Zirconosilicates in the kakortokites of the Ilímaussaq Complex, South Greenland

Institut for Geovidenskab og Naturforvaltning

Zirconosilicates in the kakortokites of the Ilímaussaq Complex, South Greenland: Implications for fluid evolution and high-field-strength and rare-earth element mineralization in agpaitic systems

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Standard

Zirconosilicates in the kakortokites of the Ilímaussaq Complex, South Greenland : Implications for fluid evolution and high-field-strength and rare-earth element mineralization in agpaitic systems. / Borst, Anouk Margaretha; Friis, Henrik; Andersen, T.; Nielsen, T.; Waight, Tod Earle; Smit, Matthijs Arjen.

I: Mineralogical Magazine, Bind 80, Nr. 1, 2016, s. 5-30.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Borst, AM, Friis, H, Andersen, T, Nielsen, T, Waight, TE & Smit, MA 2016, 'Zirconosilicates in the kakortokites of the Ilímaussaq Complex, South Greenland: Implications for fluid evolution and high-field-strength and rare-earth element mineralization in agpaitic systems', Mineralogical Magazine, bind 80, nr. 1, s. 5-30. https://doi.org/10.1180/minmag.2016.080.046

APA

Borst, A. M., Friis, H., Andersen, T., Nielsen, T., Waight, T. E., & Smit, M. A. (2016). Zirconosilicates in the kakortokites of the Ilímaussaq Complex, South Greenland: Implications for fluid evolution and high-field-strength and rare-earth element mineralization in agpaitic systems. Mineralogical Magazine, 80(1), 5-30. https://doi.org/10.1180/minmag.2016.080.046

Vancouver

Borst AM, Friis H, Andersen T, Nielsen T, Waight TE, Smit MA. Zirconosilicates in the kakortokites of the Ilímaussaq Complex, South Greenland: Implications for fluid evolution and high-field-strength and rare-earth element mineralization in agpaitic systems. Mineralogical Magazine. 2016;80(1):5-30. https://doi.org/10.1180/minmag.2016.080.046

Author

Borst, Anouk Margaretha ; Friis, Henrik ; Andersen, T. ; Nielsen, T. ; Waight, Tod Earle ; Smit, Matthijs Arjen. / Zirconosilicates in the kakortokites of the Ilímaussaq Complex, South Greenland : Implications for fluid evolution and high-field-strength and rare-earth element mineralization in agpaitic systems. I: Mineralogical Magazine. 2016 ; Bind 80, Nr. 1. s. 5-30.

Bibtex

@article{ef04993cd5cb43ea8a08f025fd4f5822,

title = "Zirconosilicates in the kakortokites of the Il{\'i}maussaq Complex, South Greenland: Implications for fluid evolution and high-field-strength and rare-earth element mineralization in agpaitic systems",

abstract = "The layered agpaitic nepheline syenites (kakortokites) of the Il{\'i}maussaq complex, South Greenland, host voluminous accumulations of eudialyte-group minerals (EGM). These complex Na-Ca-zirconosilicates contain economically attractive levels of Zr, Nb and rare-earth elements (REE), but have commonly undergone extensive autometasomatic/hydrothermal alteration to a variety of secondary mineral assemblages. Three EGM alteration assemblages are recognized, characterized by the secondary zirconosilicates catapleiite, zircon and gittinsite. Theoretical petrogenetic grid models are constructed to assess mineral stabilities in terms of component activities in the late-stage melts and fluids. Widespread alteration of EGM to catapleiite records an overall increase in water activity, and reflects interaction of EGM with late-magmatic Na-, Cl- and F-rich aqueous fluids at the final stages of kakortokite crystallization. Localized alteration of EGM and catapleiite to the rare Ca-Zr silicate gittinsite, previously unidentified at Il{\'i}maussaq, requires an increase in CaO activity and suggests post-magmatic interaction with Ca-Sr bearing aqueous fluids. The pseudomorphic replacement of EGM in the kakortokites was not found to be associated with significant remobilization of the primary Zr, Nb and REE mineralization, regardless of the high concentrations of potential transporting ligands such as F and Cl. We infer that the immobile behaviour essentially reflects the neutral to basic character of the late-magmatic fluids, in which REE-F compounds are insoluble and remobilization of REE as Cl complexes is inhibited by precipitation of nacareniobsite-(Ce) and various Ca-REE silicates. A subsequent decrease in F– activity would furthermore restrict the mobility of Zr as hydroxyl-fluoride complexes, and promote precipitation of the secondary zirconosilicates within the confines of the replaced EGM domains. ",

author = "Borst, {Anouk Margaretha} and Henrik Friis and T. Andersen and T. Nielsen and Waight, {Tod Earle} and Smit, {Matthijs Arjen}",

year = "2016",

doi = "10.1180/minmag.2016.080.046",

language = "English",

volume = "80",

pages = "5--30",

journal = "Mineralogical Magazine",

issn = "0026-461X",

publisher = "Mineralogical Society",

number = "1",

}

RIS

TY - JOUR

T1 - Zirconosilicates in the kakortokites of the Ilímaussaq Complex, South Greenland

T2 - Implications for fluid evolution and high-field-strength and rare-earth element mineralization in agpaitic systems

AU - Borst, Anouk Margaretha

AU - Friis, Henrik

AU - Andersen, T.

