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The AAPG/Datapages Combined Publications Database
Houston Geological Society Bulletin
Abstract
Abstract: Gulf of Mexico Evolution, from Basement to Seafloor
By
Petroleum exploration has entered a critical phase, with the search for hydrocarbons extending to deeper water and deeper strata. There is a real need to determine how the entire stratigraphic column responds to existent stresses, from basement to seafloor. To the present, there has been a genuine neglect of effects arising from basement and nearbasement. Deep-sea surveys show the existence of mid-ocean ridges (MOR), extinct or active, intersected by fracture zones of various sizes, ranging from basin-spanning, first-order features at approximately 110 km spacing to much smaller features. Detailed bathymetry reveals that fracture zones are generally perpendicular to MOR and parallel to each other and that spreading ridge segments may be offset from each other. Free-air gravity data represents MOR, fracture zones, transitional and oceanic crust, and Louann Salt beneath sediment cover in the Gulf of Mexico.
Mapped fracture zone trends coincide with some salt trends north of the Sigsbee Escarpment. This may indicate a causal relationship. Deep-sea data suggest greater heat flux along fracture zones. Greater heat flux rising through overlying sediments should impact continuity of the Louann salt wedge and surrounding groundwater flow. Hot groundwater can transport hydrocarbons in solution, serving as part of the fluid migration system, and dissolve salt, re-precipitating it elsewhere.
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The Gulf of Mexico is seismically active in some regions, with at
least 150 seismic events since 1963. These events occur at
different depths: events less than 10 km deep occur within sediments;
those between 10 - 20 km occur along sediment/basement
interface, and those deeper than 20 km are within the crust.
Earthquake data must be combined with other geophysical
data
in the emerging basin synthesis.
There is a need to discern how principal stresses within the
continental margin operate. There is also the growth through
time of the Gulf Coast geosyncline, which has been linked to
extrusion of Louann Salt. The implications are that the salt transmits
lateral stress. Review of geophysical
data from the Nigerian
and Gulf of Cadiz margins suggests the entire slope is sliding,
similar to the Gulf of Mexico passive margin. The Louann Salt
may diffuse the confining pressure, creating the Mississippi Fan
foldbelt. Regional confining stress at base of slope, with possible
basement interaction, makes the fan fold belt an area of dynamic
geology. Finally, resolution of the evolution thereof will be a
major key to understanding how passive margins operate.
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