Helium isotope, C / 3 H e, and B a‐ N b‐ T i signatures in the northern L au B asin: Distinguishing arc, back‐arc, and hotspot affinities

The northern Lau Basin hosts a complicated pattern of volcanism, including Tofua Arc volcanoes, several back‐arc spreading centers, and individual “rear‐arc” volcanoes not associated with these structures. Elevated 3 He/ 4 He ratios in lavas of the NW Lau Spreading Center suggest the influence of a mantle plume, possibly from Samoa. We show that lavas from mid‐ocean ridges, volcanic arcs, and hotspots occupy distinct, nonoverlapping fields in a 3 He/ 4 He versus C/ 3 He plot. Applied to the northern Lau Basin, this approach shows that most of Lau back‐arc spreading systems have mid‐ocean ridge 3 He/ 4 He‐C/ 3 He characteristics, except the NW Lau spreading center, which has 3 He/ 4 He‐C/ 3 He similar to “high 3 He” hotspots such as Loihi, Kilauea, and Yellowstone, but with slightly lower C/ 3 He. Niua seamount, on the northern extension of the Tofua Arc, falls squarely in the arc field. All the NE Lau rear‐arc volcanoes, including the recently erupting West Mata, also have arc‐like 3 He/ 4 He‐C/ 3 He characteristics. Ba‐Nb‐Ti contents of the lavas, which are more traditional trace element indicators of mantle source enrichment, depletion, and subduction input, likewise indicate arc and hot spot influences in the lavas of the northern Lau Basin, but in a more ambiguous fashion because of a complex prior history. This verifies that 3 He/ 4 He‐C/ 3 He systematics are useful for differentiating between mid‐ocean ridge, arc, and hotspot affinities in submarine volcanic systems, that all three of these affinities are expressed in the northern Lau Basin, and provides additional support for the Samoan plume influence in the region.