PLATE TECTONICS AND THE EVOLUTION OF THE TIMOR SEAR NORTHWEST AUSTRALIA

Abstract

The Browse and Bonaparte Gulf Basins in northwestern Australia contain sedimentary sections which range in age from early Palaeozoic to Recent. These basins developed as a result of the rifting and break up of Gondwanaland into two continents. The sedimentary and tectonic histories of these basins clearly reflect the relative movements of these continents.

In pre-Permian times, the earliest postulated rifting may have been early Palaeozoic associated with the north-south separation of Gondwanaland from Eurasia which produced the Tethyan Sea. This was followed by Middle Palaeozoic rifting which affected the Bonaparte Gulf Basin, Fitzroy Graben and perhaps also the Browse Basin.

A Late Carboniferous-Early Permian rift valley developed between the Kimberley Block and a western landmass. Alternate marine and fluvio-deltaic deposits characterised sedimentation in this rift valley until Early Jurassic time. Marine transgressions inundated from the north where the rift valley opened into the Tethyan Sea.

During the Late Jurassic and Early Cretaceous, the western landmass was detached from the Australian continent along a major right lateral wrench fault. At this time the Indian Ocean Basin appeared as a distinct morphological unit and inundated the Browse Basin. Associated with these movements were the emergence of the Ashmore-Sahul Block and Northeast Londonderry Ridge and the development of the Scott Reef-Buccaneer trend. Marine volcanics at Scott Reef and Ashmore Reef may be related to the formation of new ocean crust.

At the end of the Early Cretaceous, tectonic events associated with the complete separation of the western landmass from Australia, resulted in a regional northwesterly tilt of the basin and a major marine transgression.

During the Tertiary, Australia moved north, away from Antarctica, and eventually collided with the Southeast Asian and West Pacific oceanic plates. Timor uplifted as a Tertiary melange of Australian sediments behind a north-dipping sub-duction zone along the Timor Trough. The Timor Sea remained relatively stable and was the site of carbonate shelf sedimentation.