Protracted late Neoproterozic – early Palaeozoic deformation and cooling history of Sør Rondane, East Antarctica, from ⁴⁰Ar/³⁹Ar and U–Pb geochronology

Abstract: 40Ar/39Ar and U–Pb data from five structural domains constrain the late Neoproterozoic – early Palaeozoic tectonothermal history of the eastern part of the East African–Antarctic Orogen in Sør Rondane. A total of 27 new Ar/Ar ages span 570–474 Ma, roughly corresponding to the age range of three generations of syn- to post-tectonic granitoids. The ages are distinct for the five structural domains. The oldest cooling ages come from the weakly deformed southern part of the SW Terrane of Sør Rondane (SW Terrane S)… Show more

“…A second model introduces the E-W-trending Kuunga Orogen (Meert et al, 1995) in which large parts of DML constitute a mega-nappe rooting in northern Mozambique (e.g., Grantham et al, 2003;Meert, 2003). New geological findings refine the first model and indicate a rather complex tectonic history for eastern DML with repeated phases of accretion, magmatism, and reactivation (e.g., Elburg et al, 2016;Jacobs et al, 2015;Ruppel et al, 2020). The breakup saw the development of large volumes of magma that were intruded into the later continental shelf, as observable in seismic reflection (Leitchenkov et al, 2008) and magnetic data (Golynsky et al, 1996;Mieth et al, 2014;Müller & Jokat, 2019).…”

Bathymetric Control on Borchgrevink and Roi Baudouin Ice Shelves in East Antarctica

“…A second model introduces the E-W-trending Kuunga Orogen (Meert et al, 1995) in which large parts of DML constitute a mega-nappe rooting in northern Mozambique (e.g., Grantham et al, 2003;Meert, 2003). New geological findings refine the first model and indicate a rather complex tectonic history for eastern DML with repeated phases of accretion, magmatism, and reactivation (e.g., Elburg et al, 2016;Jacobs et al, 2015;Ruppel et al, 2020). The breakup saw the development of large volumes of magma that were intruded into the later continental shelf, as observable in seismic reflection (Leitchenkov et al, 2008) and magnetic data (Golynsky et al, 1996;Mieth et al, 2014;Müller & Jokat, 2019).…”

Bathymetric Control on Borchgrevink and Roi Baudouin Ice Shelves in East Antarctica

“…Although Osanai et al (2013) proposed the MTB formation at ca. 650-600 Ma, various P-T-t paths and geochronological data recently reported from the entire SRM suggest that the tectonic model for the SRM formation needs to be re-evaluated (e.g., Kawakami et al, 2017;Tsubokawa et al, 2017;Ruppel et al, 2021;Hokada et al, 2022;Higashino et al, 2023).…”

Multiple post-peak metamorphic fluid infiltrations in southern Perlebandet, Sør Rondane Mountains, East Antarctica

“…Perhaps the poorest geologically characterized region is Antarctica due to the lack of outcrops. Most geological province information about Antarctica comes from regions near the coast typically combined with constraints from conjugate terranes on now-distant continents (e.g., Boger, 2011;Flowerdew et al, 2013;Goodge et al, 2017;Maritati et al, 2019;Ruppel et al, 2020). Due to the nature of these peripheral constraints, province boundaries are more uncertain into the subglacial interior and are typically guided by geophysical fields such as gravity and magnetics following linear trends (Aitken et al, 2014;Maritati et al, 2016).…”

New Maps of Global Geological Provinces and Tectonic Plates