 Subzone A edit The Langbergia Garjainia Subzone Subzone A is the oldest subzone in the Cynognathus Assemblage Zone Its base is defined by the first appearance of Cynognathus crateronotus as well as the trirachodontid cynodont Langbergia modisei and the erythrosuchid archosauriform Garjainia madiba The temnospondyl amphibians Kestrosaurus and Parotosuchus haughtoni are also common and distinctive fossils of the Langbergia Garjainia Subzone Dicynodonts are absent unlike every other zone and subzone in the Beaufort Group 1 Subzone B edit The Trirachodon Kannemeyeria Subzone Subzone B corresponds to traditional conceptions of the Cynognathus Assemblage Zone Alongside abundant fossils of Cynognathus crateronotus the base of Subzone B sees the first appearance of fellow cynodonts Diademodon tetragonus and Trirachodon berryi Dicynodonts reappear with Kannemeyeria simocephalus while Xenotosuchus africanus is the most common temnospondyl in this subzone The Trirachodon Kannemeyeria Subzone also has the highest diversity of fish plants and archosauromorph reptiles in the entire Assemblage Zone The erythrosuchid Erythrosuchus africanus is a common component of the fauna 23 living alongside its smaller relative Euparkeria capensis 24 and several species of early rhynchosaurs Howesia browni 25 Eohyosaurus wolvaardti Mesosuchus browni 1 Subzone C edit The Cricodon Ufudocyclops Subzone Subzone C is the youngest subzone and has the most restricted exposures and fossil content Its base is defined by the first appearance of the trirachodontid Cricodon metabolus and the dicynodont Ufudocyclops mukanelai the only species which are common in this subzone Cynognathus and Diademodon still persist though they are far more rare than in the previous subzone Other species with utility for correlation include the temnospondyl Paracyclotosaurus morganorum and the dicynodont Shansiodon sp which co occur in the lower part of the subzone 1 Paleobiota editColor key Taxon Reclassified taxon Taxon falsely reported as present Dubious taxon or junior synonym Ichnotaxon Ootaxon Morphotaxon Notes Uncertain or tentative taxa are in small text crossed out taxa are discredited Temnospondyls edit Temnospondyls of the Burgersdorp Formation Genus Taxon Species Subzone Notes Images Bathignathus B poikilops Langbergia Garjainia Subzone A A brachyopid nbsp Jammerbergia formops nbsp Laidleria gracilis Batrachosuchus B browni Trirachodon Kannemeyeria Subzone B A brachyopid Jammerbergia J formops Trirachodon Kannemeyeria Subzone B A mastodonsaurid Kestrosaurus K dreyeri Langbergia Garjainia Subzone A A mastodonsaurid K kitchingi Langbergia Garjainia Subzone A A mastodonsaurid Laidleria L gracilis Trirachodon Kannemeyeria Subzone B A laidleriid Microposaurus M casei Trirachodon Kannemeyeria Subzone B A trematosaurid Paracyclotosaurus P morganorum Cricodon Ufudocyclops Subzone C A mastodonsaurid Parotosuchus P haughtoni Langbergia Garjainia Subzone A A mastodonsaurid Trematosuchus T sobeyi Langbergia Garjainia Subzone A A trematosaurid Vanastega V plurimidens Trirachodon Kannemeyeria Subzone B A brachyopid Xenotosuchus X africanus Trirachodon Kannemeyeria Subzone B A mastodonsaurid Synapsids edit Synapsids of the Burgersdorp Formation Genus Taxon Species Subzone Notes Images Bauria B cynops Trirachodon Kannemeyeria Subzone B A bauriid therocephalian nbsp Bauria cynops nbsp Diademodon tetragonus nbsp Ufudocylcops mukanelai Bolotridon B frerensis Trirachodon Kannemeyeria Subzone B An epicynodontian cynodont Cricodon C kannemeyeri Trirachodon Kannemeyeria Subzone B A trirachodontid cynodont C metabolus Cricodon Ufudocyclops Subzone C A trirachodontid cynodont Cynognathus C crateronotus Langbergia Garjainia Subzone A Trirachodon