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GEOREF RECORD

Retentivity of CO (sub 2) in fluid inclusions in mantle minerals

Junji Yamamoto, Kazuhiko Otsuka, Hiroaki Ohfuji, Hidemi Ishibashi, Naoto Hirano and Hiroyuki Kagi
Retentivity of CO (sub 2) in fluid inclusions in mantle minerals
European Journal of Mineralogy (October 2011) 23 (5): 805-815

Abstract

To assess the capacity of fluid inclusions in mantle minerals for CO (sub 2) retention, annealing experiments were conducted for two mantle xenoliths with CO (sub 2) inclusions for 8 days at 1000 degrees C under atmospheric pressure and fO (sub 2) of 10 (super -11) MPa. The results show no marked decrease in the CO (sub 2) density of the CO (sub 2) inclusions for any examined minerals - olivine, orthopyroxene, clinopyroxene, or spinel. The CO (sub 2) density of CO (sub 2) inclusions in olivine in the present mantle xenoliths is lower than that in pyroxenes or spinel. Results of previous studies indicate that the low CO (sub 2) density in olivine is attributable to plastic deformation of olivine around CO (sub 2) inclusions during annealing in ascending magma. Results of this study present fundamental implications for deformation mechanisms that arise from internal pressure of fluid inclusions in silicate minerals. We calculated the stress field in minerals having a CO (sub 2) inclusion. Results show a steep stress gradient in the host around the inclusion. Such local stress in the mineral induces a local rise in the density of dislocations around the CO (sub 2) inclusions. The orthopyroxene used for this study showed a sparse distribution of dislocations around a CO (sub 2) inclusion, whereas olivine showed dense dislocations around CO (sub 2) inclusions, implying that the low CO (sub 2) density of the CO (sub 2) inclusions in olivine results from volume expansion of the CO (sub 2) inclusions through plastic deformation of the host mineral during annealing of the xenoliths in ascending magma. In this respect, constancy of CO (sub 2) density during the annealing experiments for all minerals is an interesting finding. Regarding olivines, the reduction of internal pressure of the CO (sub 2) inclusions or interaction of the dense dislocations possibly inhibits decrepitation or further volume expansion of the CO (sub 2) inclusions during annealing experiments. However, pyroxenes and spinel show higher and similar CO (sub 2) density, which reflects the resistance to plastic deformation and which indicates the effectiveness of CO (sub 2) inclusions in these minerals as a depth probe for mantle xenoliths.


ISSN: 0935-1221
EISSN: 1617-4011
Serial Title: European Journal of Mineralogy
Serial Volume: 23
Serial Issue: 5
Title: Retentivity of CO (sub 2) in fluid inclusions in mantle minerals
Affiliation: Woods Hole Oceanographic Institution, Woods Hole, MA, United States
Pages: 805-815
Published: 201110
Text Language: English
Publisher: Schweizerbart'sche Verlagsbuchhandlung (Naegele u. Obermiller), Stuttgart, Germany
References: 66
Accession Number: 2012-010017
Categories: Igneous and metamorphic petrology
Document Type: Serial
Bibliographic Level: Analytic
Illustration Description: illus. incl. 2 tables
Secondary Affiliation: Yale University, USA, United StatesEhime University, JPN, JapanUniversity of Tokyo, JPN, JapanTohoku University, JPN, Japan
Country of Publication: Germany
Secondary Affiliation: GeoRef, Copyright 2017, American Geosciences Institute. Abstract, copyright, Schweizerbart'sche Verlagsbuchhandlung. Reference includes data from GeoScienceWorld, Alexandria, VA, United States
Update Code: 201205
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