A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation
- Autores
- Siccardi, Aron
- Año de publicación
- 2015
- Idioma
- inglés
- Tipo de recurso
- documento de conferencia
- Estado
- versión publicada
- Descripción
- The fist collections of Silurian-Devonian brachiopods fromSouth America were realized by Charles Darwin (1833) inthe Malvinas Islands, during his voyage on the H.M.S. Beaglearound the world and they were lately described by Morris andSharpe (1846). After that Clarke?s monograph (1913) provided anapproach on systematics and paleobiogeography of this fauna.Contemporary works were mainly focused in the Proto-Andeanmargin but the Silurian-Devonian faunas from the Atlanticoutcrops (Fig. 1) especially those of North Patagonian Massif(Müller, 1965), Ventania (Andreis, 1964), Eastern Paraguay(Harrington, 1950; Wolfart, 1961) and Uruguay (Méndez-Alzola,1938), remained poorly studied.The Silurian brachiopods reviewed come from Sierra GrandeFormation (Northern Patagonia) and Vargas Peña Formation(Eastern Paraguay, Parana Basin). This two sections bearingiron levels, ranging from iron coating to oolitic ironstones. Fromthe Sierra Grande Formation two oolitic iron levels are recognised; below the fist iron level it is found the fauna described asHeterorthella freitana-Clarkeia antisiensis (Müller, 1965); belowthe second iron level, the suggested presence of Conularia quichua-Bainella sp hinted a Lower Devonian age. However, recentstudies (Siccardi et al. 2014), allowed recognized the Llandoverianbrachiopods Eostropheondonta chilcaensis (BENEDETTO,1995), Heterorthella? sp, Dalmanella? sp, Hindella? sp. andRessellerids (Resserella?, Vysbiella?). In addition, a trilobite assemblage dominated by Eoleonaspis sp, supports theLlandoverian age (Rustán et al. 2013). The Vargas Peña Formationis included in the siliciclastic sequence of the Itacurubí Group(Hirnantian-Lower Silurian) and its brachiopod faunas knownfrom are composed by Anabaia paraguayensis (HARRINGTON,1950), accompanied of scarce inarticulates (Obolidae? indet.);the age assigned to this assemblage is Aeronian to late Telychian(Tortello et al. 2012 and references therein). Even though, in theParaguayan outcrops oolitic ironstones have not been found, theyare mentioned in subsurface drills.Fig.1. Outcrop location. (A) Eastern Paraguay. (B) Uruguay (DuraznoDepartment). (C) Sierra de la Ventana. (D) Sierra Grande.The Lower Devonian brachiopod faunas that integrate thisstudy have been collected from outcrops of the Lolén Formation(Sierra de la Ventana) and the Cordobés Formation (Uruguay,Durazno Department). In the base of the Lolén unit, the uppermostin the Ventana Group (Silurian?-Middle Devonian), an assemblage composed by Cryptonella sp, Schellwienella sp, Leptocoeliasp and Derbyia sp was originally mentioned by Andreis (1964)Following contributions (Isaacson, 1975, 1991), have also mentioned the presence of Proboscidina arcei ISAACSON, 1977. Thefauna of the Lolen Formation is characterized by the low diversity and the strong deformation. However, the new collection fromthe recent fild works has allowed to confim the presence of thetaxon previously described, as well as to identify the brachiopodsMutationelidae? indet, Orbiculoidea? sp, and Pleurothyrella?sp.,accompanied by the bivalves Nuculites sp. The age suggestedfor this brachiopod assemblage is Lochkovian-Pragian (SuarezSoruco, 2000). Devonian brachiopods from Uruguay registeredin the Cordobés Formation (Durazno Group) are more diversifidand associated to the Cordobés Formation, a dominantly shalysequence. An Emsian faunal assemblage, dominated by the brachiopods Australocoelia palmata (MORRIS AND SHARPE,1846) and Orbiculoidea bainii? SHARPE, 1856, accompaniedby the less abundant Derbyina? sp., Pleurochonetes falklandicus (MORRIS AND SHARPE, 1846), Iridistrophia? sp. andGigadiscina collis (CLARKE,1913) has been herein recognized.The mixed dominance could be explained due to the overlap of theOrbiculoidea and Australocoelia communities.According to the available data the Silurian correlationswith others South