Kannemeyeria Subzone B Cricodon Ufudocyclops Subzone C A basal cynognathian cynodont Diademodon D tetragonus Trirachodon Kannemeyeria Subzone B Cricodon Ufudocyclops Subzone C A diademodontid cynodont Guttigomphus G avilionis Cricodon Ufudocyclops Subzone C 26 A trirachodontid cynodont Impidens I hancoxi Cricodon Ufudocyclops Subzone C A trirachodontid cynodont Kannemeyeria K simocephalus Trirachodon Kannemeyeria Subzone B A kannemeyeriiform dicynodont Kombuisia K frerensis Trirachodon Kannemeyeria Subzone B A kingoriid dicynodont Langbergia L modisei Langbergia Garjainia Subzone A A trirachodontid cynodont Lumkuia L fuzzi Trirachodon Kannemeyeria Subzone B A eucynodontian cynodont Microgomphodon M oligocynus Langbergia Garjainia Subzone A Trirachodon Kannemeyeria Subzone B A bauriid therocephalian Shansiodon S sp Cricodon Ufudocyclops Subzone C A shansiodontid dicynodont Trirachodon T berryi Trirachodon Kannemeyeria Subzone B A trirachodontid cynodont Ufudocyclops U mukanelai Cricodon Ufudocyclops Subzone C A stahleckeriid dicynodont Reptiles edit Reptiles of the Burgersdorp Formation Genus Taxon Species Subzone Notes Images Eohyosaurus E wolvaardti Trirachodon Kannemeyeria Subzone B A basal rhynchosaur nbsp Erythrosuchus africanus nbsp Euparkeria capensis nbsp Garjainia madiba nbsp Mesosuchus browni Erythrosuchus E africanus Trirachodon Kannemeyeria Subzone B An erythrosuchid archosauriform Euparkeria E capensis Trirachodon Kannemeyeria Subzone B A euparkeriid archosauriform Garjainia G madiba Langbergia Garjainia Subzone A An erythrosuchid archosauriform Howesia H browni Trirachodon Kannemeyeria Subzone B A basal rhynchosaur Mesosuchus M browni Trirachodon Kannemeyeria Subzone B A basal rhynchosaur Myocephalus M crassidens Trirachodon Kannemeyeria Subzone B A procolophonid parareptile Palacrodon P browni Langbergia Garjainia Subzone A Trirachodon Kannemeyeria Subzone B An indeterminate diapsid Procolophonidae indet Langbergia Garjainia Subzone A Indeterminate procolophonid parareptiles Teratophon T spinigenis Trirachodon Kannemeyeria Subzone B A procolophonine procolophonid parareptile Theledectes T perforates Trirachodon Kannemeyeria Subzone B A theledectine procolophonid parareptile Thelephon T contritus Trirachodon Kannemeyeria Subzone B A procolophonine procolophonid parareptile Thelerpeton T oppressus Trirachodon Kannemeyeria Subzone B A procolophonine procolophonid parareptileAge and correlations editBased on tentative biostratigraphic correlations the Cynognathus Assemblage Zone is considered to have been emplaced from approximately 249 to 244 Ma in the later part of the Early Triassic and early part of the Middle Triassic Based on the presence of Garjainia and Parotosuchus the Langbergia Garjainia Subzone is correlated with the Yarenskian Gorizont Parotosuchus fauna of Russia The Parotosuchus fauna exemplified by the Petropavlovskya Svita a local lithological unit is assigned to the late Olenekian Stage latest Early Triassic about 249 247 Ma based on correlation with nearby marine fauna 1 The classic faunal assemblage of the Trirachodon Kannemeyeria Subzone is correlated with a wide variety of geological formations 27 Similar cynodont and dicynodont species are known from the Lower Omingonde Formation of Namibia 28 29 the Lower Ntawere Formation of Zambia 30 and the lower Lifua Member of the Tanzanian Manda Beds 31 These correlations can be extended beyond Africa as far as the Fremouw Formation of Antarctica Donguz Formation Eryosuchus fauna of Russia and Lower Ermaying Formation of China 1 Cynognathus and Diademodon fossils have even been found in the Rio Seco de la Quebrada Formation of Mendoza Province Argentina 32 These formations are often considered early Anisian