Tuffs, tectonism and glacially related sea-level changes, Carboniferous–Permian, southern Namibia
Identifieur interne : 000D55 ( Main/Exploration ); précédent : 000D54; suivant : 000D56Tuffs, tectonism and glacially related sea-level changes, Carboniferous–Permian, southern Namibia
Auteurs : Harald Stollhofen [Allemagne] ; Ian G. Stanistreet [Royaume-Uni] ; Berthold Bangert [Allemagne] ; Hermann Grill [Allemagne]Source :
- Palaeogeography, Palaeoclimatology, Palaeoecology [ 0031-0182 ] ; 2000.
English descriptors
- Teeft :
- Accommodation space, African dwyka, Angular unconformity, Aranos basin, Bangert, Basalt geochemistry, Basaltic andesites, Basin, Basin subsidence, Beaufort, Beaufort group, Beaufort groups, Cambridge university press, Cape province, Cape town, Central andes, Continental basin, Cretaceous, Cretaceous basins, Crowell, Crustal rupture, Damara orogenic belt, Data points, Debris diamictites, Deglaciation, Deglaciation sequence, Deglaciation sequences, Depositional, Depositional sequences, Dwyka, Dwyka group, Early cretaceous, Early evolution, Early jurassic, Early kasimovian ganigobis shale member, Early onset, Early palaeozoic, Early permian, Earth planet, Ecca, Ecca group, Ecca groups, Elsevier science, Eurydesma transgression, Eustatic controls, Exponential increase, Extensional, Extensional events, Extensional forces, Extensional history, Extensional tectonics, Facies, Fault system, Further detail, Ganigobis, Ganigobis locality, Ganigobis settlement, Ganigobis shale member, Geochemical, Geochemical data, Geol, Glacial, Glacial retreat, Glass shards, Gondwana, Gondwana stratigraphy, Gondwana symp, Granitic rocks, Grupo itarare, Industrial research, Inferring tectonic, Intracontinental, Intracontinental rifting, Inversion tectonics, Isostatic rebound, Karoo, Karoo basin, Karoo deposition, Karoo supergroup, Late carboniferous, Lower beaufort group, Lowermost part, Magmatic, Main karoo basin, Marine conditions, Marine deposits, Marine transgressions, Maximum thickness, Mclachlan, Modern fish river valley, Mudstone unit, Mudstones, Mukorob shale member, Namibia, Namibian, Namibian aranos basin, Namibian dwyka group, Namibian karoo basins, Ooding, Ooding surfaces, Ooding zones, Overlying ganigobis shale member, Palaeoclimatology, Palaeoecology, Palaeogeography, Palaeozoic, Paleozoic, Pangean basins, Panthalassan margin, Parana, Parana basin, Parana basin area, Permian, Petroleum basins, Potential source rocks, Publ, Pumice fragments, Pyroclastic, Pyroclastic fallout, Relative timing, Rift, Rift shoulder, Rifting, Sakmarian, Sakmarian whitehill, Sandstone, Sandy mudstones, Sediment, Sediment gravity, Sedimentary, Sedimentary cycles, Sedimentation rates, Sepm concepts sedimentol, Shale, Shale member, Source area considerations, Southern africa, Southern gondwana, Southern namibia, Southern part, Southwestern, Southwestern africa, Southwestern cape province, Southwestern gondwana, Southwestern namibia, Spec, Stanistreet, Stollhofen, Stratigraphic, Stratigraphic thicknesses, Stratigraphy, Suarez soruco, Subhedral crystals, Subsidence, Sudden change, Synsedimentary nature, Tectonic, Tectonic controls, Tectonic implications, Tectonic subsidence, Tectonics, Tectonism, Tectonomagmatic discrimination diagram, Transgression, Veevers, Visser, Volcanic, Volcanic activity, Volcanic rocks, Volcaniclastic material, Volcanism, Volcanogenic material, West africa, West antarctica, Western margin, Whitehill, Whitehill formation.
