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The AAPG/Datapages Combined Publications Database
Houston Geological Society Bulletin
Abstract
Abstract: Diapirism and Growth Faulting in the
Gulf of Mexico Salt Basin,
with Emphasis on South Louisiana
By
Data published during the recent past has improved understanding of initiation of salt and clay diapirism and of growth faulting on the central Gulf continental slope. Growth faults appear on diapir flanks during initial development, as well as along upper slope depocenter flanks and the continental shelf edge. Rapid deposition, differential loading and subsidence on the upper slope and outer shelf enhances segmentation of salt ridge massifs into individual diapiric spines, causing additional diapir-related growth faulting. Most growth faults originating on the slope remain active and, projected upward 5000 to 20,000 feet, provide the structural framework within which much Gulf Coast petroleum exploration takes place.
Study of 30 piercement and 21 semi-piercement salt domes plus 111 non-piercement domes in south Louisiana formed by salt and/or clay diapirs reveals important growth fault variations genetically related to diapiric structure type. Fault patterns associated with piercement and semi-piercement salt domes are different and more complex than those on non-piercement features, but important variations exist between salt-cored and clay-cored non-piercement structures as well. Counter-regional faults, often in compensating or crossing patterns, are far-more common on piercements and semi-piercements. Fault splitting and crestal grabens are particularly common on semi-piercement structures. Local-extent growth faults related to differing flank subsidence rates around high-relief diapirs play a major role on these structures. In contrast, fault patterns are less complex on non-piercement diapiric structures, although on those definitely associated with salt diapirism, multiple-fault patterns, particularly crossing or compensated, are more common than with clay diapirs and diapirs less-certainly associated with salt intrusions. Counter-regional faults, compensating and crossing systems and splitting are less common; most major faults appear to be regional growth faults sometimes only indirectly related to diapir development. While Houston Embayment diapiric structures were not included in the diapir-fault study, the conclusions drawn concerning south Louisiana almost certainly apply in the diapiric areas of southeast Texas as well. Implications for additional deep exploration around diapiric structures exist, and one example will be presented.
Figure. Northern Gulf of Mexico Diapiric Structures. After Trippet, et al 1982.
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