American basins could be based on keyfaunal assemblages and sedimentary events: oolitic ironstonesin the Proto-Andean margin and the glacial event in the Northeastern Brazil. The presences of oolitic ironstones between thefaunas considered would provide an additional correlation tool.The oolitic ironstones are well-known from the Proto- Andeanmargin and having a biostratigraphical control. The oldest agesdefied are Late Rhuddanian and the youngest, Late Telychian.When considering the hypothesis of the ironstones deposition andthe glaciation events (Caputo, 1998), they could be traced as aresponse of interglacial early transgressive stages, during the lastpulse of the Early Palaeozoic Glacial event. In the Sierra GrandeFormation the Eostropheondonta and Ressellerids associationdominate the brachiopod assemblage having an Ordovician mark,plus the absence of Ordovician key genera indicate a (Lower?)Rhuddanian age. Wenlockian faunas have not been registered inthe studied sections. The correlations proposed are schematisedin Fig.2.Within the Lower Devonian interval, three key species couldbe recognised: Proboscidina arcei, Scaphiocoelia boliviensisWHITFIELD, 1890 and Australocoelia palmata. The fist one,apart from being founded in Sierra de la Ventana, it is abundantduring Lochkovian-Pragian times in several Bolivian localitiesand South Africa (Uppermost Nardouw Subgroup, BaviaanskloofFormation. Meanwhile Scaphiocoelia is traditionally proposed asa Pragian key genus, but it restricted to Bolivia and South Africaand records from others basins (Brazil and Precordillera) are confusing. During the Emsian stage, Australocoelia palmata becamea common (and dominant) component of most of the shallowwater brachiopod assemblages.
Fil: Siccardi, Aron. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Centro de Investigaciones Geológicas. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Centro de Investigaciones Geológicas; Argentina
7th International Brachiopod Congress
Nanjing
China
The Nanjing Institute of Geology and Palaeontology
Chinese Academy of Sciences - Materia
-
BRACHIOPODS
SILURIAN
DEVONIAN
BIOSTRATIGRAPHY - Nivel de accesibilidad
- acceso abierto
- Condiciones de uso
- https://creativecommons.org/licenses/by-nc-sa/2.5/ar/
- Repositorio
.jpg)
- Institución
- Consejo Nacional de Investigaciones Científicas y Técnicas
- OAI Identificador
- oai:ri.conicet.gov.ar:11336/225919
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A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlationSiccardi, AronBRACHIOPODSSILURIANDEVONIANBIOSTRATIGRAPHYhttps://purl.org/becyt/ford/1.5https://purl.org/becyt/ford/1The fist collections of Silurian-Devonian brachiopods fromSouth America were realized by Charles Darwin (1833) inthe Malvinas Islands, during his voyage on the H.M.S. Beaglearound the world and they were lately described by Morris andSharpe (1846). After that Clarke?s monograph (1913) provided anapproach on systematics and paleobiogeography of this fauna.Contemporary works were mainly focused in the Proto-Andeanmargin but the Silurian-Devonian faunas from the Atlanticoutcrops (Fig. 1) especially those of North Patagonian Massif(Müller, 1965), Ventania (Andreis, 1964), Eastern Paraguay(Harrington, 1950; Wolfart, 1961) and Uruguay (Méndez-Alzola,1938), remained poorly studied.The Silurian brachiopods reviewed come from Sierra GrandeFormation (Northern Patagonia) and Vargas Peña Formation(Eastern Paraguay, Parana Basin). This two sections bearingiron levels, ranging from iron coating to oolitic ironstones. Fromthe Sierra Grande Formation two oolitic iron levels are recognised; below the fist iron level it is found the fauna described asHeterorthella freitana-Clarkeia antisiensis (Müller, 1965); belowthe second iron level, the suggested presence of Conularia quichua-Bainella sp hinted a Lower Devonian age. However, recentstudies (Siccardi et al. 2014), allowed recognized the Llandoverianbrachiopods Eostropheondonta chilcaensis (BENEDETTO,1995), Heterorthella? sp, Dalmanella? sp, Hindella? sp. andRessellerids (Resserella?, Vysbiella?). In