TY - JOUR
T1 - Carbonatites
T2 - Classification, Sources, Evolution, and Emplacement
AU - Yaxley, Gregory M.
AU - Anenburg, Michael
AU - Tappe, Sebastian
AU - Decree, Sophie
AU - Guzmics, Tibor
N1 - Publisher Copyright:
© 2022 by Annual Reviews. All rights reserved.
PY - 2022/5/31
Y1 - 2022/5/31
N2 - Carbonatites are igneous rocks formed in the crust by fractional crystallization of carbonate-rich parental melts that are mostly mantle derived. They dominantly consist of carbonate minerals such as calcite, dolomite, and ankerite, as well as minor phosphates, oxides, and silicates. They are emplaced in continental intraplate settings such as cratonic interiors and margins, as well as rift zones, and rarely on oceanic islands. Carbonatites are cumulate rocks, which are formed by physical separation and accumulation of crystals that crystallize from a melt, and their parental melts form by either (a) direct partial melting of carbonate-bearing, metasomatized, lithospheric mantle producing alkali-bearing calciodolomitic melts or (b) silicate-carbonate liquid immiscibility following fractional crystallization of carbonate-bearing, silica-undersaturated magmas such as nephelinites, melilitites, or lamprophyres. Their emplacement into the crust is usually accompanied by fenitization, alkali metasomatism of wallrock caused by fluids expelled from the crystallizing carbonatite.Carbonatites are major hosts of deposits of the rare earth elements and niobium, and the vast majority of the global production of these commodities is from carbonatites. squf Carbonatites are igneous rocks formed from carbonate-rich magmas, which ultimately formed in Earth's upper mantle. squf Carbonatites are associated with economic deposits of metals such as the rare earth elements and niobium, which are essential in high-tech applications. squf There are more than 600 carbonatites in the geological record but only one currently active carbonatite volcano, Oldoinyo Lengai in Tanzania.
AB - Carbonatites are igneous rocks formed in the crust by fractional crystallization of carbonate-rich parental melts that are mostly mantle derived. They dominantly consist of carbonate minerals such as calcite, dolomite, and ankerite, as well as minor phosphates, oxides, and silicates. They are emplaced in continental intraplate settings such as cratonic interiors and margins, as well as rift zones, and rarely on oceanic islands. Carbonatites are cumulate rocks, which are formed by physical separation and accumulation of crystals that crystallize from a melt, and their parental melts form by either (a) direct partial melting of carbonate-bearing, metasomatized, lithospheric mantle producing alkali-bearing calciodolomitic melts or (b) silicate-carbonate liquid immiscibility following fractional crystallization of carbonate-bearing, silica-undersaturated magmas such as nephelinites, melilitites, or lamprophyres. Their emplacement into the crust is usually accompanied by fenitization, alkali metasomatism of wallrock caused by fluids expelled from the crystallizing carbonatite.Carbonatites are major hosts of deposits of the rare earth elements and niobium, and the vast majority of the global production of these commodities is from carbonatites. squf Carbonatites are igneous rocks formed from carbonate-rich magmas, which ultimately formed in Earth's upper mantle. squf Carbonatites are associated with economic deposits of metals such as the rare earth elements and niobium, which are essential in high-tech applications. squf There are more than 600 carbonatites in the geological record but only one currently active carbonatite volcano, Oldoinyo Lengai in Tanzania.
KW - Oldoinyo Lengai
KW - antiskarns
KW - carbonatite
KW - fenitization
KW - rare earth elements
KW - recycled crust
KW - silicate-carbonate liquid immiscibility
UR - http://www.scopus.com/inward/record.url?scp=85126541174&partnerID=8YFLogxK
U2 - 10.1146/annurev-earth-032320-104243
DO - 10.1146/annurev-earth-032320-104243
M3 - Review article
SN - 0084-6597
VL - 50
SP - 261
EP - 293
JO - Annual Review of Earth and Planetary Sciences
JF - Annual Review of Earth and Planetary Sciences
ER -