Seeing through the Effects of Crustal Assimilation to Assess the Source Composition beneath the Southern Lesser Antilles Arc

Seeing through the Effects of Crustal Assimilation to Assess the Source Composition beneath the Southern Lesser Antilles Arc

Assessing the impact of crustal assimilation on the composition of oceanic arc lavas is important if source composition is to be correctly interpreted. This is particularly the case in the Lesser Antilles where lavas encompass a very large range in radiogenic isotope compositions. Here we present ne...

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Bibliographic Details
Published in:Journal of petrology Vol. 56; no. 4; pp. 815 - 844
Main Authors: Bezard, Rachel, Turner, Simon, Davidson, Jon P, Macpherson, Colin G, Lindsay, Jan M
Format: Journal Article
Language:English
Published: 01-04-2015
Subjects:
Assimilation
Electric arc melting
Isotope composition
Lava
Lesser Antilles
Mantle
Marine
Sediments
Signatures
ASW, Caribbean Sea, Lesser Antilles, Martinique
ASW, Caribbean Sea, Lesser Antilles
ASW, Caribbean Sea, Lesser Antilles, Grenada
ASW, Caribbean Sea, Lesser Antilles, St. Lucia
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Summary:Assessing the impact of crustal assimilation on the composition of oceanic arc lavas is important if source composition is to be correctly interpreted. This is particularly the case in the Lesser Antilles where lavas encompass a very large range in radiogenic isotope compositions. Here we present new super(176)Hf/ super(177)Hf and trace element data for a suite of samples from St Lucia in the southern Lesser Antilles arc where assimilation of sediments located within the arc crust has been shown to influence significantly Sr-Nd-Pb isotope compositions. We show that a high rate of assimilation (r=0.8) of sediment is responsible for the co-variation of Th/Th*, La/Sm, super(87)Sr/ super(86)Sr, super(206/207/208)Pb/ super(204)Pb, super(143)Nd/ super(144)Nd and super(176)Hf/ super(177)Hf towards extreme 'continental' compositions. Lavas that escaped sediment assimilation have a typical oceanic arc signature and provide the best indication of mantle source characteristics beneath St Lucia. They display similar Ba/Th, La/Sm and Nd isotopic compositions to lavas further north in the arc, but with slightly more radiogenic Sr and Pb. Addition of less than 2% of local bulk subducting sediment, or less than 3.5% of sediment partial melt or fluid, to the mantle wedge can explain these compositions; these estimates are similar to those previously proposed for the northern arc. After correction for the effects of sediment assimilation, the St Lucia lavas have only slightly more radiogenic Pb and Sr isotope signatures compared with the northern islands; this can be attributed to differences in the isotopic composition of the local subducting sediment rather than to greater sediment input, as has been previously proposed. Comparison of St Lucia with the other southern Lesser Antilles islands suggests that similar mantle source compositions exist beneath Martinique, St Vincent and perhaps Bequia, whereas a more 'continental' source might characterize Ile de Caille, Kick 'em Jenny and Grenada.
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ISSN:0022-3530
1460-2415
DOI:10.1093/petrology/egv018