Print this pageUnderstanding the origin and extent
of pervasive 
quartz
overgrowth cements in an anomalous Eocene sandstone, Wilcox
Formation, Mississippi Embayment
Dixie Androes
Department of Geosciences,
Tertiary deposits of the
Mississippi Embayment are composed primarily of clay, uncemented
sand and gravel units. In marked
contrast the Eocene sands of the Wilcox Formation, which crop out on the
western flank of Crowley’s Ridge, contain thick (8 meters) quartz arenite lenses with pervasive quartz overgrowth cement
occluding all porosity. These anomalous
sandstone units are overlain and underlain by unconsolidated sands and
mudstones. Primary, syntaxial
quartz overgrowths account for approximately 20% of the rock. Competing models
to explain cementation processes include 1) the horizontal movement of silica
saturated meteoric waters at shallow depths and 2) the upward migration of
water resulting from compaction and clay mineral dehydration within a deep
basin.
The sedimentary sections beneath
the Wilcox sandstones are thin and inadequate to supply the volume of water or
silica needed through clay mineral dehydration to reduce porosity from 25% to
essentially zero. Current models indicate that cementation resulting from
horizontal or meteoric circulation of silica saturated fluids requires long
time periods (Blatt 1979, Dutta
1986). Apparent time constraints on these Eocene quartz arenites,
combined with the shallow burial depths and inadequate vertical flux of
silica-saturated fluids, suggest that the current models for quartz
cementation
may be further refined by understanding this anomalous sandstone.