in age earliest Middle Triassic about 247 Ma 1 However there is some debate over their age one ash bed below the Rio Seco de la Quebrada Formation was radiometrically dated to around 236 Ma early Carnian much younger than previously suggested purely based on tetrapod biostratigraphy 33 The classic Cynognathus Assemblage Zone has been equated with the Nonesian Land Vertebrate Faunachron part of a heavily debated global system of Triassic tetrapod biostratigraphy 34 The Cricodon Ufudocyclops Subzone may be correlated with the upper parts of the Omingonde Ntawere and Manda Formations in Africa 30 Paracyclotosaurus is also known from the Yerrapalli Formation and Upper Denwa Formation of India 35 while Shansiodon is found in the Upper Ermaying Formation Sinokannemeyeria fauna of China 1 Shansiodon defines the base of the Perovkan Land Vertebrate Faunachron which has been applied in a global context 34 These formations may be late Anisian in age a suggestion supported by radiometric dating which positions the Upper Ermaying Formation at around 244 Ma 36 See also edit nbsp Paleontology portal Geology of Lesotho Geology of Namibia Geology of South Africa Santa Maria Formation Triassic land vertebrate faunachronsReferences edit a b c d e f g h i j k l Hancox P J Neveling J Rubidge B S 2020 06 01 Biostratigraphy of the Cynognathus Assemblage Zone Beaufort Group Karoo Supergroup South Africa South African Journal of Geology 123 2 217 238 Bibcode 2020SAJG 123 217H doi 10 25131 sajg 123 0016 ISSN 1012 0750 S2CID 225828531 Bain Andrew Geddes 1845 02 01 On the Discovery of the Fossil Remains of Bidental and other Reptiles in South Africa Quarterly Journal of the Geological Society 1 1 317 318 doi 10 1144 GSL JGS 1845 001 01 72 hdl 2027 uc1 c034667778 ISSN 0370 291X S2CID 128602890 Seeley H G 1894 Researches on the Structure Organisation and Classification of the Fossil Reptilia Part IX Section 1 On the Therosuchia Philosophical Transactions of the Royal Society of London Series B 185 987 1018 doi 10 1098 rstb 1894 0021 JSTOR 91788 Seeley H G 1895 Researches on the Structure Organization and Classification of the Fossil Reptilia Part IX Section 4 On the Gomphodontia Philosophical Transactions of the Royal Society of London B 186 1 57 Bibcode 1895RSPTB 186 1S doi 10 1098 rstb 1895 0001 JSTOR 91793 Broom R January 1906 V On the Permian and Triassic Faunas of South Africa Geological Magazine 3 1 29 30 Bibcode 1906GeoM 3 29B doi 10 1017 S001675680012271X ISSN 1469 5081 S2CID 129265956 Watson D M S May 1914 II The Zones of the Beaufort Beds of the Karroo System in South Africa Geological Magazine 1 5 203 208 Bibcode 1914GeoM 1 203W doi 10 1017 S001675680019675X ISSN 1469 5081 S2CID 130747924 Kitching J W 1970 A short review of the Beaufort zoning in South Africa In Second Gondwana Symposium Proceedings and Papers Vol 1 pp 309 312 Inside front cover South African Journal of Science 75 2 1979 02 01 ISSN 0038 2353 Kitching J W 1984 A reassessment of the biozonation of the Beaufort Group Paleo News 4 1 12 13 Hancox P J Shishkin M A Rubidge B S Kitching J W 1995 A threefold subdivision of the Cynognathus Assemblage Zone Beaufort Group South Africa and its palaeogeographical implications South African Journal of Science 91 143 144 Keyser A W amp Smith R M H 1978 Vertebrate biozonation of the Beaufort Group with special reference to the western Karoo Basin Geological Survey Department of Mineral And Energy Affairs Republic of South Africa Keyser A W 1979 A review of the biostratigraphy of the Beaufort Group in the Karoo Basin of South Africa Geocongress Geological Society of South Africa 2 13 31 a b c Abdala Fernando Hancox P John Neveling Johann 2005 03 11 Cynodonts from the Uppermost Burgersdorp Formation