addition, a trilobite assemblage dominated by Eoleonaspis sp, supports theLlandoverian age (Rustán et al. 2013). The Vargas Peña Formationis included in the siliciclastic sequence of the Itacurubí Group(Hirnantian-Lower Silurian) and its brachiopod faunas knownfrom are composed by Anabaia paraguayensis (HARRINGTON,1950), accompanied of scarce inarticulates (Obolidae? indet.);the age assigned to this assemblage is Aeronian to late Telychian(Tortello et al. 2012 and references therein). Even though, in theParaguayan outcrops oolitic ironstones have not been found, theyare mentioned in subsurface drills.Fig.1. Outcrop location. (A) Eastern Paraguay. (B) Uruguay (DuraznoDepartment). (C) Sierra de la Ventana. (D) Sierra Grande.The Lower Devonian brachiopod faunas that integrate thisstudy have been collected from outcrops of the Lolén Formation(Sierra de la Ventana) and the Cordobés Formation (Uruguay,Durazno Department). In the base of the Lolén unit, the uppermostin the Ventana Group (Silurian?-Middle Devonian), an assemblage composed by Cryptonella sp, Schellwienella sp, Leptocoeliasp and Derbyia sp was originally mentioned by Andreis (1964)Following contributions (Isaacson, 1975, 1991), have also mentioned the presence of Proboscidina arcei ISAACSON, 1977. Thefauna of the Lolen Formation is characterized by the low diversity and the strong deformation. However, the new collection fromthe recent fild works has allowed to confim the presence of thetaxon previously described, as well as to identify the brachiopodsMutationelidae? indet, Orbiculoidea? sp, and Pleurothyrella?sp.,accompanied by the bivalves Nuculites sp. The age suggestedfor this brachiopod assemblage is Lochkovian-Pragian (SuarezSoruco, 2000). Devonian brachiopods from Uruguay registeredin the Cordobés Formation (Durazno Group) are more diversifidand associated to the Cordobés Formation, a dominantly shalysequence. An Emsian faunal assemblage, dominated by the brachiopods Australocoelia palmata (MORRIS AND SHARPE,1846) and Orbiculoidea bainii? SHARPE, 1856, accompaniedby the less abundant Derbyina? sp., Pleurochonetes falklandicus (MORRIS AND SHARPE, 1846), Iridistrophia? sp. andGigadiscina collis (CLARKE,1913) has been herein recognized.The mixed dominance could be explained due to the overlap of theOrbiculoidea and Australocoelia communities.According to the available data the Silurian correlationswith others South American basins could be based on keyfaunal assemblages and sedimentary events: oolitic ironstonesin the Proto-Andean margin and the glacial event in the Northeastern Brazil. The presences of oolitic ironstones between thefaunas considered would provide an additional correlation tool.The oolitic ironstones are well-known from the Proto- Andeanmargin and having a biostratigraphical control. The oldest agesdefied are Late Rhuddanian and the youngest, Late Telychian.When considering the hypothesis of the ironstones deposition andthe glaciation events (Caputo, 1998), they could be traced as aresponse of interglacial early transgressive stages, during the lastpulse of the Early Palaeozoic Glacial event. In the Sierra GrandeFormation the Eostropheondonta and Ressellerids associationdominate the brachiopod assemblage having an Ordovician mark,plus the absence of Ordovician key genera indicate a (Lower?)Rhuddanian age. Wenlockian faunas have not been registered inthe studied sections. The correlations proposed are schematisedin Fig.2.Within the Lower Devonian interval, three key species couldbe recognised: Proboscidina arcei, Scaphiocoelia boliviensisWHITFIELD, 1890 and Australocoelia palmata. The fist one,apart from being founded in Sierra de la Ventana, it is abundantduring Lochkovian-Pragian times in several Bolivian localitiesand South Africa (Uppermost Nardouw Subgroup, BaviaanskloofFormation. Meanwhile Scaphiocoelia is traditionally proposed asa Pragian key genus, but it restricted to Bolivia and South Africaand records from others basins (Brazil and Precordillera) are confusing. During the Emsian stage, Australocoelia palmata becamea common (and dominant) component of most of the shallowwater brachiopod assemblages.Fil: Siccardi, Aron. