Oceans at MIT Striving to understand, harness and sustain Earth's defining frontier. http://oceans.mit.edu America/New_York America/New_York America/New_York 20171105T020000 -0400 -0500 20181104T020000 EST 20180311T020000 -0500 -0400 EDT 20170421T100000-n91e8qdrst0dg1c0kqh59dudk0@google.com 20180503T093131Z MIT Seminar | PAOC Chemical Oceanography and Biogeochemistry The role of grain size on the seismic structure of the oceanic upper mantle and melt migration beneath midocean ridges Grain size is a key microstructural property of the Earth's mantle, because it influences rheology, deformation mode (e.g., diffusion vs. dislocation creep), seismic attenuation and wave-speeds, electrical conductivity, and the permeability of the mantle to melt migration. In this talk I will discuss models for grain size evolution in the oceanic upper that combine composite grain-size dependent rheology with the Wattmeter [Austin & Evans, 2007] model for how grain size changes in response to the evolving deformation field. These results will be interpreted in the context of the seismic low velocity zone beneath the ocean basins and the origin of the lithosphere asthenosphere boundary. Finally, I will discuss the implications of grain size variability on the patterns of melt migration beneath mid-ocean ridges and subduction zones and show the results of preliminary two-phase flow models that couple melt migration with the predicted grain-size field. 20170421T100000 20170421T110000 Building E25, Room 119 0

COG3 Seminar – Mark Behn (WHOI)