Abstract
New Hf isotope data provide new insights into the nature of the mantle beneath the southern Lau basin, adding new constraints on the displacement process of the Pacific mid-ocean ridge basalt (MORB)-type mantle by the Indian MORB-type mantle. The Hf isotopic ratios (176Hf/177Hf) of submarine lavas from the eastern Lau spreading center (ELSC) range from 0.283194 (εHf = 14.92) to 0.283212 (εHf = 15.54), with an average value of 0.283199 (εHf = 15.11) whereas those from the Valu Fa ridge (VFR) vary from 0.283221 (εHf = 15.88) to 0.283200 (εHf = 15.14), with an average of 0.283214 (15.61), indicating that ELSC lavas have a slightly more radiogenic Hf isotopic composition than VFR lavas. In contrast to the results from previous studies, the new Hf analyses combined with previous Nd isotope data clearly show that both VFR and ELSC have the distinct Hf–Nd isotope composition of the so-called DUPAL isotopic anomaly in the Indian MORB-type mantle. The DUPAL isotopic signature at VFR demonstrates for the first time that the inflow of the Indian MORB-type mantle has reached the southern tip of tectonic propagation in the southern Lau basin.
Highlights
The Lau basin-Tonga arc system, similar to the Mariana arc/backarc basin system, is an intra-oceanic convergent margin with little influence from continental crust materials
The new data for both Valu Fa ridge and eastern Lau spreading center (ELSC) lavas are within the isotopic range of the lavas from the entire Lau basin-Tonga arc system, but in general, they have higher 176Hf/177Hf for given 87Sr/86Sr, 143Nd/144Nd and Pb isotope ratios compared to those published Valu Fa ridge and ELSC data
Yan et al.[17] showed that most of the same Valu Fa ridge and ELSC lavas analyzed in this study lie in the overlapping Pacific mid-ocean ridge basalt (MORB) mantle and Dupal-like Indian MORB-type mantle fields and partly in the field for Tonga arc lavas, which have been affected by subduction components, based on their Sr–Nd–Pb isotopic composition
Summary
The Lau basin-Tonga arc system, similar to the Mariana arc/backarc basin system, is an intra-oceanic convergent margin with little influence from continental crust materials. Studies involving traditional Sr, Nd and Pb isotopic ratios, combined with trace element data, have shown the simultaneously presence of the Pacific MORB mantle and Dupal-like Indian MORB-type mantle domains in the Lau basin-Tonga arc system, but the precise boundary between the two remains unclear[8,9,10,14,15,17,23]. Because the DUPAL-like Indian MORB-type mantle is characterized by higher εHf and lower εNd than the Pacific MORB mantle[18,22,41,43,48,52,53], a combined Nd-Hf isotopic investigation may allow for a better tracing of these mantle domains in the Lau basin-Tonga arc system
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