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Centro de Investigaciones Geológicas. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Centro de Investigaciones Geológicas; Argentina7th International Brachiopod CongressNanjingChinaThe Nanjing Institute of Geology and PalaeontologyChinese Academy of SciencesInternational Comission on Stratigraphy. International Union of Geological SciencesHuang, BingShen, Shuzhong2015info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/conferenceObjectCongresoJournalhttp://purl.org/coar/resource_type/c_5794info:ar-repo/semantics/documentoDeConferenciaapplication/pdfapplication/pdfapplication/pdfhttp://hdl.handle.net/11336/225919A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation; 7th International Brachiopod Congress; Nanjing; China; 2015; 79-811684-5927CONICET DigitalCONICETenginfo:eu-repo/semantics/altIdentifier/url/https://permian.stratigraphy.org/files/permophiles/20150525214216969.pdfInternacionalinfo:eu-repo/semantics/openAccesshttps://creativecommons.org/licenses/by-nc-sa/2.5/ar/reponame:CONICET Digital (CONICET)instname:Consejo Nacional de Investigaciones Científicas y Técnicas2025-09-29T09:55:28Zoai:ri.conicet.gov.ar:11336/225919instacron:CONICETInstitucionalhttp://ri.conicet.gov.ar/Organismo científico-tecnológicoNo correspondehttp://ri.conicet.gov.ar/oai/requestdasensio@conicet.gov.ar; lcarlino@conicet.gov.arArgentinaNo correspondeNo correspondeNo correspondeopendoar:34982025-09-29 09:55:28.552CONICET Digital (CONICET) - Consejo Nacional de Investigaciones Científicas y Técnicasfalse |
| dc.title.none.fl_str_mv |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation |
| title |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation |
| spellingShingle |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation Siccardi, Aron BRACHIOPODS SILURIAN DEVONIAN BIOSTRATIGRAPHY |
| title_short |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation |
| title_full |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation |
| title_fullStr |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation |
| title_full_unstemmed |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation |
| title_sort |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation |
| dc.creator.none.fl_str_mv |
Siccardi, Aron |
| author |
Siccardi, Aron |
| author_facet |
Siccardi, Aron |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Huang, Bing Shen, Shuzhong |
| dc.subject.none.fl_str_mv |
BRACHIOPODS SILURIAN DEVONIAN BIOSTRATIGRAPHY |
| topic |
BRACHIOPODS SILURIAN DEVONIAN BIOSTRATIGRAPHY |
| purl_subject.fl_str_mv |
https://purl.org/becyt/ford/1.5 https://purl.org/becyt/ford/1 |
| dc.description.none.fl_txt_mv |
The fist collections of Silurian-Devonian brachiopods fromSouth America were realized by Charles Darwin (1833) inthe Malvinas Islands, during his voyage on the H.M.S. Beaglearound the world and they were lately described by Morris andSharpe (1846). After that Clarke?s monograph (1913) provided anapproach on systematics and paleobiogeography of this fauna.Contemporary works were mainly focused in the Proto-Andeanmargin but the Silurian-Devonian faunas from the Atlanticoutcrops (Fig. 1) especially those of North Patagonian Massif(Müller, 1965), Ventania (Andreis, 1964), Eastern Paraguay(Harrington, 1950; Wolfart, 1961) and Uruguay (Méndez-Alzola,1938), remained poorly studied.The Silurian brachiopods reviewed come from Sierra GrandeFormation (Northern Patagonia) and Vargas Peña Formation(Eastern Paraguay, Parana Basin). This two sections bearingiron levels, ranging from iron coating to oolitic ironstones. Fromthe Sierra Grande Formation two oolitic iron levels are recognised; below the fist iron level it is found the fauna described asHeterorthella freitana-Clarkeia antisiensis (Müller, 1965); belowthe second iron level, the suggested presence of Conularia quichua-Bainella sp hinted a Lower Devonian age. However, recentstudies (Siccardi et al. 2014), allowed recognized the