Abstract
The Carboniferous–Permian glacigene Dwyka Group in southern Africa has been widely regarded as amagmatic. Only in the higher parts of the Permian and subsequent younger strata has evidence of magmatism been recognised, particularly in the form of pyroclastic fallout ash beds. The source of these tuffs has been suggested to be Patagonia and West Antarctica, forming part of an extensive volcanic arc which lay some 1500 to 2000km to the south and west in their pre-break-up Gondwana positions. Rhyolitic/dacitic and basaltic/andesitic tuff beds within the glaciomarine sediments of the Dwyka Group in Namibia reveal new evidence for an early onset of proximal bimodal volcanic activity in southern Africa. Contemporaneous tectonism is recorded by type-1 unconformities and systematic thickness changes across NW–SE trending extensional normal faults. We suggest that this tectonomagmatic period marks initial extensional events in southern Namibia and the Carboniferous–Permian volcanic trend appears to coincide with the position of the eventual Namibian continental margin. Significantly, the stratigraphic positions of the tuff beds show a distinct association with enclosing marine transgressive depositional sequences. Most of them coincide with sharply defined flooding surfaces within relatively thick shaly successions, reflecting their multiple transgressive nature. Widening the study context to the latest Early Permian in southern Africa, the main Karoo Basin of southern Africa exhibits a similar coincidence of marine transgressions and extrusion of volcanics. The relationship between tuff beds and transgressive depositional sequences is not only the result of enhanced preservational potential during transgression, but of a genetic coupling between magmatism, extensional tectonics and basin subsidence, the latter accelerating a rise in relative sea-level. This interaction is significant, not only for understanding potential controls on relative sea-level change, but also for understanding the early geodynamic evolution of the southern South Atlantic continental margin.
Url:
DOI: 10.1016/S0031-0182(00)00120-6
Affiliations:
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space</term><term>African dwyka</term><term>Angular unconformity</term><term>Aranos basin</term><term>Bangert</term><term>Basalt geochemistry</term><term>Basaltic andesites</term><term>Basin</term><term>Basin subsidence</term><term>Beaufort</term><term>Beaufort group</term><term>Beaufort groups</term><term>Cambridge university press</term><term>Cape province</term><term>Cape town</term><term>Central andes</term><term>Continental basin</term><term>Cretaceous</term><term>Cretaceous basins</term><term>Crowell</term><term>Crustal rupture</term><term>Damara orogenic belt</term><term>Data points</term><term>Debris diamictites</term><term>Deglaciation</term><term>Deglaciation sequence</term><term>Deglaciation sequences</term><term>Depositional</term><term>Depositional sequences</term><term>Dwyka</term><term>Dwyka group</term><term>Early cretaceous</term><term>Early evolution</term><term>Early jurassic</term><term>Early kasimovian ganigobis shale member</term><term>Early onset</term><term>Early palaeozoic</term><term>Early permian</term><term>Earth planet</term><term>Ecca</term><term>Ecca group</term><term>Ecca groups</term><term>Elsevier science</term><term>Eurydesma transgression</term><term>Eustatic controls</term><term>Exponential increase</term><term>Extensional</term><term>Extensional events</term><term>Extensional forces</term><term>Extensional history</term><term>Extensional tectonics</term><term>Facies</term><term>Fault system</term><term>Further detail</term><term>Ganigobis</term><term>Ganigobis locality</term><term>Ganigobis settlement</term><term>Ganigobis shale member</term><term>Geochemical</term><term>Geochemical data</term><term>Geol</term><term>Glacial</term><term>Glacial retreat</term><term>Glass shards</term><term>Gondwana</term><term>Gondwana stratigraphy</term><term>Gondwana symp</term><term>Granitic rocks</term><term>Grupo itarare</term><term>Industrial research</term><term>Inferring tectonic</term><term>Intracontinental</term><term>Intracontinental rifting</term><term>Inversion tectonics</term><term>Isostatic rebound</term><term>Karoo</term><term>Karoo basin</term><term>Karoo deposition</term><term>Karoo supergroup</term><term>Late carboniferous</term><term>Lower beaufort group</term><term>Lowermost part</term><term>Magmatic</term><term>Main karoo basin</term><term>Marine conditions</term><term>Marine deposits</term><term>Marine transgressions</term><term>Maximum thickness</term><term>Mclachlan</term><term>Modern fish river valley</term><term>Mudstone unit</term><term>Mudstones</term><term>Mukorob shale member</term><term>Namibia</term><term>Namibian</term><term>Namibian aranos basin</term><term>Namibian dwyka group</term><term>Namibian karoo basins</term><term>Ooding</term><term>Ooding surfaces</term><term>Ooding zones</term><term>Overlying ganigobis shale member</term><term>Palaeoclimatology</term><term>Palaeoecology</term><term>Palaeogeography</term><term>Palaeozoic</term><term>Paleozoic</term><term>Pangean