Denudation history of the Snowy Mountains: Constraints from apatite fission track thermochronology |
| |
| Authors: | B P Kohn A J W Gleadow S J D Cox |
| |
| Institution: | 1. Australian Geodynamics Cooperative Research Centre, VIEPS, Department of Earth Sciences , La Trobe University , Bundoora, Vic., 3083, Australia;2. CSIRO Division of Exploration and Mining , Australian Geodynamics Cooperative Research Centre , PO Box 437, Nedlands, WA, 6009, Australia |
| |
| Abstract: | Apatite fission track thermochronology from Early Palaeozoic granitoids centred around the Kosciuszko massif of the Snowy Mountains, records a denudation history that was episodic and highly variable. The form of the apatite fission track age profile assembled from vertical sections and hydroelectric tunnels traversing the mountains, together with numerical forward modelling, provide strong evidence for two episodes of accelerated denudation, commencing in Late Permian—Early Triassic (ca 270–250 Ma) and mid‐Cretaceous (ca 110–100 Ma) times, and a possible third episode in the Cenozoic. Denudation commencing in the Late Permian—Early Triassic was widespread in the eastern and central Snowy Mountains area, continued through much of the Triassic, and amounted to at least ~2.0–2.4 km. This episode was probably the geomorphic response to the Hunter‐Bowen Orogeny. Post‐Triassic denudation to the present in these areas amounted to ~2.0–2.2 km. Unambiguous evidence for mid‐Cretaceous cooling and possible later cooling is confined to a north‐south‐trending sinuous belt, up to ~15 km wide by at least 35 km long, of major reactivated Palaeozoic faults on the western side of the mountains. This zone is the most deeply exposed area of the Kosciuszko block. Denudation accompanying these later events totalled up to ~1.8–2.0 km and ~2.0–2.25 km respectively. Mid‐Cretaceous denudation marks the onset of renewed tectonic activity in the southeastern highlands following a period of relative quiescence since the Late Triassic, and establishes a temporal link with the onset of extension related to the opening of the Tasman Sea. Much of the present day relief of the mountains resulted from surface uplift which disrupted the post‐mid‐Cretaceous apatite fission track profile by variable offsets on faults. |
| |
| Keywords: | denudation fission track thermochronology Snowy Mountains southeastern highlands tectonics |
|
|