Llandoverianbrachiopods Eostropheondonta chilcaensis (BENEDETTO,1995), Heterorthella? sp, Dalmanella? sp, Hindella? sp. andRessellerids (Resserella?, Vysbiella?). In addition, a trilobite assemblage dominated by Eoleonaspis sp, supports theLlandoverian age (Rustán et al. 2013). The Vargas Peña Formationis included in the siliciclastic sequence of the Itacurubí Group(Hirnantian-Lower Silurian) and its brachiopod faunas knownfrom are composed by Anabaia paraguayensis (HARRINGTON,1950), accompanied of scarce inarticulates (Obolidae? indet.);the age assigned to this assemblage is Aeronian to late Telychian(Tortello et al. 2012 and references therein). Even though, in theParaguayan outcrops oolitic ironstones have not been found, theyare mentioned in subsurface drills.Fig.1. Outcrop location. (A) Eastern Paraguay. (B) Uruguay (DuraznoDepartment). (C) Sierra de la Ventana. (D) Sierra Grande.The Lower Devonian brachiopod faunas that integrate thisstudy have been collected from outcrops of the Lolén Formation(Sierra de la Ventana) and the Cordobés Formation (Uruguay,Durazno Department). In the base of the Lolén unit, the uppermostin the Ventana Group (Silurian?-Middle Devonian), an assemblage composed by Cryptonella sp, Schellwienella sp, Leptocoeliasp and Derbyia sp was originally mentioned by Andreis (1964)Following contributions (Isaacson, 1975, 1991), have also mentioned the presence of Proboscidina arcei ISAACSON, 1977. Thefauna of the Lolen Formation is characterized by the low diversity and the strong deformation. However, the new collection fromthe recent fild works has allowed to confim the presence of thetaxon previously described, as well as to identify the brachiopodsMutationelidae? indet, Orbiculoidea? sp, and Pleurothyrella?sp.,accompanied by the bivalves Nuculites sp. The age suggestedfor this brachiopod assemblage is Lochkovian-Pragian (SuarezSoruco, 2000). Devonian brachiopods from Uruguay registeredin the Cordobés Formation (Durazno Group) are more diversifidand associated to the Cordobés Formation, a dominantly shalysequence. An Emsian faunal assemblage, dominated by the brachiopods Australocoelia palmata (MORRIS AND SHARPE,1846) and Orbiculoidea bainii? SHARPE, 1856, accompaniedby the less abundant Derbyina? sp., Pleurochonetes falklandicus (MORRIS AND SHARPE, 1846), Iridistrophia? sp. andGigadiscina collis (CLARKE,1913) has been herein recognized.The mixed dominance could be explained due to the overlap of theOrbiculoidea and Australocoelia communities.According to the available data the Silurian correlationswith others South American basins could be based on keyfaunal assemblages and sedimentary events: oolitic ironstonesin the Proto-Andean margin and the glacial event in the Northeastern Brazil. The presences of oolitic ironstones between thefaunas considered would provide an additional correlation tool.The oolitic ironstones are well-known from the Proto- Andeanmargin and having a biostratigraphical control. The oldest agesdefied are Late Rhuddanian and the youngest, Late Telychian.When considering the hypothesis of the ironstones deposition andthe glaciation events (Caputo, 1998), they could be traced as aresponse of interglacial early transgressive stages, during the lastpulse of the Early Palaeozoic Glacial event. In the Sierra GrandeFormation the Eostropheondonta and Ressellerids associationdominate the brachiopod assemblage having an Ordovician mark,plus the absence of Ordovician key genera indicate a (Lower?)Rhuddanian age. Wenlockian faunas have not been registered inthe studied sections. The correlations proposed are schematisedin Fig.2.Within the Lower Devonian interval, three key species couldbe recognised: Proboscidina arcei, Scaphiocoelia boliviensisWHITFIELD, 1890 and Australocoelia palmata. The fist one,apart from being founded in Sierra de la Ventana, it is abundantduring Lochkovian-Pragian times in several Bolivian localitiesand South Africa (Uppermost Nardouw Subgroup, BaviaanskloofFormation. Meanwhile Scaphiocoelia is traditionally proposed asa Pragian key genus, but it restricted to Bolivia and South Africaand records from others basins (Brazil and Precordillera) are confusing. During the Emsian stage, Australocoelia palmata becamea common (and dominant) component of most of the shallowwater brachiopod assemblages. Fil: Siccardi, Aron. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Centro de Investigaciones Geológicas. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Centro de Investigaciones Geológicas; Argentina 7th International Brachiopod Congress Nanjing China The Nanjing Institute of Geology and Palaeontology Chinese Academy of Sciences |
