Why do salt-fl oored minibasins subside? An almost universal explanation is that salt is forced from beneath the sinking basin by the weight of its sedimentary fi ll. This explanation is valid if the average density of the basin fi ll exceeds that of salt, which in the Gulf of Mexico needs at least 2300 m of siliciclastic fi ll to ensure enough compaction. However, most minibasins start sinking when they are much thinner than this. Some mechanism other than density inversion must explain the early history of these minibasins. Conventional understanding of minibasin subsidence is thus incomplete. Here, we identify fi ve alternatives to density-driven subsidence of minibasins. (1) During diapir shortening, the squeezed diapirs infl ate, leaving the intervening minibasins as bathymetric depressions.(2) In extensional diapir fall, stretching of a diapir causes it to sag, producing a minibasin above its subsiding crest. (3) During decay of salt topography, a dynamic salt bulge subsides as upward fl ow of salt slows, which lowers the salt surface below the regional sediment surface. (4) During sedimentary topographic loading, sediments accumulate as a bathymetric high above salt. (5) Finally, subsalt deformation affecting the base of salt may produce relief at the top of salt. Each mechanism (including density-driven subsidence) produces a different bathymetry, which interacts with sediment transport to produce different facies patterns in each type of minibasin. The particular mechanism for minibasin subsidence depends on the tectonic environment, regional bathymetry, and sedimentation rate. Their spatial variation on a continental margin creates provinces in which a given minibasin style is dominant.An appreciation of subsidence mechanisms should thus improve our understanding of minibasin fi ll patterns and allow genetic comparisons between minibasins.The mechanics of a minibasin sinking into fl uid salt is in many ways analogous to a crustal basin sinking into a fl uid asthenosphere. However, minibasins lack the complex rheologies, thermal histories, and compositional variations that make study of crustal basins so challenging. Minibasins are thus natural analogs and have the potential to elucidate fundamentals of subsidence mechanics.
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