Geodynamic evolution of a forearc rift in the southernmost M ariana A rc

The southernmost M ariana forearc stretched to accommodate opening of the M ariana T rough backarc basin in late N eogene time, erupting basalts at 3.7–2.7 Ma that are now exposed in the Southeast M ariana F orearc R ift ( SEMFR ). T oday, SEMFR is a broad zone of extension that formed on hydrated, forearc lithosphere and overlies the shallow subducting slab (slab depth ≤ 30–50 km). It comprises NW–SE trending subparallel deeps, 3–16 km wide, that can be traced ≥ ∼30 km from the trench almost to the backarc spreading center, the M alaguana‐ G adao R idge ( MGR ). While forearcs are usually underlain by serpentinized harzburgites too cold to melt, SEMFR crust is mostly composed of P liocene, low‐ K basaltic to basaltic andesite lavas that are compositionally similar to arc lavas and backarc basin ( BAB ) lavas, and thus defines a forearc region that recently witnessed abundant igneous activity in the form of seafloor spreading. SEMFR igneous rocks have low Na 8 , Ti 8 , and Fe 8 , consistent with extensive melting, at ∼23 ± 6.6 km depth and 1239 ± 40°C, by adiabatic decompression of depleted asthenospheric mantle metasomatized by slab‐derived fluids. Stretching of pre‐existing forearc lithosphere allowed BAB ‐like mantle to flow along the SEMFR and melt, forming new oceanic crust. Melts interacted with pre‐existing forearc lithosphere during ascent. The SEMFR is no longer magmatically active and post‐magmatic tectonic activity dominates the rift.