| description |
The fist collections of Silurian-Devonian brachiopods fromSouth America were realized by Charles Darwin (1833) inthe Malvinas Islands, during his voyage on the H.M.S. Beaglearound the world and they were lately described by Morris andSharpe (1846). After that Clarke?s monograph (1913) provided anapproach on systematics and paleobiogeography of this fauna.Contemporary works were mainly focused in the Proto-Andeanmargin but the Silurian-Devonian faunas from the Atlanticoutcrops (Fig. 1) especially those of North Patagonian Massif(Müller, 1965), Ventania (Andreis, 1964), Eastern Paraguay(Harrington, 1950; Wolfart, 1961) and Uruguay (Méndez-Alzola,1938), remained poorly studied.The Silurian brachiopods reviewed come from Sierra GrandeFormation (Northern Patagonia) and Vargas Peña Formation(Eastern Paraguay, Parana Basin). This two sections bearingiron levels, ranging from iron coating to oolitic ironstones. Fromthe Sierra Grande Formation two oolitic iron levels are recognised; below the fist iron level it is found the fauna described asHeterorthella freitana-Clarkeia antisiensis (Müller, 1965); belowthe second iron level, the suggested presence of Conularia quichua-Bainella sp hinted a Lower Devonian age. However, recentstudies (Siccardi et al. 2014), allowed recognized the Llandoverianbrachiopods Eostropheondonta chilcaensis (BENEDETTO,1995), Heterorthella? sp, Dalmanella? sp, Hindella? sp. andRessellerids (Resserella?, Vysbiella?). In addition, a trilobite assemblage dominated by Eoleonaspis sp, supports theLlandoverian age (Rustán et al. 2013). The Vargas Peña Formationis included in the siliciclastic sequence of the Itacurubí Group(Hirnantian-Lower Silurian) and its brachiopod faunas knownfrom are composed by Anabaia paraguayensis (HARRINGTON,1950), accompanied of scarce inarticulates (Obolidae? indet.);the age assigned to this assemblage is Aeronian to late Telychian(Tortello et al. 2012 and references therein). Even though, in theParaguayan outcrops oolitic ironstones have not been found, theyare mentioned in subsurface drills.Fig.1. Outcrop location. (A) Eastern Paraguay. (B) Uruguay (DuraznoDepartment). (C) Sierra de la Ventana. (D) Sierra Grande.The Lower Devonian brachiopod faunas that integrate thisstudy have been collected from outcrops of the Lolén Formation(Sierra de la Ventana) and the Cordobés Formation (Uruguay,Durazno Department). In the base of the Lolén unit, the uppermostin the Ventana Group (Silurian?-Middle Devonian), an assemblage composed by Cryptonella sp, Schellwienella sp, Leptocoeliasp and Derbyia sp was originally mentioned by Andreis (1964)Following contributions (Isaacson, 1975, 1991), have also mentioned the presence of Proboscidina arcei ISAACSON, 1977. Thefauna of the Lolen Formation is characterized by the low diversity and the strong deformation. However, the new collection fromthe recent fild works has allowed to confim the presence of thetaxon previously described, as well as to identify the brachiopodsMutationelidae? indet, Orbiculoidea? sp, and Pleurothyrella?sp.,accompanied by the bivalves Nuculites sp. The age suggestedfor this brachiopod assemblage is Lochkovian-Pragian (SuarezSoruco, 2000). Devonian brachiopods from Uruguay registeredin the Cordobés Formation (Durazno Group) are more diversifidand associated to the Cordobés Formation, a dominantly shalysequence. An Emsian faunal assemblage, dominated by the brachiopods Australocoelia palmata (MORRIS AND SHARPE,1846) and Orbiculoidea bainii? SHARPE, 