Publication detail

Apatite in carbonatitic rocks: Compositional variation, zoning, element partitioning and petrogenetic significance

CHAKHMOURADIAN, A. REGUIR, E. ZAITSEV, A. COUËSLAN, C. XU, C. KYNICKÝ, J. MUMIN, A. YANG, P.

Original Title

Apatite in carbonatitic rocks: Compositional variation, zoning, element partitioning and petrogenetic significance

Type

journal article in Web of Science

Language

English

Original Abstract

Apatite-group phosphates are nearly ubiquitous in carbonatites, but our understanding of these minerals is inadequate, particularly in the areas of element partitioning and petrogenetic interpretation of their compositional variation among spatially associated rocks and within individual crystals. In the present work, the mode of occurrence, and major-and trace-element chemistry of apatite (sensu lato) from calcite and dolomite carbonatites, their associated cumulate rocks (including phoscorites) and hydrothermal parageneses were studied using a set of 80 samples from 50 localities worldwide. The majority of this set represents material for which no analytical data are available in the literature. Electron-microprobe and laser-ablation mass-spectrometry data (similar to 600 and 400 analyses, respectively), accompanied by back-scattered-electron and cathodoluminescence images and Raman spectra, were used to identify the key compositional characteristics and zoning, patterns of carbonatitic apatite. These data are placed in the context of phosphorus geochemistry in carbonatitic systems and carbonatite evolution, and compared to the models proposed by previous workers. The documented variations in apatite morphology and zoning represent a detailed record of a wide range of evolutionary processes, both magmatic and fluid-driven. The majority of igneous apatite from the examined rocks is Cl-poor fluorapatite or F-rich hydroxylapatite (>= 03 apfu F) with 0.2-2.7 wt.% Sro, 0-4.5 wt.% LREE203, 0-0.8 wt.% Na(2)0, and low levels of other cations accommodated in the Ca site (up to 1000 ppm Mn, 2300.ppm Fe, 200 ppm Ba, 150 ppm Pb, 700 ppm Th and 150 ppm U), none of which show meaningful correlation with the host-rock type. Silicate, (SO4)(2-)and (VO4)(3-)anions, substituting for (PO4)(3-), tend to occur in greater abundance in crystals from calcite carbonatites (up to 4.2 wt.% Sio(2), 1.5 wt.% Sio(2,) 1.5 wt.% SO3 and 660 ppm V). Although (CO3)(2-) groups are very likely present in some samples, Raman micro-spectroscopy proved inconclusive for apatites with small P-site deficiencies and other substituent elements in this site. Indicator REE ratios sensitive to redox conditions (delta Ce, delta Eu) and hydro thermal overprint (delta Y) form a fairly tight cluster of values (0.8-1.3, 0.8-1.1 and 0.6-0.9, respectively) and may be used in combination with trace-element abundances for the development of geochemical exploration tools. Hydrothermal apatite forms in carbonatites as the product of replacement of primary apatite, or is deposited in fractures and interstices as euhedral crystals and aggregates associated with typical late-stageminerals(e.g., quartz and chlorite). Hydrothermal apatite is typically depleted in Sr, REE, Mn and Th, but enriched in F (up to 4.8 wt.%) relative to its igneous precursor, and also differs from the latter in at least some of key REE ratios [e.g., shows (La/Yb)(cn) <= 25, or a negative Ce anomaly]. The only significant exception is Sr(+/- REE,Na)-rich replacement zones and overgrowths on igneous apatite from some dolomite ( -bearing) carbonatites. Their crystallization conditions and source fluid appear to be very different from the more common Sr-REE-depleted variety. Based on the new evidence presented in this work, trace-element partitioning between apatite and carbonatitic magmas, phosphate solubility in these magmas, and compositional variation of apatite-group minerals from spatially associated carbonatitic rocks are critically re-evaluated.

Keywords

Apatite; Trace-element composition; Element partitioning; Raman micro-spectroscopy; Carbonatites; Phoscorites

Authors

CHAKHMOURADIAN, A.; REGUIR, E.; ZAITSEV, A.; COUËSLAN, C.; XU, C.; KYNICKÝ, J.; MUMIN, A.; YANG, P.

Released

1. 3. 2017

ISBN

0024-4937

Periodical

LITHOS

Year of study

274

Number

1

State

Kingdom of Norway

Pages from

188

Pages to

213

Pages count

26

BibTex

@article{BUT142033,
  author="Anton R. {Chakhmouradian} and Ekaterina P. {Reguir} and Anatoly N. {Zaitsev} and Christopher {Couëslan} and Cheng {Xu} and Jindřich {Kynický} and A. Hamid {Mumin} and Panseok {Yang}",
  title="Apatite in carbonatitic rocks: Compositional variation, zoning, element partitioning and petrogenetic significance",
  journal="LITHOS",
  year="2017",
  volume="274",
  number="1",
  pages="188--213",
  doi="10.1016/j.lithos.2016.12.037",
  issn="0024-4937"
}