TY - JOUR
T1 - The Gondwanan margin in West Antarctica
T2 - Insights from Late Triassic magmatism of the Antarctic Peninsula
AU - Bastias, Joaquin
AU - Spikings, Richard
AU - Ulianov, Alex
AU - Riley, Teal
AU - Burton-Johnson, Alex
AU - Chiaradia, Massimo
AU - Baumgartner, Lukas
AU - Hervé, Francisco
AU - Bouvier, Anne Sophie
N1 - Funding Information:
The authors are grateful for the extensive logistical support provided by the Chilean Antarctic Institute (INACH) during two field campaigns to the Antarctic Peninsula. We thank the British Antarctic Survey who provided access to their sample archive, with the donation of rocks for this study. Support was provided by the staff and laboratories of the Isotope Geochemistry Group of the University of Geneva. This Project was funded by the Chilean Antarctic Institute project RT-06-14 and the University of Geneva . J.B. has been supported by a CONICYT - Chile scholarship, Earth Science Department of the University of Geneva and the Schmidheiny Foundation at Switzerland. Andrea Festa is thanked for editorial handling, and the authors are grateful to Veronica Oliveros, Victor Ramos and an anonymous reviewer for providing constructive criticism which improved the manuscript.
PY - 2020/5
Y1 - 2020/5
N2 - Triassic orthogneisses of the Antarctic Peninsula provide evidence for the Palaeozoic and Mesozoic geological evolution of southern Gondwana within Pangaea. These rocks are sporadically exposed in southeastern Graham Land and northwestern Palmer Land, although reliable geochronological, geochemical and isotopic data are sparse. We combine new geochronological (LA-ICP-MS zircon U[sbnd]Pb), geochemical, and zircon (Hf, O) and whole rock isotopic (Nd, Sr and Pb) data to constrain the age and Triassic – Palaeozoic tectonic setting of these rocks. Zircon cores record Palaeozoic arc magmatism between 253 ± 2 and 528 ± 6 Ma, which was mainly located to the west of the Eastern Palmer Land Shear Zone (Central Domain; Vaughan and Storey, 2000). The arc is considered to be an extension of contemporaneous Palaeozoic arcs that have been identified along the Pacific margin of South America and the Thurston Island Block. Regions to the east of the Palmer Land Shear Zone (Eastern Domain, Vaughan and Storey, 2000) were located distal from the Terra Australis Margin, and possibly resided within Sunsas-aged belts within Pangaea. Triassic continental arc, calc-alkaline magmatism during 223–203 Ma modified the crust of the Antarctic Peninsula on both sides of the Eastern Palmer Land Shear Zone. Magmatic sources included igneous and sedimentary crustal material, which formed by crustal reworking during Sunsas- and Braziliano-aged orogenesis, and Palaeozoic arc magmatism. Arc magmatism accompanied sinistral extension which brought both domains into the arc and resulted in steady oceanward migration of the Triassic arc during the Middle – Late Triassic. We propose that sinistral displacement occurred along the Eastern Palmer Land Shear Zone, and this structure was active as early as the Triassic. Finally, we conclude that both the Eastern and Central Domains are autochthonous to Gondwana.
AB - Triassic orthogneisses of the Antarctic Peninsula provide evidence for the Palaeozoic and Mesozoic geological evolution of southern Gondwana within Pangaea. These rocks are sporadically exposed in southeastern Graham Land and northwestern Palmer Land, although reliable geochronological, geochemical and isotopic data are sparse. We combine new geochronological (LA-ICP-MS zircon U[sbnd]Pb), geochemical, and zircon (Hf, O) and whole rock isotopic (Nd, Sr and Pb) data to constrain the age and Triassic – Palaeozoic tectonic setting of these rocks. Zircon cores record Palaeozoic arc magmatism between 253 ± 2 and 528 ± 6 Ma, which was mainly located to the west of the Eastern Palmer Land Shear Zone (Central Domain; Vaughan and Storey, 2000). The arc is considered to be an extension of contemporaneous Palaeozoic arcs that have been identified along the Pacific margin of South America and the Thurston Island Block. Regions to the east of the Palmer Land Shear Zone (Eastern Domain, Vaughan and Storey, 2000) were located distal from the Terra Australis Margin, and possibly resided within Sunsas-aged belts within Pangaea. Triassic continental arc, calc-alkaline magmatism during 223–203 Ma modified the crust of the Antarctic Peninsula on both sides of the Eastern Palmer Land Shear Zone. Magmatic sources included igneous and sedimentary crustal material, which formed by crustal reworking during Sunsas- and Braziliano-aged orogenesis, and Palaeozoic arc magmatism. Arc magmatism accompanied sinistral extension which brought both domains into the arc and resulted in steady oceanward migration of the Triassic arc during the Middle – Late Triassic. We propose that sinistral displacement occurred along the Eastern Palmer Land Shear Zone, and this structure was active as early as the Triassic. Finally, we conclude that both the Eastern and Central Domains are autochthonous to Gondwana.
UR - http://www.scopus.com/inward/record.url?scp=85077335449&partnerID=8YFLogxK
U2 - 10.1016/j.gr.2019.10.018
DO - 10.1016/j.gr.2019.10.018
M3 - Article
AN - SCOPUS:85077335449
SN - 1342-937X
VL - 81
SP - 1
EP - 20
JO - Gondwana Research
JF - Gondwana Research
ER -