Literature DB >> 25430766

Mineralogy. Discovery of bridgmanite, the most abundant mineral in Earth, in a shocked meteorite.

Oliver Tschauner1, Chi Ma2, John R Beckett2, Clemens Prescher3, Vitali B Prakapenka3, George R Rossman2.   

Abstract

Meteorites exposed to high pressures and temperatures during impact-induced shock often contain minerals whose occurrence and stability normally confine them to the deeper portions of Earth's mantle. One exception has been MgSiO3 in the perovskite structure, which is the most abundant solid phase in Earth. Here we report the discovery of this important phase as a mineral in the Tenham L6 chondrite and approved by the International Mineralogical Association (specimen IMA 2014-017). MgSiO3-perovskite is now called bridgmanite. The associated phase assemblage constrains peak shock conditions to ~ 24 gigapascals and 2300 kelvin. The discovery concludes a half century of efforts to find, identify, and characterize a natural specimen of this important mineral.
Copyright © 2014, American Association for the Advancement of Science.

Entities:  

Year:  2014        PMID: 25430766     DOI: 10.1126/science.1259369

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  14 in total

1.  Natural Fe-bearing aluminous bridgmanite in the Katol L6 chondrite.

Authors:  Sujoy Ghosh; Kishan Tiwari; Masaaki Miyahara; Arno Rohrbach; Christian Vollmer; Vincenzo Stagno; Eiji Ohtani; Dwijesh Ray
Journal:  Proc Natl Acad Sci U S A       Date:  2021-10-05       Impact factor: 11.205

2.  Discovery of natural MgSiO3 tetragonal garnet in a shocked chondritic meteorite.

Authors:  Naotaka Tomioka; Masaaki Miyahara; Motoo Ito
Journal:  Sci Adv       Date:  2016-03-25       Impact factor: 14.136

3.  Discovery of the Fe-analogue of akimotoite in the shocked Suizhou L6 chondrite.

Authors:  Luca Bindi; Ming Chen; Xiande Xie
Journal:  Sci Rep       Date:  2017-02-15       Impact factor: 4.379

4.  Shock-transformation of whitlockite to merrillite and the implications for meteoritic phosphate.

Authors:  C T Adcock; O Tschauner; E M Hausrath; A Udry; S N Luo; Y Cai; M Ren; A Lanzirotti; M Newville; M Kunz; C Lin
Journal:  Nat Commun       Date:  2017-03-06       Impact factor: 14.919

5.  High Pressure Single Crystal Diffraction at PX^2.

Authors:  Dongzhou Zhang; Przemyslaw K Dera; Peter J Eng; Joanne E Stubbs; Jin S Zhang; Vitali B Prakapenka; Mark L Rivers
Journal:  J Vis Exp       Date:  2017-01-16       Impact factor: 1.355

6.  Time-resolved diffraction of shock-released SiO2 and diaplectic glass formation.

Authors:  A E Gleason; C A Bolme; H J Lee; B Nagler; E Galtier; R G Kraus; R Sandberg; W Yang; F Langenhorst; W L Mao
Journal:  Nat Commun       Date:  2017-11-14       Impact factor: 14.919

7.  Stability of Fe,Al-bearing bridgmanite in the lower mantle and synthesis of pure Fe-bridgmanite.

Authors:  Leyla Ismailova; Elena Bykova; Maxim Bykov; Valerio Cerantola; Catherine McCammon; Tiziana Boffa Ballaran; Andrei Bobrov; Ryosuke Sinmyo; Natalia Dubrovinskaia; Konstantin Glazyrin; Hanns-Peter Liermann; Ilya Kupenko; Michael Hanfland; Clemens Prescher; Vitali Prakapenka; Volodymyr Svitlyk; Leonid Dubrovinsky
Journal:  Sci Adv       Date:  2016-07-15       Impact factor: 14.136

8.  Modeling the melting of multicomponent systems: the case of MgSiO3 perovskite under lower mantle conditions.

Authors:  Cono Di Paola; John P Brodholt
Journal:  Sci Rep       Date:  2016-07-21       Impact factor: 4.379

9.  Natural diamond formation by self-redox of ferromagnesian carbonate.

Authors:  Ming Chen; Jinfu Shu; Xiande Xie; Dayong Tan; Ho-Kwang Mao
Journal:  Proc Natl Acad Sci U S A       Date:  2018-02-26       Impact factor: 11.205

10.  Characterization by Scanning Precession Electron Diffraction of an Aggregate of Bridgmanite and Ferropericlase Deformed at HP-HT.

Authors:  B C Nzogang; J Bouquerel; P Cordier; A Mussi; J Girard; S Karato
Journal:  Geochem Geophys Geosyst       Date:  2018-03-02       Impact factor: 3.624
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