South Africa and their bearing on the biostratigraphy and correlation of the TriassicCynognathusAssemblage Zone Journal of Vertebrate Paleontology 25 1 192 199 doi 10 1671 0272 4634 2005 025 0192 cftubf 2 0 co 2 ISSN 0272 4634 S2CID 130311691 Merrill van der Walt Michael Day Bruce Rubidge K Cooper Antony Inge Netterberg December 2010 A new GIS based biozone map of the Beaufort Group Karoo Supergroup South Africa Palaeontologia Africana ISSN 0078 8554 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link a b Rubidge Bruce S Day Michael O Barbolini Natasha Hancox P John Choiniere Jonah N Bamford Marion K Viglietti Pia A McPhee Blair W Jirah Sifelani 2016 Advances in Nonmarine Karoo Biostratigraphy Significance for Understanding Basin Development Origin and Evolution of the Cape Mountains and Karoo Basin Regional Geology Reviews Springer International Publishing pp 141 149 doi 10 1007 978 3 319 40859 0 14 ISBN 9783319408583 Hancox P John Angielczyk Kenneth D Rubidge Bruce S May 2013 Angonisaurus and Shansiodon dicynodonts Therapsida Anomodontia from subzone C of the Cynognathus Assemblage Zone Middle Triassic of South Africa Journal of Vertebrate Paleontology 33 3 655 676 Bibcode 2013JVPal 33 655H doi 10 1080 02724634 2013 723551 ISSN 0272 4634 S2CID 128538910 a b c RUBIDGE B S 1995 Biostratigraphy of the Beaufort Group South African Commission for Stratigaphy Biostratigraphic Series 1 1 45 J Neveling 2016 09 22 Biostratigraphic and sedimentological investigation of the contact between theLystrosaurusandCynognathusassemblage zones Beaufort group Karoo supergroup Doctoral thesis Archived from the original on 2018 07 31 Retrieved 2018 07 31 Merrill van der Walt Michael Day Bruce Rubidge K Cooper Antony Inge Netterberg December 2010 A new GIS based biozone map of the Beaufort Group Karoo Supergroup South Africa Palaeontologia Africana ISSN 0078 8554 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Kitching J W Welman J Groenewald G H 1991 01 01 Confirmation of the occurrence of Cynognathus Zone Kannemeyeria Diademodon Assemblage zone deposits uppermost Beaufort Group in the northeastern Orange Free State South Africa South African Journal of Geology 94 2 3 ISSN 1012 0750 Botha Jennifer Chinsamy Anusuya 2001 01 19 Growth patterns deduced from the bone histology of the cynodonts Diademodon and Cynognathus Journal of Vertebrate Paleontology 20 4 705 711 doi 10 1671 0272 4634 2000 020 0705 gpdftb 2 0 co 2 ISSN 0272 4634 S2CID 85818945 Romala Govender John Hancox Phillip M Yates Adam April 2008 Re evaluation of the postcranial skeleton of the Triassic dicynodont Kannemeyria simocephalus from the Cynognathus Assemblage Zone Subzone B of South Africa Palaeontologia Africana ISSN 0078 8554 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Botha Brink Jennifer Smith Roger M H November 2011 Osteohistology of the Triassic archosauromorphs such as Prolacerta Proterosuchus Euparkeria and Erythrosuchus from the Karoo Basin of South Africa Journal of Vertebrate Paleontology 31 6 1238 1254 doi 10 1080 02724634 2011 621797 ISSN 0272 4634 S2CID 130744235 Sobral Gabriela Sookias Roland B Bhullar Bhart Anjan S Smith Roger Butler Richard J Muller Johannes 2016 07 01 New information on the braincase and inner ear of Euparkeria capensis Broom implications for diapsid and archosaur evolution Royal Society Open Science 3 7 160072 Bibcode 2016RSOS 360072S doi 10 1098 rsos 160072 ISSN 2054 5703 PMC 4968458 PMID 27493766 Dilkes D W 1995 The rhynchosaur Howesia browni from the Lower Triassic of South Africa Palaeontology 38 3 665 686 Rayner Romy R Butler Richard J Kammerer Christian F Choiniere Jonah N 2022 12 16 Guttigomphus avilionis gen et sp nov a trirachodontid cynodont from the upper Cynognathus