Fold and Thrust Belts: Structural Style, Evolution and Exploration
The outer parts of collision mountain belts are commonly represented by fold and thrust belts. Major advances in understanding these tectonic settings have arisen from regional studies that integrate diverse geological information in quests to find and produce hydrocarbons. Drilling has provided tests of subsurface forecasts, challenging interpretation strategies and structural models. This volume contains 19 papers that illustrate a diversity of methods and approaches together with case studies from Europe, the Middle East and the Asia-Pacific region. Collectively they show that appreciating diversity is key for developing better interpretations of complex geological structures in the subsurface – endeavours that span applications beyond the development of hydrocarbons.
Geological development of the Timor Orogen
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Published:April 14, 2020
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CiteCitation
Pedro Martinez Duran, Peter Baillie, Eduardo Carrillo, Gregor Duval, 2020. "Geological development of the Timor Orogen", Fold and Thrust Belts: Structural Style, Evolution and Exploration, J. A. Hammerstein, R. Di Cuia, M. A. Cottam, G. Zamora, R. W. H. Butler
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Abstract
The Timor Orogen comprises the island of Timor, a narrow offshore area to the north and a wider offshore fold-and-thrust belt to the south. This orogen formed by jamming and subsequent collision of the Banda Sea subduction system by the Australian Plate. The BandaSeis seismic survey has revealed excellent images of the deep-water fold-and-thrust belt. Seismic interpretation of the dataset demonstrated structural and tectonic features not previously described, including regional geological features on the Australian continental crust and two regional NE–SW sinistral strike-slip faults, and a prominent Middle Permian palaeogeographical high (Timor Plateau). Moreover, since the Middle–Late Triassic and Middle Jurassic, the two NE-trending strike-slip faults governed the formation of the West Timor and Cova-Lima sub-basins. The location along the Australian margin plays a dominant role in controlling the structural style and shaping of the Timor Orogen. Vertical loading and the southerly motion of the orogenic wedge are the main driving forces responsible for its building, illustrating a thin-skinned tectonic framework. Thrust faults nucleate in a forward-breaking sequence in the motion of thrust transport, with younger thrusts developing in front of older thrusts. Most of the collisional deformation has been classified into two styles: shallow thin-skinned and deep-seated deformation.
- Alps
- Andes
- Apennines
- Asia
- Banda Sea
- Cenozoic
- Central Andes
- Central Apennines
- deformation
- depth
- Europe
- Far East
- fold and thrust belts
- geophysical methods
- geophysical profiles
- geophysical surveys
- Indonesian Seas
- Italy
- Jurassic
- Lesser Sunda Islands
- Lower Triassic
- Malay Archipelago
- Mesozoic
- Middle Jurassic
- Middle Permian
- Middle Triassic
- Neogene
- orogenic belts
- Pacific Ocean
- paleogeography
- Paleozoic
- passive margins
- Permian
- plate collision
- plate tectonics
- seismic methods
- seismic networks
- South America
- South Pacific
- Southern Europe
- Southwest Pacific
- subduction
- surveys
- Taiwan
- tectonics
- Tertiary
- thin-skinned tectonics
- Timor
- Triassic
- two-dimensional models
- West Pacific
- Cova Lima Subbasin
- Timor Plateau
- West Timor Subbasin
- BandaSeis 2D