Sydney–Gunnedah–Bowen Basin deep 3D structure
Cara DanisDepartment of Earth and Planetary Sciences, Macquarie University, NSW 2109, Australia. Email: cara.danis@mq.edu.au
Exploration Geophysics 43(1) 26-35 https://doi.org/10.1071/EG11043
Submitted: 30 August 2011 Accepted: 2 December 2011 Published: 23 January 2012
Abstract
Studies of the Sydney–Gunnedah–Bowen Basin (SGBB), one of the largest extensional rift sedimentary basins on the east coast of Australia, lack an understanding of the 3D upper crustal structure. Understanding of the subsurface structure is essential for many areas of resource exploration, development and management, as well as scientific research. Geological models provide a way to visualise and investigate the subsurface structure. The integrated regional scale gravity modelling approach, which uses boreholes and seismic data constraints, provides an understanding of the upper crustal structure and allows the development of a 3D geological model which can be used as the architectural framework for many different applications. This work presents a 3D geological model of the SGBB developed for application in high resolution thermal models. It is the culmination of geological surfaces derived from the interpolation of previous regional scale 2D gravity models and numerous borehole records. The model outlines the basement structure of the SGBB and provides information on depth to basement, depth to basal volcanics and thickness of overlying sediments. Through understanding the uncertainties, limitations, confidence and reliability of this model, the 3D geological model can provide the ideal framework for future research.
Key words: architectural framework, deep 3D structure, gravity modelling, Sydney–Gunnedah–Bowen Basin, 3D geological model.
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