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The iron mineralogy of Eocene fossil wood; Mossbauer study of samples from the petrified forest, New Cairo, Egypt

Kamaleldin M. Hassan
The iron mineralogy of Eocene fossil wood; Mossbauer study of samples from the petrified forest, New Cairo, Egypt
The Canadian Mineralogist (July 2015) 53 (4): 705-716

Abstract

As part of an investigation of iron species in fossil wood at the New Cairo Petrified Forest, representative samples, collected from the area, were analyzed by inductively coupled plasma mass spectrometry (ICP-MS), X-ray diffraction (XRD), and Mossbauer spectroscopy at room temperature. The samples are composed of silica, with approximately 1.2 to approximately 17 wt.% Fe (sub 2) O (sub 3) , 0.21-0.92 wt.% Al (sub 2) O (sub 3) , and 0.001-0.71 wt.% MnO. The other oxides-including TiO (sub 2) , MgO, CaO, Na (sub 2) O, K (sub 2) O, and P (sub 2) O (sub 5) -constituted approximately 0.24 to approximately 1.4 wt.% of the fossil wood. Mossbauer spectra of the samples, fitted using the hyperfine distribution method, showed a major sextet of Fe (super 3+) in goethite (64.75-100%), another sextet of Fe (super 3+) in hematite (27.62-31.94%), and a doublet (2.01-5.72%) that is attributable to octahedral Fe (super 3+) in superparamagnetic phases. The presence of the iron in the trivalent state in all samples is consistent with high oxygen fugacity environments post-fossilization. Equivalent weights of goethite and hematite in these samples calculated using the relative spectral areas determined by Mossbauer spectroscopy and the iron contents by ICP-MS were 0.84-18.52 and 0.13-0.45 wt.%, respectively. Changes in goethite or hematite abundances in the samples had no effects on their hyperfine parameters. The observed changes in Mossbauer spectra of goethite in the samples studied have been attributed to poor crystallinity, rather than element substitutions. This resulted in a reduction of the average magnetic hyperfine field (to approximately 27 T) and an increase in the hyperfine field distribution widths. The effects of poor crystallinity were much less pronounced in the hematite spectrum, with the samples having average room-temperature magnetic hyperfine fields of approximately 50.2 T, as expected for bulk hematite. Silica substitutions for iron in the fossil wood samples cannot be ruled out, but the effects of such processes on hyperfine field distributions of the iron are unknown.


ISSN: 0008-4476
EISSN: 1499-1276
Coden: CAMIA6
Serial Title: The Canadian Mineralogist
Serial Volume: 53
Serial Issue: 4
Title: The iron mineralogy of Eocene fossil wood; Mossbauer study of samples from the petrified forest, New Cairo, Egypt
Affiliation: Nuclear Materials Authority, Department of Radioactive Sedimentary Deposits, Cairo, Egypt
Pages: 705-716
Published: 201507
Text Language: English
Publisher: Mineralogical Association of Canada, Ottawa, ON, Canada
References: 37
Accession Number: 2016-076574
Categories: Mineralogy of non-silicates
Document Type: Serial
Bibliographic Level: Analytic
Illustration Description: illus. incl. 3 tables, sketch map
N30°01'00" - N30°04'00", E31°13'60" - E31°16'00"
Country of Publication: Canada
Secondary Affiliation: GeoRef, Copyright 2017, American Geosciences Institute. Abstract, copyright, Mineralogical Association of Canada. Reference includes data from GeoScienceWorld, Alexandria, VA, United States
Update Code: 201637
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