2017
DOI: 10.1111/1365-2478.12531
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Basement structural architecture and hydrocarbon conduit potential of polygonal faults in the Cooper‐Eromanga Basin, Australia

Abstract: A thorough and complete understanding of the structural geology and evolution of the Cooper‐Eromanga Basin has been hampered by low‐resolution seismic data that becomes particularly difficult to interpret below the thick Permian coal measures. As a result, researchers are tentative to interpret the basement fault architecture within the basin, which is largely undefined. To provide a better understanding of the basement fault geometry, all available two‐dimensional seismic lines together with 12 three‐dimensio… Show more

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Cited by 13 publications
(13 citation statements)
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“…It is well known that inverted high‐angle extensional faults and vertical strike‐slip faults are extensive within this basin (Figure ); however, there is little mention of low‐angle reverse faults in literature [ Kuang , ; Apak et al ., ; Gravestock and Jensen‐Schmidt , ; Grant‐Woolley et al ., ; Kulikowski et al ., , ]. Recent works utilizing depth‐converted 3‐D seismic data have acknowledged the presence of vertical strike‐slip faults [ Grant‐Woolley et al ., ; Kulikowski et al ., , ], low‐angle reverse faults [ Kulikowski et al ., , ], and inverted high‐angle extensional faults [ Grant‐Woolley et al ., ; Kulikowski et al ., , ] with no mention of non‐Andersonian faults.…”
Section: Methodsmentioning
confidence: 99%
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“…It is well known that inverted high‐angle extensional faults and vertical strike‐slip faults are extensive within this basin (Figure ); however, there is little mention of low‐angle reverse faults in literature [ Kuang , ; Apak et al ., ; Gravestock and Jensen‐Schmidt , ; Grant‐Woolley et al ., ; Kulikowski et al ., , ]. Recent works utilizing depth‐converted 3‐D seismic data have acknowledged the presence of vertical strike‐slip faults [ Grant‐Woolley et al ., ; Kulikowski et al ., , ], low‐angle reverse faults [ Kulikowski et al ., , ], and inverted high‐angle extensional faults [ Grant‐Woolley et al ., ; Kulikowski et al ., , ] with no mention of non‐Andersonian faults.…”
Section: Methodsmentioning
confidence: 99%
“…It is well known that inverted high‐angle extensional faults and vertical strike‐slip faults are extensive within this basin (Figure ); however, there is little mention of low‐angle reverse faults in literature [ Kuang , ; Apak et al ., ; Gravestock and Jensen‐Schmidt , ; Grant‐Woolley et al ., ; Kulikowski et al ., , ]. Recent works utilizing depth‐converted 3‐D seismic data have acknowledged the presence of vertical strike‐slip faults [ Grant‐Woolley et al ., ; Kulikowski et al ., , ], low‐angle reverse faults [ Kulikowski et al ., , ], and inverted high‐angle extensional faults [ Grant‐Woolley et al ., ; Kulikowski et al ., , ] with no mention of non‐Andersonian faults. The analysis of macroscale fault data therefore follows a more elementary methodology than mesoscale natural fracture analysis but remains in line with the fundamental rock failure principles [ Anderson , ]: low angle (~30°) faults develop under a compressional stress regime parallel to the dip direction; high‐angle faults (~60°) develop under an extensional stress regime with the minimum horizontal stress oriented parallel to the dip direction; and near‐vertical faults formed under a strike‐slip stress regime 30° from the maximum principal stress direction [ Anderson , ; Zoback et al ., ].…”
Section: Methodsmentioning
confidence: 99%
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“…; Kulikowski ; Kulikowski et al . ,b). In addition to these NE‐SW striking lineaments, SE‐NW strike‐slip faults are also present across the basin and can significantly complicate hydrocarbon production (Grant‐Wooley et al .…”
Section: Geological Settingmentioning
confidence: 99%