Home > Research > Publications & Outputs > Zirconium-bearing accessory minerals in UK Pale...

Research

Links

Text available via DOI:

View graph of relations

Zirconium-bearing accessory minerals in UK Paleogene granites: Textural, compositional, and paragenetic relationships

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Published

Standard

Zirconium-bearing accessory minerals in UK Paleogene granites: Textural, compositional, and paragenetic relationships. / Belkin, H.E.; MacDonald, R.
In: European Journal of Mineralogy, Vol. 33, No. 5, 23.09.2021, p. 537-570.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Belkin, HE & MacDonald, R 2021, 'Zirconium-bearing accessory minerals in UK Paleogene granites: Textural, compositional, and paragenetic relationships', European Journal of Mineralogy, vol. 33, no. 5, pp. 537-570. https://doi.org/10.5194/ejm-33-537-2021

APA

Belkin, H. E., & MacDonald, R. (2021). Zirconium-bearing accessory minerals in UK Paleogene granites: Textural, compositional, and paragenetic relationships. European Journal of Mineralogy, 33(5), 537-570. https://doi.org/10.5194/ejm-33-537-2021

Vancouver

Belkin HE, MacDonald R. Zirconium-bearing accessory minerals in UK Paleogene granites: Textural, compositional, and paragenetic relationships. European Journal of Mineralogy. 2021 Sept 23;33(5):537-570. doi: 10.5194/ejm-33-537-2021

Author

Belkin, H.E. ; MacDonald, R. / Zirconium-bearing accessory minerals in UK Paleogene granites : Textural, compositional, and paragenetic relationships. In: European Journal of Mineralogy. 2021 ; Vol. 33, No. 5. pp. 537-570.

Bibtex

@article{694ac349a27f45878c3ab062f19d7889,
title = "Zirconium-bearing accessory minerals in UK Paleogene granites: Textural, compositional, and paragenetic relationships",
abstract = "The mineral occurrences, parageneses, textures, and compositions of Zr-bearing accessory minerals in a suite of UK Paleogene granites from Scotland and Northern Ireland are described. Baddeleyite, zirconolite, and zircon, in that sequence, formed in hornblende + biotite granites (type 1) and hedenbergite–fayalite granites (type 2). The peralkaline microgranite (type 3) of Ailsa Craig contains zircon, dalyite, a eudialyte-group mineral, a fibrous phase which is possibly lemoynite, and Zr-bearing aegirine. Hydrothermal zircon is also present in all three granite types and documents the transition from a silicate-melt environment to an incompatible element-rich aqueous-dominated fluid. No textures indicative of inherited zircon were observed. The minerals crystallized in stages from magmatic through late-magmatic to hydrothermal. The zirconolite and eudialyte-group mineral are notably Y+REE-rich (REE signifies rare earth element). The crystallization sequence of the minerals may have been related to the activities of Si and Ca, to melt peralkalinity, and to local disequilibrium.",
author = "H.E. Belkin and R. MacDonald",
year = "2021",
month = sep,
day = "23",
doi = "10.5194/ejm-33-537-2021",
language = "English",
volume = "33",
pages = "537--570",
journal = "European Journal of Mineralogy",
issn = "0935-1221",
publisher = "E. Schweizerbart'sche Verlagsbuchhandlung",
number = "5",

}

RIS

TY - JOUR

T1 - Zirconium-bearing accessory minerals in UK Paleogene granites

T2 - Textural, compositional, and paragenetic relationships

AU - Belkin, H.E.

AU - MacDonald, R.

PY - 2021/9/23

Y1 - 2021/9/23

N2 - The mineral occurrences, parageneses, textures, and compositions of Zr-bearing accessory minerals in a suite of UK Paleogene granites from Scotland and Northern Ireland are described. Baddeleyite, zirconolite, and zircon, in that sequence, formed in hornblende + biotite granites (type 1) and hedenbergite–fayalite granites (type 2). The peralkaline microgranite (type 3) of Ailsa Craig contains zircon, dalyite, a eudialyte-group mineral, a fibrous phase which is possibly lemoynite, and Zr-bearing aegirine. Hydrothermal zircon is also present in all three granite types and documents the transition from a silicate-melt environment to an incompatible element-rich aqueous-dominated fluid. No textures indicative of inherited zircon were observed. The minerals crystallized in stages from magmatic through late-magmatic to hydrothermal. The zirconolite and eudialyte-group mineral are notably Y+REE-rich (REE signifies rare earth element). The crystallization sequence of the minerals may have been related to the activities of Si and Ca, to melt peralkalinity, and to local disequilibrium.

AB - The mineral occurrences, parageneses, textures, and compositions of Zr-bearing accessory minerals in a suite of UK Paleogene granites from Scotland and Northern Ireland are described. Baddeleyite, zirconolite, and zircon, in that sequence, formed in hornblende + biotite granites (type 1) and hedenbergite–fayalite granites (type 2). The peralkaline microgranite (type 3) of Ailsa Craig contains zircon, dalyite, a eudialyte-group mineral, a fibrous phase which is possibly lemoynite, and Zr-bearing aegirine. Hydrothermal zircon is also present in all three granite types and documents the transition from a silicate-melt environment to an incompatible element-rich aqueous-dominated fluid. No textures indicative of inherited zircon were observed. The minerals crystallized in stages from magmatic through late-magmatic to hydrothermal. The zirconolite and eudialyte-group mineral are notably Y+REE-rich (REE signifies rare earth element). The crystallization sequence of the minerals may have been related to the activities of Si and Ca, to melt peralkalinity, and to local disequilibrium.

U2 - 10.5194/ejm-33-537-2021

DO - 10.5194/ejm-33-537-2021

M3 - Journal article

VL - 33

SP - 537

EP - 570

JO - European Journal of Mineralogy

JF - European Journal of Mineralogy

SN - 0935-1221

IS - 5

ER -