FRAGILE EARTH: Geological Processes from Global to Local Scales and Associated Hazards (4-7 September 2011)

Paper No. 1
Presentation Time: 11:35

DEPTH-DEPENDENT EXTENSION, TWO-STAGE BREAKUP AND CRATONIC UNDERPLATING AT RIFTED MARGINS


HUISMANS, Ritske S., Earth Science, Bergen University, Allegaten 41, Bergen, 5007 and BEAUMONT, Christopher, Oceanography, Dalhousie University, Halifax, B3H 4J1, Canada, ritske.huismans@geo.uib.no

Uniform lithospheric extension predicts basic properties of non-volcanic rifted margins but fails to explain other important characteristics. Significant discrepancies are observed at ‘type I’ margins (such as the Iberia–Newfoundland conjugates), where large tracts of continental mantle lithosphere are exposed at the sea floor, and ‘type II’ margins (such as some ultrawide central South Atlantic margins), where thin continental crust spans wide regions below which continental lower crust and mantle lithosphere have apparently been removed. Neither corresponds to uniform extension. Instead, either crust or mantle lithosphere has been preferentially removed. Using dynamical models, we demonstrate that these margins are opposite end members: in type I, depth-dependent extension results in crustal-necking breakup before mantle-lithosphere breakup and in type II, the converse is true. These two-layer, two-stage breakup behaviours explain the discrepancies and have implications for the styles of the associated sedimentary basins. Laterally flowing lower-mantle cratonic lithosphere may underplate some type II margins, thereby contributing to their anomalous characteristics.