Tectono-Thermal Evolution and Morphodynamics of the Central Dronning Maud Land Mountains, East Antarctica, Based on New Thermochronological Data

Hallgeir Sirevaag,Andreas Läufer,Anna Ksienzyk,István Dunkl,Joachim Jacobs

doi:10.3390/geosciences8110390

Abstract

The lack of preserved Mesozoic–Cenozoic sediments and structures in central Dronning Maud Land has so far limited our understanding of the post-Pan-African evolution of this important part of East Antarctica. In order to investigate the thermal evolution of the basement rocks and place constraints on landscape evolution, we present new low-temperature thermochronological data from 34 samples. Apatite fission track ages range from 280–85 Ma, while single-grain (U-Th)/He ages from apatite and zircon range from 305–15 and 420–340 Ma, respectively. Our preferred thermal history models suggest late Paleozoic–early Mesozoic peneplanation and subsequent burial by 3–6 km of Beacon sediments. The samples experienced no additional burial in the Jurassic, thus the once voluminous continental flood basalts of western Dronning Maud Land did not reach central Dronning Maud Land. Mesozoic–early Cenozoic cooling of the samples was slow. Contrary to western Dronning Maud Land, central Dronning Maud Land lacks a mid-Cretaceous cooling phase. We therefore suggest that the mid-Cretaceous cooling of western Dronning Maud Land should be attributed to the proximity to the collapse of the orogenic plateau at the Panthalassic margin of Gondwana. Cooling rates accelerated considerably with the onset of glaciation at 34 Ma, due to climate deterioration and glacial denudation of up to 2 km.

Highlights

The Dronning Maud Land Mountains in East Antarctica form an impressive, largely coast-parallel mountain range with a total relief exceeding 5 km, extending for c. 1500 km in length
Emmel et al [10] report the only available (U-Th)/He analyses for central Dronning Maud Land; apatite (U-Th)/He ages from six samples range from Late Carboniferous to mid-Cretaceous
Apatite fission track single-grain ages are reported in Supplementary Material Table S1, while track length data are reported in Supplementary Material Table S2 and Figure S1

Summary

Introduction

The Dronning Maud Land Mountains in East Antarctica form an impressive, largely coast-parallel mountain range with a total relief exceeding 5 km, extending for c. 1500 km in length. The Dronning Maud Land Mountains in East Antarctica form an impressive, largely coast-parallel mountain range with a total relief exceeding 5 km, extending for c. The highest peaks reach elevations up to c. Maud Land Mountains originated as a continental margin escarpment following the break-up of Gondwana in Jurassic times. 200 km inland of the continental margin. 350 km long section in central Dronning Maud Land from Mühlig-Hofmannfjella in the west to Wohlthatmassivet in the east (Figures 1 and 2). Paleozoic high-grade rocks, documenting a protracted older geodynamic evolution, including the formation and destruction of two supercontinents—Rodinia and Gondwana, e.g., [1,2].

Gondwanareconstruction reconstruction during during Permian

Regional Geology

Simplified geological map of western and central central Dronning

Overview

Previous Thermochronological Results

Samples and Analytical Methods

Wohlthatmassivet

Apatite Fission Track Analyses

Modelling of the Thermal History

Results

Apatite Fission Track Results

Tectono-Thermal Evolution