1856, accompaniedby the less abundant Derbyina? sp., Pleurochonetes falklandicus (MORRIS AND SHARPE, 1846), Iridistrophia? sp. andGigadiscina collis (CLARKE,1913) has been herein recognized.The mixed dominance could be explained due to the overlap of theOrbiculoidea and Australocoelia communities.According to the available data the Silurian correlationswith others South American basins could be based on keyfaunal assemblages and sedimentary events: oolitic ironstonesin the Proto-Andean margin and the glacial event in the Northeastern Brazil. The presences of oolitic ironstones between thefaunas considered would provide an additional correlation tool.The oolitic ironstones are well-known from the Proto- Andeanmargin and having a biostratigraphical control. The oldest agesdefied are Late Rhuddanian and the youngest, Late Telychian.When considering the hypothesis of the ironstones deposition andthe glaciation events (Caputo, 1998), they could be traced as aresponse of interglacial early transgressive stages, during the lastpulse of the Early Palaeozoic Glacial event. In the Sierra GrandeFormation the Eostropheondonta and Ressellerids associationdominate the brachiopod assemblage having an Ordovician mark,plus the absence of Ordovician key genera indicate a (Lower?)Rhuddanian age. Wenlockian faunas have not been registered inthe studied sections. The correlations proposed are schematisedin Fig.2.Within the Lower Devonian interval, three key species couldbe recognised: Proboscidina arcei, Scaphiocoelia boliviensisWHITFIELD, 1890 and Australocoelia palmata. The fist one,apart from being founded in Sierra de la Ventana, it is abundantduring Lochkovian-Pragian times in several Bolivian localitiesand South Africa (Uppermost Nardouw Subgroup, BaviaanskloofFormation. Meanwhile Scaphiocoelia is traditionally proposed asa Pragian key genus, but it restricted to Bolivia and South Africaand records from others basins (Brazil and Precordillera) are confusing. During the Emsian stage, Australocoelia palmata becamea common (and dominant) component of most of the shallowwater brachiopod assemblages. |
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conferenceObject |
| dc.identifier.none.fl_str_mv |
http://hdl.handle.net/11336/225919 A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation; 7th International Brachiopod Congress; Nanjing; China; 2015; 79-81 1684-5927 CONICET Digital CONICET |
| url |
http://hdl.handle.net/11336/225919 |
| identifier_str_mv |
A revisited Silurian-Lower Devonian brachiopod biostratigraphy of North Patagonian Massif, Ventania system and Southern Paraná Basin. A regional correlation; 7th International Brachiopod Congress; Nanjing; China; 2015; 79-81 1684-5927 CONICET Digital CONICET |
| dc.language.none.fl_str_mv |
eng |
| language |
eng |
| dc.relation.none.fl_str_mv |
info:eu-repo/semantics/altIdentifier/url/https://permian.stratigraphy.org/files/permophiles/20150525214216969.pdf |
| dc.rights.none.fl_str_mv |
info:eu-repo/semantics/openAccess https://creativecommons.org/licenses/by-nc-sa/2.5/ar/ |
| eu_rights_str_mv |
openAccess |
| rights_invalid_str_mv |
https://creativecommons.org/licenses/by-nc-sa/2.5/ar/ |
| dc.format.none.fl_str_mv |
application/pdf application/pdf application/pdf |
| dc.coverage.none.fl_str_mv |
Internacional |
| dc.publisher.none.fl_str_mv |
International Comission on Stratigraphy. International Union of Geological Sciences |
| publisher.none.fl_str_mv |
International Comission on Stratigraphy. International Union of Geological Sciences |
| dc.source.none.fl_str_mv |
reponame:CONICET Digital (CONICET) instname:Consejo Nacional de Investigaciones Científicas y Técnicas |
| reponame_str |
CONICET Digital (CONICET) |
| collection |
CONICET Digital (CONICET) |
| instname_str |
Consejo Nacional de Investigaciones Científicas y Técnicas |
| repository.name.fl_str_mv |
CONICET Digital (CONICET) - Consejo Nacional de Investigaciones Científicas y Técnicas |
| repository.mail.fl_str_mv |
dasensio@conicet.gov.ar; lcarlino@conicet.gov.ar |
| _version_ |
1844613672297562112 |
| score |
13.070432 |