Assemblage Zone Burgersdorp Formation of South Africa PeerJ 10 e14355 doi 10 7717 peerj 14355 ISSN 2167 8359 PMC 9762250 PMID 36545384 S2CID 254818320 Hancox P J Rubidge B S 2001 01 01 Breakthroughs in the biodiversity biogeography biostratigraphy and basin analysis of the Beaufort group Journal of African Earth Sciences 33 3 4 563 577 Bibcode 2001JAfES 33 563H doi 10 1016 S0899 5362 01 00081 1 ISSN 1464 343X Abdala Fernando Marsicano Claudia A Smith Roger M H Swart Roger 2013 04 01 Strengthening Western Gondwanan correlations A Brazilian Dicynodont Synapsida Anomodontia in the Middle Triassic of Namibia Gondwana Research 23 3 1151 1162 Bibcode 2013GondR 23 1151A doi 10 1016 j gr 2012 07 011 hdl 11336 11481 ISSN 1342 937X Abdala Fernando Smith Roger M H 2009 09 12 A Middle Triassic cynodont fauna from Namibia and its implications for the biogeography of Gondwana Journal of Vertebrate Paleontology 29 3 837 851 Bibcode 2009JVPal 29 837A doi 10 1671 039 029 0303 ISSN 0272 4634 S2CID 129096876 a b Peecook Brandon R Steyer J Sebastien Tabor Neil J Smith Roger M H 2017 11 29 Updated geology and vertebrate paleontology of the Triassic Ntawere Formation of northeastern Zambia with special emphasis on the archosauromorphs Journal of Vertebrate Paleontology 37 sup1 8 38 Bibcode 2017JVPal 37S 8P doi 10 1080 02724634 2017 1410484 ISSN 0272 4634 S2CID 133878741 CRUICKSHANK A R I June 1965 On a specimen of the Anomodont reptile Kannemeyeria latifrons Broom from the Manda Formation of Tanganyika Tanzania Proceedings of the Linnean Society of London 176 2 149 157 doi 10 1111 j 1095 8312 1965 tb00941 x ISSN 0370 0461 Martinelli Agustin G Fuente Marcelo De La Abdala Fernando 2009 09 12 Diademodon tetragonus Seeley 1894 Therapsida Cynodontia in the Triassic of South America and its biostratigraphic implications Journal of Vertebrate Paleontology 29 3 852 862 Bibcode 2009JVPal 29 852M doi 10 1671 039 029 0315 ISSN 0272 4634 S2CID 83776819 Ottone Eduardo G Monti Mariana Marsicano Claudia A de la Fuente Marcelo S Naipauer Maximiliano Armstrong Richard Mancuso Adriana C 2014 12 01 A new Late Triassic age for the Puesto Viejo Group San Rafael depocenter Argentina SHRIMP U Pb zircon dating and biostratigraphic correlations across southern Gondwana Journal of South American Earth Sciences 56 186 199 Bibcode 2014JSAES 56 186O doi 10 1016 j jsames 2014 08 008 hdl 11336 85022 ISSN 0895 9811 a b Lucas Spencer G 1998 11 01 Global Triassic tetrapod biostratigraphy and biochronology Palaeogeography Palaeoclimatology Palaeoecology 143 4 347 384 Bibcode 1998PPP 143 347L doi 10 1016 S0031 0182 98 00117 5 ISSN 0031 0182 Sengupta Saradee Ezcurra Martin D Bandyopadhyay Saswati 2017 08 21 A new horned and long necked herbivorous stem archosaur from the Middle Triassic of India Scientific Reports 7 1 8366 Bibcode 2017NatSR 7 8366S doi 10 1038 s41598 017 08658 8 ISSN 2045 2322 PMC 5567049 PMID 28827583 Liu Jun Ramezani Jahandar Li Lu Shang Qing Hua Xu Guang Hui Wang Yan Yin Yang Jia Sheng January 2018 High precision temporal calibration of Middle Triassic vertebrate biostratigraphy U Pb zircon constraints for the Sinokannemeyeria Fauna and Yonghesuchus Vertebrata PalAsiatica 56 1 16 24 doi 10 19615 j cnki 1000 3118 170808 Bibliography edit Ezcurra Martin D 2016 The phylogenetic relationships of basal archosauromorphs with an emphasis on the systematics of proterosuchian archosauriforms PDF PeerJ 4e1778 e1778 doi 10 7717 peerj 1778 PMC 4860341 PMID 27162705 Archived from the original PDF on 2017 12 02 Retrieved 2019 03 14 Retrieved from https en wikipedia org w index php title Cynognathus Assemblage Zone amp oldid 1193167306, wikipedia, wiki, book, books, library,

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