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The AAPG/Datapages Combined Publications Database

AAPG Bulletin

Abstract


Volume: 63 (1979)

Issue: 9. (September)

First Page: 1611

Last Page: 1611

Title: Origin of Porosity in Deep Woodbine-Tuscaloosa Trend, Louisiana: ABSTRACT

Author(s): Alan Thomson

Article Type: Meeting abstract

Abstract:

Cores of the Woodbine and Tuscaloosa Formations from False River field, Pointe Coupee Parish, Louisiana, contain sandstones from 20,000 ft (6,000 m) with anomalously high porosities and permeabilities. Porosities greater than 25% and permeabilities of hundreds of millidarcys are common. Scanning-electron microscopy shows that individual grains of these olive-green, semi-friable sandstones are coated with chlorite. The chlorite is present as 7 to 10 ยต-wide hexagonal plates which are arranged edgewise, one crystal thick, on grain surfaces. Sandstones with more or less continuous chlorite coatings around quartz grains display little framework compaction and minor development of secondary quartz overgrowths; however, many interbedded sandstones with little or no chlorite are completely cemented by secondary quartz. Intermediate between these extremes are sandstones with incomplete or poorly developed chlorite coatings; these display outgrowths of secondary quartz rather than overgrowths of an envelope nature.

Petrographic and SEM data indicate an early diagenetic origin for the chlorite, which apparently ceased to form once detrital grains were coated with a single layer of crystals. This layer was sufficient to mask nucleation sites for silica overgrowths and, in addition, may have prevented compaction by pressure solution, thereby allowing the sandstones to be buried to great depths without appreciably reducing porosity.

The chlorite was probably derived from ultrabasic volcanic detritus which is present in the sandstones to varying degree. The source of this detritus can be traced to the peridotite belt of southern Arkansas.

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