Noble gas isotopic compositions of seamount lavas from the central Chile trench: Implications for petit-spot volcanism and the lithosphere asthenosphere boundary

We report new noble gas isotopic compositions of submarine basaltic glasses sampled from two seamounts discovered offshore of Chile, and inferred to have erupted as petit-spot volcanoes near the Juan Fernandez hotspot. The samples have He-3/He-4 of 1-15 times atmosphere (Ra). Their neon isotope compositions are similar to those of the Hawaiian Islands and Reunion Island. Their Ar-40/Ar-36 range from atmospheric to 2300. Although the lavas are likely to be influenced by a hotspot-related component, the cause of the He-3/He-4 variation must be clarified to ascertain the mantle source. Variations in He-3/He-4 are not attributable to processes occurring at the Earth's surface such as degassing fractionation, mixing with atmosphere dissolved in seawater, or in-situ post-eruptive addition of He-4. A combination of the NeAr isotope ratios corrected for atmospheric influence and He isotope ratios indicates that the noble gas isotopes of the lavas are a mixture of a hotspot magma, MORE-source, and radiogenic components. The lower He-3/He-4 are attributed to assimilation with the oceanic lithosphere, suggesting that the pristine He-3/He-4 of the lavas is hotspot-like. These features can be interpreted as indicating that part of the Juan Fernandez plume infiltrated the lithosphere-asthenosphere boundary (LAB), and that the ponding magma has erupted as petit-spot volcanoes because of plate bending. The noble gas data indicate that LAB can be a reservoir for exotic melts, which might have lubricated plate tectonics. (C) 2020 Elsevier B.V. All rights reserved.