Evolution of Carbonatite Magmas in the Upper Mantle and Crust | Zendy

Gregory M. Yaxley | Zendy; B A Kjarsgaard | Zendy; A. L. Jaques | Zendy

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Evolution of Carbonatite Magmas in the Upper Mantle and Crust

Author(s) -

Gregory M. Yaxley,

B A Kjarsgaard,

A. L. Jaques

Publication year - 2021

Publication title -

elements

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.345

H-Index - 85

eISSN - 1811-5217

pISSN - 1811-5209

DOI - 10.2138/gselements.17.5.315

Subject(s) - carbonatite , geology , geochemistry , igneous rock , petrogenesis , silicate , mantle (geology) , lithology , metasomatism , dolostone , partial melting , carbonate , silicate minerals , amphibole , petrology , carbonate rock , sedimentary rock , quartz , chemistry , paleontology , organic chemistry

Carbonatites are the most silica-poor magmas known and are amongst Earth’s most enigmatic igneous rocks. They crystallise to rocks dominated by the carbonate minerals calcite and dolomite. We review models for carbonatite petrogenesis, including direct partial melting of mantle lithologies, exsolution from silica-undersaturated alkali silicate melts, or direct fractionation of carbonated silicate melts to carbonate-rich residual melts. We also briefly discuss carbonatite–mantle wall-rock reactions and other processes at mid-to upper crustal depths, including fenitisation, overprinting by carbohydrothermal fluids, and reaction between carbonatite melt and crustal lithologies.

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