The Origin and Composition of Metasomatic Fluids and Amphiboles beneath Malaita, Solomon Islands

A suite of mantle peridotite xenoliths from the Malaitan alnoitedisplay both trace element enrichment and modal metasomatism.Pargasitic amphibole is present in both garnet- and spinelbearingxenoliths, formed by reaction of a metasomatic fluid (representedby H₂O and Na₂O) with the peridotite assemblage. Two pargasite-formingreactions are postulated, whereby spinel is totally consumed: 6MgAl₂O₄ + 8CaMgSi₂O₆ + 7Mg₂Si₂O₆ + 4H₂O + 2Na₂O = 4NaCa₂Mg₄Al₃Si₆O₁₂(OH)₂+ 6Mg₂SiO₄ or spinel is both a reactant (low Cr) and a product (high Cr): 24MgAlCrO₄ + 16CaMgSi₂O₆ + 14Mg₂Si₂O₆ + 8H₂O + 4Na₂O = 8NaCa₂Mg₄Al₃Si₆O₁₂(OH)₂+ 12MgCr₂O₄ + 12Mg₂SiO₄ Seven garnet—spinel-peridotites display cryptic metasomatismas demonstrated by the LREE enrichment in clinopyroxenes. TheLREE enrichment correlates positively with ¹⁴³ND/¹⁴⁴ND (0?512771–0?513093)which defines a mixing line between a mantle MORB source anda metasomatic fluid. Isotopic evidence (Sr and Nd) from garnet,clinopyroxene, and amphibole demonstrate this fluid has notoriginated in the alnoite sensu stricto. Calculated amphiboleequilibrium liquids show a range in La/Yb and Ce/Yb ratios similarto those calculated for the augite and subcalcic diopside megacrysts.Sr and Nd isotope analyses from amphibole are within error ofthe augite (PHN4074) and subcalcic diopside megacrysts (CRN2I6,PHN4069, and PHN4085). It is concluded that fluids emanatedfrom a proto-alnoite magma throughout megacryst fractionation,and the mixing line was generated during the crystallizationof the subcalcic diopsides. This study demonstrates that metasomatismrepresented in these xenoliths is not a prerequisite for alnoitemagmatism, but is a consequence of it.