A Detailed Reconstruction of the Woodlark Basin.

Autor: Benyshek, E. K., Taylor, B., Goodliffe, A. M.
Předmět:
Zdroj: Geochemistry, Geophysics, Geosystems: G3; Jul2024, Vol. 25 Issue 7, p1-21, 21p
Abstrakt: An animated 100,000‐year‐interval tectonic reconstruction of the Woodlark Basin in the southwest Pacific illustrates how, at intermediate initial spreading rates, orogenic continents break up (dyke model), spreading segments nucleate, transform faults initiate and ocean basins evolve. We refine the location/timing of initial seafloor spreading and Euler poles of rotation back to 6.2 Ma. In the easternmost basin, where spreading younger than 2.6 Ma is not co‐polar with that to the west, we recognize the formation of a Ghizo microplate and Ranongga Transform Fault at ∼2.6 Ma and a 3‐degree rotational opening of the Itina Trough from 2.6 to 1.0 Ma. Allowing for that motion, we show that the 5.2–2.6 Ma seafloor in the easternmost basin formed co‐polar with that to the west. We also identify a ridge jump reorientation at ∼1.0 Ma that formed the NE‐trending Simbo Spreading Segment, whose neovolcanic zone includes Simbo Island and a submarine edifice to its south. Proposed deterministic models of ridge propagation (due to topographic gradients, mantle flow away from hotspots and/or changing plate motion) are not consistent with those observed; mantle chemical heterogeneities and melting anomalies are a potential cause that remains to be tested. We reconstruct the northern conjugate of the oldest extant oceanic crust and estimate the initiation of its subduction at ∼2.6 Ma, concomitant with observed changes in plate motion and segmentation. Where subducted, the young oceanic lithosphere between the conjugate rifted margins appears to be resorbed into the mantle, leaving a slab window where the Pacific subducted slab remains attached. Key Points: An animated tectonic reconstruction of the Woodlark Basin illustrates continental breakup and ocean basin formation and evolutionMost deterministic models of ridge propagation are not consistent with observations; mantle heterogeneities and melting anomalies may beThe Ghizo microplate and Ranongga Transform Fault formed ∼2.6 Ma; the Itina Trough rift graben rotated open by 3‐degrees from 2.6 to 1.0 Ma [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index