Refertilization of the Subcontinental Lithospheric Mantle and its link to the formation of Metallogenic Provinces

Tassara, Carlos Santiago; González-Jiménez, José-María; Reich, Martin; Morata, Diego; Barra, Fernando; Gregoire, Michel; Saunders, James Edward; Cannatelli, Claudia

Author(s)

Tassara, Carlos Santiago

González-Jiménez, José-María

Reich, Martin

Morata, Diego

Barra, Fernando

Gregoire, Michel

Saunders, James Edward

Cannatelli, Claudia

Publication Date

2017

Abstract

Refertilisation of the subcontinental lithospheric mantle is a key process controlling the noble metal budget of the mantle, and recent views point to anomalously enriched mantle sources as a critical factor in the formation of noble metal (e.g., Au) provinces at a lithospheric scale. Here we test this hypothesis by studying peridotite xenoliths from the mantle beneath the Deseado Massif auriferous province in southern Patagonia, Argentina. Extensive Neogene back-arc plateau magmatism composed of alkaline basalts (~3.5 Ma) has brought to the surface deep-seated mantle xenoliths from beneath the crust that host the Au mineralization. In the studied xenolith samples we found gold particles enclosed within primary olivine and pyroxene, and embedded in a highly alkaline interstitial glass or sulphides. Detailed inspection of the sulphide hosts using FESEM reveals abundant native Au nanoparticles, which are consistent with the high Au (up to 6 ppm) obtained by LA-ICP-MS analysis of these sulphides. It is relevant to note that these sulphides also contain significant amounts of Ag (up to 163 ppm). Different generations of sulphides were identified on the basis of their chondrite-normalized PGE patterns, and they can be systematically associated with different events of melt depletion and metasomatism in the mantle. Noticeably, Cu-Pd-Pt-Au rich sulfides are associated with clinopyroxene showing typical carbonatite markers (i.e., large LREE/HREE, Zr and Hf negative anomalies) and accessory minerals such as carbonates and apatite. Still, clinopyroxene commonly has high Ti contents suggesting that a “basaltic” component was also present during the metasomatism. These results suggest that overprinting of events of melt depletion and metasomatism lead to the formation of several generations of sulfides. We propose that the Cu-Pd-Pt-Au rich sulfides may be associated with carbonated silicate melts in the mantle. Our results point to 1) a link between an enriched source of gold (and silver) in the mantle and the formation of the Deseado Massif auriferous province; and 2) carbonated silicate melt metasomatism as an important factor in the PPGE + Au refertilisation of the mantle.

Citation

Online Program for the 2017 AGU Fall Meeting, p. 1-2

Link

https://hdl.handle.net/1959.11/30845

Language

en

Title

Refertilization of the Subcontinental Lithospheric Mantle and its link to the formation of Metallogenic Provinces

Type of document

Conference Publication

Entity Type

Publication

Author(s)	Tassara, Carlos Santiago González-Jiménez, José-María Reich, Martin Morata, Diego Barra, Fernando Gregoire, Michel Saunders, James Edward Cannatelli, Claudia
Publication Date	2017
Abstract	Refertilisation of the subcontinental lithospheric mantle is a key process controlling the noble metal budget of the mantle, and recent views point to anomalously enriched mantle sources as a critical factor in the formation of noble metal (e.g., Au) provinces at a lithospheric scale.<br/> Here we test this hypothesis by studying peridotite xenoliths from the mantle beneath the Deseado Massif auriferous province in southern Patagonia, Argentina. Extensive Neogene back-arc plateau magmatism composed of alkaline basalts (~3.5 Ma) has brought to the surface deep-seated mantle xenoliths from beneath the crust that host the Au mineralization.<br/> In the studied xenolith samples we found gold particles enclosed within primary olivine and pyroxene, and embedded in a highly alkaline interstitial glass or sulphides. Detailed inspection of the sulphide hosts using FESEM reveals abundant native Au nanoparticles, which are consistent with the high Au (up to 6 ppm) obtained by LA-ICP-MS analysis of these sulphides. It is relevant to note that these sulphides also contain significant amounts of Ag (up to 163 ppm).<br/> Different generations of sulphides were identified on the basis of their chondrite-normalized PGE patterns, and they can be systematically associated with different events of melt depletion and metasomatism in the mantle. Noticeably, Cu-Pd-Pt-Au rich sulfides are associated with clinopyroxene showing typical carbonatite markers (i.e., large LREE/HREE, Zr and Hf negative anomalies) and accessory minerals such as carbonates and apatite. Still, clinopyroxene commonly has high Ti contents suggesting that a “basaltic” component was also present during the metasomatism.<br/> These results suggest that overprinting of events of melt depletion and metasomatism lead to the formation of several generations of sulfides. We propose that the Cu-Pd-Pt-Au rich sulfides may be associated with carbonated silicate melts in the mantle.<br/> Our results point to 1) a link between an enriched source of gold (and silver) in the mantle and the formation of the Deseado Massif auriferous province; and 2) carbonated silicate melt metasomatism as an important factor in the PPGE + Au refertilisation of the mantle.
Citation	Online Program for the 2017 AGU Fall Meeting, p. 1-2
Link	https://hdl.handle.net/1959.11/30845
Language	en
Title	Refertilization of the Subcontinental Lithospheric Mantle and its link to the formation of Metallogenic Provinces
Type of document	Conference Publication
Entity Type	Publication

Refertilization of the Subcontinental Lithospheric Mantle and its link to the formation of Metallogenic Provinces

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