Cenozoic noncoaxial transtension along the western shoulder of the Ross Sea, Antarctica, and the emplacement of McMurdo dyke arrays

Field data on Cenozoic faults and the McMurdo dyke arrays in the Reeves Glacier–Mawson Glacier area, Victoria Land, Antarctica, allow us to support noncoaxial transtensional tectonics along the N–S‐trending western shoulder of the Ross Sea. Dyke injection within a crustal‐scale right‐lateral strike‐slip shear zone is testified by magma filled, tension gash‐like arrangements within some master fault zones, and by the left‐stepping arrangements of dykes in the intrafault zones. The noncoaxiality of deformation is shown by the re‐activation of many dyke walls as right‐lateral strike‐slip faults. This suggests an increase in the strike‐slip component over time along the western shoulder of the Ross Sea. Our data support the relevance of transtensional to strike‐slip tectonics for triggering melting and controlling the geometry and modes of magma emplacement.