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Title: HRTEM of microcrystalline opal in chert and porcelanite from the Monterey Formation, California

Journal Article · · American Mineralogist
 [1];  [2];  [3]
  1. NASA Ames Research Center, Moffett Field, CA (United States)
  2. Univ. of California, Berkeley, CA (United States)
  3. Lawrence Berkeley National Lab., CA (United States)
+ Show Author Affiliations

Microcrystalline opal was investigated using low-dose transmission electron microscopy (TEM) methods to identify microstructural characteristics and possible phase-transformation mechanisms that accommodate silica diagenesis. High-resolution TEM (HRTEM) revealed that microcrystalline opal in opal-CT chert (>90 wt% silica) and opal-CT porcelanite (50-90 wt% silica) from the Miocene Monterey Formation of California displays various amounts of structural disorder and coherent and incoherent lamellar intergrowths. Species of microfibrous opal identified by HRTEM in early-formed opal-CT chert include length-slow opal-C and unidimensionally disordered length-slow opal-CT ({open_quotes}lussatite{close_quotes}). These fibers often display a microstructure characterized by an aperiodic distribution of highly strained domains that separate ordered domains located at discrete positions along the direction of the fiber axes. Microfibrous opal occurs as several types of fiber-aggregation forms. TEM revealed that the siliceous matrix in later-formed opal-CT porcelanite consists of equidimensional, nanometer-size opal-CT crystallites and lussatite fibers. Pseudo-orthorhombic tridymite (PO-2) was identified by HRTEM in one sample of opal-CT porcelanite. Burial diagenesis of chert and porcelanite results in the precipitation of opal-C and the epitaxial growth of opal-C domains on opal-CT substrates. Diagenetic maturation of lussatite was identified by TEM in banded opal-CT-quartz chert to occur as a result of solid-state ordering. The primary diagenetic silica phase transformations between noncrystalline opal, microcrystalline opal, and quartz occur predominantly by a series of dissolution-precipitation reactions. However, TEM showed that in banded opal-CT-quartz chert, the epitaxial growth of quartz on microfibrous opal enhances the rate of silica diagenesis.

Sponsoring Organization:
USDOE
DOE Contract Number:
AC03-76SF00098
OSTI ID:
569837
Journal Information:
American Mineralogist, Vol. 81, Issue 11-12; Other Information: PBD: Nov-Dec 1996
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
58 GEOSCIENCES
OPALS
MINERALOGY
TRANSMISSION ELECTRON MICROSCOPY
CALIFORNIA
STRATIGRAPHY
MIOCENE EPOCH
MICROSTRUCTURE
DIAGENESIS