Evidence of Volatile‐Induced Melting in the Northeast Asian Upper Mantle

Abstract

AbstractA seismic low velocity layer (LVL) above the mantle transition zone (MTZ), often thought to be caused by volatile‐induced melting, can significantly modulate planetary volatile cycles. In this work, we show that an LVL observed beneath northeast Asia is characterized by small, 0.8 0.5 vol%, average degrees of partial melting. Seismically derived P‐T conditions of the LVL indicate that slab‐derived , possibly combined with small amounts of O, is necessary to induce melting. Modeling the reactive infiltration instability of the melt in a stationary mantle above a stalled slab, we demonstrate that the volatile‐rich melt slowly rises above the stalled slab in the MTZ, with percolation velocities of 200–500 m/yr. The melt remains stable within the LVL for this geologically significant period of time, potentially transferring up to 52 Mt/yr of from the subducting slab to the mantle for an LVL similar in areal extent () to the northeast Asian LVL. Reaction between the melt channels and the LVL mantle precipitates up to 200 ppmw solid C in localized zones. Using the inferred small melt volume fraction to model trace element abundances and isotopic signatures, we show that interaction between this melt and the surrounding mantle can over the long‐term produce rocks bearing a HIMU like geochemical signature.