Mass‐transport complexes (MTCs) document subsidence patterns in a northern Gulf of Mexico salt minibasin
Autor: | Christopher A.-L. Jackson, Howard D. Johnson, Harya Dwi Nugraha, Nan Wu, David M. Hodgson |
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Rok vydání: | 2020 |
Předmět: |
geography
Mass transport geography.geographical_feature_category 010504 meteorology & atmospheric sciences Small volume Geology Subsidence Sedimentary basin Diapir 010502 geochemistry & geophysics 01 natural sciences Deposition (geology) Sequence (geology) Petrology 0105 earth and related environmental sciences |
Zdroj: | Basin Research. 32:1300-1327 |
ISSN: | 1365-2117 0950-091X |
Popis: | Mass‐transport complexes (MTCs) dominate the stratigraphic record of many salt‐influenced sedimentary basins. Commonly in such settings, halokinesis is invoked as a primary trigger for MTC emplacement, although the link between specific phases of salt movement, and related minibasin dynamics, remains unclear. Here, we use high‐quality 3D seismic reflection and well data to constrain the composition, geometry and distribution (in time and space) of six MTCs preserved in a salt‐confined, supra‐canopy minibasin in the northern Gulf of Mexico, and to assess how their emplacement relate to regional and local controls. We define three main tectono‐sedimentary phases in the development of the minibasin: (a) initial minibasin subsidence and passive diapirism, during which time deposition was dominated by relatively large‐volume MTCs (c. 25 km3) derived from the shelf‐edge or upper slope; (b) minibasin margin uplift and steepening, during which time small‐volume MTCs (c. 20 km3) derived from the shelf‐edge or upper slope were emplaced; and (c) active diapirism, during which time very small volume MTCs (c. 1 km3) were emplaced, locally derived from the diapir flanks or roofs. We present a generic model that emphasizes the dynamic nature of minibasin evolution, and how MTC emplacement relates to halokinetic sequence development. Although based on a single data‐rich case study, our model may be applicable to other MTC‐rich, salt‐influenced sedimentary basins. |
Databáze: | OpenAIRE |
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