AU - Nielsen, T.

AU - Waight, Tod Earle

AU - Smit, Matthijs Arjen

PY - 2016

Y1 - 2016

N2 - The layered agpaitic nepheline syenites (kakortokites) of the Ilímaussaq complex, South Greenland, host voluminous accumulations of eudialyte-group minerals (EGM). These complex Na-Ca-zirconosilicates contain economically attractive levels of Zr, Nb and rare-earth elements (REE), but have commonly undergone extensive autometasomatic/hydrothermal alteration to a variety of secondary mineral assemblages. Three EGM alteration assemblages are recognized, characterized by the secondary zirconosilicates catapleiite, zircon and gittinsite. Theoretical petrogenetic grid models are constructed to assess mineral stabilities in terms of component activities in the late-stage melts and fluids. Widespread alteration of EGM to catapleiite records an overall increase in water activity, and reflects interaction of EGM with late-magmatic Na-, Cl- and F-rich aqueous fluids at the final stages of kakortokite crystallization. Localized alteration of EGM and catapleiite to the rare Ca-Zr silicate gittinsite, previously unidentified at Ilímaussaq, requires an increase in CaO activity and suggests post-magmatic interaction with Ca-Sr bearing aqueous fluids. The pseudomorphic replacement of EGM in the kakortokites was not found to be associated with significant remobilization of the primary Zr, Nb and REE mineralization, regardless of the high concentrations of potential transporting ligands such as F and Cl. We infer that the immobile behaviour essentially reflects the neutral to basic character of the late-magmatic fluids, in which REE-F compounds are insoluble and remobilization of REE as Cl complexes is inhibited by precipitation of nacareniobsite-(Ce) and various Ca-REE silicates. A subsequent decrease in F– activity would furthermore restrict the mobility of Zr as hydroxyl-fluoride complexes, and promote precipitation of the secondary zirconosilicates within the confines of the replaced EGM domains.

AB - The layered agpaitic nepheline syenites (kakortokites) of the Ilímaussaq complex, South Greenland, host voluminous accumulations of eudialyte-group minerals (EGM). These complex Na-Ca-zirconosilicates contain economically attractive levels of Zr, Nb and rare-earth elements (REE), but have commonly undergone extensive autometasomatic/hydrothermal alteration to a variety of secondary mineral assemblages. Three EGM alteration assemblages are recognized, characterized by the secondary zirconosilicates catapleiite, zircon and gittinsite. Theoretical petrogenetic grid models are constructed to assess mineral stabilities in terms of component activities in the late-stage melts and fluids. Widespread alteration of EGM to catapleiite records an overall increase in water activity, and reflects interaction of EGM with late-magmatic Na-, Cl- and F-rich aqueous fluids at the final stages of kakortokite crystallization. Localized alteration of EGM and catapleiite to the rare Ca-Zr silicate gittinsite, previously unidentified at Ilímaussaq, requires an increase in CaO activity and suggests post-magmatic interaction with Ca-Sr bearing aqueous fluids. The pseudomorphic replacement of EGM in the kakortokites was not found to be associated with significant remobilization of the primary Zr, Nb and REE mineralization, regardless of the high concentrations of potential transporting ligands such as F and Cl. We infer that the immobile behaviour essentially reflects the neutral to basic character of the late-magmatic fluids, in which REE-F compounds are insoluble and remobilization of REE as Cl complexes is inhibited by precipitation of nacareniobsite-(Ce) and various Ca-REE silicates. A subsequent decrease in F– activity would furthermore restrict the mobility of Zr as hydroxyl-fluoride complexes, and promote precipitation of the secondary zirconosilicates within the confines of the replaced EGM domains.

U2 - 10.1180/minmag.2016.080.046

DO - 10.1180/minmag.2016.080.046

M3 - Journal article

VL - 80

SP - 5

EP - 30

JO - Mineralogical Magazine

JF - Mineralogical Magazine

SN - 0026-461X

IS - 1

ER -

ID: 138854305