The Wechsel Gneiss Complex of Eastern Alps: an Ediacaran to Cambrian continental arc and its Early Proterozoic hinterland
Many metamorphosed basement complexes in the Alps are polymetamorphic and their origin and geological history may only be deciphered by detailed geochronology on the different members including oceanic elements like ophiolites, arc successions, and continental passive margin successions. Here we pre...
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| Veröffentlicht in: | Swiss Journal of geosciences 2020-12, Vol.113 (1), Article 21 |
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| creator | Neubauer, Franz Liu, Yongjiang Chang, Ruihong Yuan, Sihua Yu, Shengyao Genser, Johann Liu, Boran Guan, Qingbin |
| description | Many metamorphosed basement complexes in the Alps are polymetamorphic and their origin and geological history may only be deciphered by detailed geochronology on the different members including oceanic elements like ophiolites, arc successions, and continental passive margin successions. Here we present a case study on the Lower Austroalpine Variegated Wechsel Gneiss Complex and the overlying low-grade metamorphosed Wechsel Phyllite Unit at the eastern margin of Alps. The Wechsel Gneiss Complexes are known to have been overprinted by Devonian metamorphism, and both units were affected by Late Cretaceous greenschist facies metamorphism. New U–Pb zircon ages reveal evidence for two stages of continental arc-like magmatism at 500–520 Ma and 550–570 Ma in the Variegated Wechsel Gneiss Complex. An age of ca. 510 Ma of detrital zircons in metasedimentary rocks also constrain the maximum age of metasedimentary rocks, which is younger than Middle Cambrian. The overlying Wechsel Phyllite Unit is younger than 450 Ma (Late Ordovician) and seems to have formed by denudation of the underlying Variegated Wechsel Gneiss Complex. We speculate on potential relationships of the continental arc-type magmatism of the Variegated Wechsel Gneiss Complex and potential oceanic lithosphere (Speik complex) of Prototethyan affinity, which is also preserved in the Austroalpine nappe complex. The abundant, nearly uniform 2.1 Ga- and ca. 2.5 Ma-age signature of detrital zircons in metasediments (paragneiss, quartzite) of the Variegated Wechsel Gneiss Complex calls for Lower Proterozoic continental crust in the nearby source showing the close relationship to northern Gondwana prominent in West Africa and Amazonia. |
| doi_str_mv | 10.1186/s00015-020-00373-3 |
| format | Article |
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Here we present a case study on the Lower Austroalpine Variegated Wechsel Gneiss Complex and the overlying low-grade metamorphosed Wechsel Phyllite Unit at the eastern margin of Alps. The Wechsel Gneiss Complexes are known to have been overprinted by Devonian metamorphism, and both units were affected by Late Cretaceous greenschist facies metamorphism. New U–Pb zircon ages reveal evidence for two stages of continental arc-like magmatism at 500–520 Ma and 550–570 Ma in the Variegated Wechsel Gneiss Complex. An age of ca. 510 Ma of detrital zircons in metasedimentary rocks also constrain the maximum age of metasedimentary rocks, which is younger than Middle Cambrian. The overlying Wechsel Phyllite Unit is younger than 450 Ma (Late Ordovician) and seems to have formed by denudation of the underlying Variegated Wechsel Gneiss Complex. We speculate on potential relationships of the continental arc-type magmatism of the Variegated Wechsel Gneiss Complex and potential oceanic lithosphere (Speik complex) of Prototethyan affinity, which is also preserved in the Austroalpine nappe complex. The abundant, nearly uniform 2.1 Ga- and ca. 2.5 Ma-age signature of detrital zircons in metasediments (paragneiss, quartzite) of the Variegated Wechsel Gneiss Complex calls for Lower Proterozoic continental crust in the nearby source showing the close relationship to northern Gondwana prominent in West Africa and Amazonia.</description><identifier>ISSN: 1661-8726</identifier><identifier>EISSN: 1661-8734</identifier><identifier>DOI: 10.1186/s00015-020-00373-3</identifier><language>eng</language><publisher>Cham: Springer International Publishing</publisher><subject>Age ; Alpine Workshop ; Cambrian ; Continental crust ; Cretaceous ; Denudation ; Devonian ; Earth and Environmental Science ; Earth Sciences ; Geochronology ; Geochronometry ; Geological history ; Geology ; Gneiss ; Gondwana ; Greenschist facies ; Isotopes ; Lithosphere ; Magma ; Metamorphism ; Metamorphism (geology) ; Ophiolites ; Ordovician ; Original Paper ; Passive margins ; Precambrian ; Quartzite ; Rock ; Rocks ; Sedimentary facies ; Zircon</subject><ispartof>Swiss Journal of geosciences, 2020-12, Vol.113 (1), Article 21</ispartof><rights>The Author(s) 2020</rights><rights>The Author(s) 2020. 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| subjects | Age Alpine Workshop Cambrian Continental crust Cretaceous Denudation Devonian Earth and Environmental Science Earth Sciences Geochronology Geochronometry Geological history Geology Gneiss Gondwana Greenschist facies Isotopes Lithosphere Magma Metamorphism Metamorphism (geology) Ophiolites Ordovician Original Paper Passive margins Precambrian Quartzite Rock Rocks Sedimentary facies Zircon |
| title | The Wechsel Gneiss Complex of Eastern Alps: an Ediacaran to Cambrian continental arc and its Early Proterozoic hinterland |
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