6533b82dfe1ef96bd1290871

RESEARCH PRODUCT

Rare earth elements in apatite as a monitor of magmatic and metasomatic processes: The Ilímaussaq complex, South Greenland

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description

Abstract Textural and compositional variations of apatite from the plutonic Ilimaussaq complex in South Greenland and its surrounding country rocks track magmatic and metasomatic processes. Detailed back-scattered electron (BSE) imaging reveals various types of apatite textures including (i) growth zonation (concentric, oscillatory as well as sector zonation) formed during magmatic differentiation, (ii) resorption and overgrowth textures due to fluid/melt induced metasomatic overprint of precursor apatite and (iii) replacement textures indicating the destabilization of apatite in favor of monazite. In the least evolved rocks of the Ilimaussaq complex, apatite incorporates rare earth elements and Y (REY) mainly via the coupled substitution Ca 2 +  + P 5 +  = REY 3 +  + Si 4 + . In the more evolved peralkaline rocks and in metasomatically overprinted rocks, however, the coupled substitution 2 Ca 2 +  = REY 3 +  + Na + becomes increasingly relevant, and apatite incorporates successively more LREE compared to HREE as shown by increasing (La/Gd) N and (Gd/Yb) N ratios. Similarly, at the contact between the Ilimaussaq rocks and the granitic country rocks, the metasomatic effect of the emplacement of the Ilimaussaq melts is preserved in partly resorbed precursor apatite, which is overgrown by REY-enriched apatite with higher (La/Gd) N and (Gd/Yb) N ratios compared to apatite from granites more distant from the contact. This study shows, that apatite textures and compositions are suitable to track both primary magmatic and later fluid-present metasomatic processes. The incorporation of REY in apatite is not only dependent on the amount of REY present but also depends largely on Na activity in the apatite-precipitating melts and fluids.