New host for carbon in the deep Earth

Eglantine Boulard; Alexandre Gloter; Alexandre Corgne; Daniele Antonangeli; Anne-Line Auzende; Jean-Philippe Perrillat; François Guyot; Guillaume Fiquet

HAL : hal-00613182, version 1

DOI : 10.1073/pnas.1016934108/-/DCSupplemental.

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New host for carbon in the deep Earth
Boulard E., Gloter A., Corgne A., Antonangeli D., Auzende A.-L., Perrillat J.-P., Guyot F., Fiquet G.
Proceedings of the National Academy of Sciences (2011) 1 - http://hal.archives-ouvertes.fr/hal-00613182

Type de publication :

Articles dans des revues avec comité de lecture

Domaine :

Planète et Univers/Sciences de la Terre/Minéralogie

Titre :

New host for carbon in the deep Earth

Auteur(s) :

Eglantine Boulard ¹, Alexandre Gloter ², Alexandre Corgne ^1, 3, Daniele Antonangeli ¹, Anne-Line Auzende ¹, Jean-Philippe Perrillat ^4, 5, François Guyot ¹, Guillaume Fiquet ¹

Laboratoire :

1 :	Institut de minéralogie et de physique des milieux condensés (IMPMC)

	http://www.impmc.jussieu.fr/

	CNRS : UMR7590 – IPG PARIS – Université Pierre et Marie Curie [UPMC] - Paris VI – Université Paris VII - Paris Diderot

	Campus Boucicaut 140, rue de Lourmel 75015 - Paris

	France

2 :	Laboratoire de Physique des Solides (LPS)

	http://www.lps.u-psud.fr/

	CNRS : UMR8502 – Université Paris XI - Paris Sud

	Bat. 510 91405 Orsay cedex

	France

3 :	Institut de recherche en astrophysique et planétologie (IRAP)

	CNRS : UMR5277 – Université Paul Sabatier [UPS] - Toulouse III – Observatoire Midi-Pyrénées

	France

4 :	European Synchrotron Radiation Facility (ESRF)

	http://www.esrf.fr/

	ESRF

	6 rue Jules Horowitz BP220 38043 GRENOBLE CEDEX

	France

5 :	Laboratoire de Sciences de la Terre (LST)

	http://www.ens-lyon.fr/LST/

	CNRS : UMR5570 – INSU – Université Claude Bernard - Lyon I – École Normale Supérieure - Lyon

	France

Résumé :

The global geochemical carbon cycle involves exchanges between the Earth's interior and the surface. Carbon is recycled into the mantle via subduction mainly as carbonates and is released to the atmosphere via volcanism mostly as CO2. The stability of carbonates versus decarbonation and melting is therefore of great interest for understanding the global carbon cycle. For all these reasons, the thermodynamic properties and phase diagrams of these minerals are needed up to core mantle boundary conditions. However, the nature of C-bearing minerals at these conditions remains unclear. Here we show the existence of a new Mg-Fe carbon-bearing compound at depths greater than 1,800 km. Its structure, based on three-membered rings of corner-sharing ðCO4Þ4− tetrahedra, is in close agreement with predictions by first principles quantum calculations [Oganov AR, et al. (2008) Novel high-pressure structures of MgCO3, CaCO3 and CO2 and their role in Earth's lower mantle. Earth Planet Sci Lett 273:38-47]. This high-pressure polymorph of carbonates concentrates a large amount of FeðIIIÞ as a result of intracrystalline reaction between FeðIIÞ and ðCO3Þ2− groups schematically written as 4FeO þ CO2 → 2Fe2O3 þ C. This results in an assemblage of the new high-pressure phase, magnetite and nanodiamonds. diamond.

Langue du texte
intégral :

Anglais

Journal :

Proceedings of the National Academy of Sciences (Proc Natl Acad Sci U S A)
Publisher	National Academy of Sciences
ISSN	0027-8424 (eISSN : 1091-6490)

Audience :

internationale

Date de publication :

2011

Page, identifiant, ... :


hal-00613182, version 1
http://hal.archives-ouvertes.fr/hal-00613182
oai:hal.archives-ouvertes.fr:hal-00613182
Contributeur : Danielle Thomas <>
Soumis le : Mercredi 3 Août 2011, 11:40:14
Dernière modification le : Mercredi 3 Août 2011, 11:40:14