basins</term><term>Panthalassan margin</term><term>Parana</term><term>Parana basin</term><term>Parana basin area</term><term>Permian</term><term>Petroleum basins</term><term>Potential source rocks</term><term>Publ</term><term>Pumice fragments</term><term>Pyroclastic</term><term>Pyroclastic fallout</term><term>Relative timing</term><term>Rift</term><term>Rift shoulder</term><term>Rifting</term><term>Sakmarian</term><term>Sakmarian whitehill</term><term>Sandstone</term><term>Sandy mudstones</term><term>Sediment</term><term>Sediment gravity</term><term>Sedimentary</term><term>Sedimentary cycles</term><term>Sedimentation rates</term><term>Sepm concepts sedimentol</term><term>Shale</term><term>Shale member</term><term>Source area considerations</term><term>Southern africa</term><term>Southern gondwana</term><term>Southern namibia</term><term>Southern part</term><term>Southwestern</term><term>Southwestern africa</term><term>Southwestern cape province</term><term>Southwestern gondwana</term><term>Southwestern namibia</term><term>Spec</term><term>Stanistreet</term><term>Stollhofen</term><term>Stratigraphic</term><term>Stratigraphic thicknesses</term><term>Stratigraphy</term><term>Suarez soruco</term><term>Subhedral crystals</term><term>Subsidence</term><term>Sudden change</term><term>Synsedimentary nature</term><term>Tectonic</term><term>Tectonic controls</term><term>Tectonic implications</term><term>Tectonic subsidence</term><term>Tectonics</term><term>Tectonism</term><term>Tectonomagmatic discrimination diagram</term><term>Transgression</term><term>Veevers</term><term>Visser</term><term>Volcanic</term><term>Volcanic activity</term><term>Volcanic rocks</term><term>Volcaniclastic material</term><term>Volcanism</term><term>Volcanogenic material</term><term>West africa</term><term>West antarctica</term><term>Western margin</term><term>Whitehill</term><term>Whitehill formation</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">The Carboniferous–Permian glacigene Dwyka Group in southern Africa has been widely regarded as amagmatic. Only in the higher parts of the Permian and subsequent younger strata has evidence of magmatism been recognised, particularly in the form of pyroclastic fallout ash beds. The source of these tuffs has been suggested to be Patagonia and West Antarctica, forming part of an extensive volcanic arc which lay some 1500 to 2000km to the south and west in their pre-break-up Gondwana positions. Rhyolitic/dacitic and basaltic/andesitic tuff beds within the glaciomarine sediments of the Dwyka Group in Namibia reveal new evidence for an early onset of proximal bimodal volcanic activity in southern Africa. Contemporaneous tectonism is recorded by type-1 unconformities and systematic thickness changes across NW–SE trending extensional normal faults. We suggest that this tectonomagmatic period marks initial extensional events in southern Namibia and the Carboniferous–Permian volcanic trend appears to coincide with the position of the eventual Namibian continental margin. Significantly, the stratigraphic positions of the tuff beds show a distinct association with enclosing marine transgressive depositional sequences. Most of them coincide with sharply defined flooding surfaces within relatively thick shaly successions, reflecting their multiple transgressive nature. Widening the study context to the latest Early Permian in southern Africa, the main Karoo Basin of southern Africa exhibits a similar coincidence of marine transgressions and extrusion of volcanics. The relationship between tuff beds and transgressive depositional sequences is not only the result of enhanced preservational potential during transgression, but of a genetic coupling between magmatism, extensional tectonics and basin subsidence, the latter accelerating a rise in relative sea-level. This interaction is significant, not only for understanding potential controls on relative sea-level change, but also for understanding the early geodynamic evolution of the southern South Atlantic continental margin.</div></front></TEI><affiliations><list><country><li>Allemagne</li><li>Royaume-Uni</li></country><region><li>Bavière</li><li>District de Basse-Franconie</li></region><settlement><li>Wurtzbourg</li></settlement><orgName><li>Université de Wurtzbourg</li></orgName></list><tree><country name="Allemagne"><noRegion><name sortKey="Stollhofen, Harald" sort="Stollhofen, Harald" uniqKey="Stollhofen H" first="Harald" last="Stollhofen">Harald Stollhofen</name></noRegion><name sortKey="Bangert, Berthold" sort="Bangert, Berthold" uniqKey="Bangert B" first="Berthold" last="Bangert">Berthold Bangert</name><name sortKey="Grill, Hermann" sort="Grill, Hermann" uniqKey="Grill H" first="Hermann" last="Grill">Hermann Grill</name><name sortKey="Stollhofen, Harald" sort="Stollhofen, Harald" uniqKey="Stollhofen H" first="Harald" last="Stollhofen">Harald Stollhofen</name></country><country name="Royaume-Uni"><noRegion><name sortKey="Stanistreet, Ian G" sort="Stanistreet, Ian G" uniqKey="Stanistreet I" first="Ian G." last="Stanistreet">Ian G. Stanistreet</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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