Back-Arc Extension of the Central Bransfield Basin Induced by Ridge–Trench Collision: Implications From Ambient Noise Tomography and Stress Field Inversion
Metadata
Show full item recordEditorial
American Geophysical Union
Materia
Ambient noise tomography S-wave velocity structure Back-arc extension Ridge-trench collision Bransfield Basin Phoenix Plate
Date
2021-10-16Referencia bibliográfica
Li, W... [et al.] (2021). Back-arc extension of the Central Bransfield Basin induced by ridge–trench collision: Implications from ambient noise tomography and stress field inversion. Geophysical Research Letters, 48, e2021GL095032. [https://doi.org/10.1029/2021GL095032]
Sponsorship
BRAVOSEIS project CTM2016-77315-R; AWI GFZ; National Natural Science Foundation of China (NSFC) 41804056; Sino-German (CSC-DAAD) Postdoc Scholarship; Projekt DEALAbstract
The Bransfield Basin is a young (∼4 Ma) back-arc basin related to the remnant subduction
of the Phoenix Plate that once existed along the entire Pacific margin of the Antarctic Peninsula. Based
on a recently deployed amphibious seismic network, we use ambient noise tomography to obtain
the S-wave velocity structure in the Central Bransfield Basin (CBB). Combining with the stress field
inverted from focal mechanisms, our images reveal that the CBB suffers a significant extension in the
northwest-southeast direction. The extension is strongest in the northeastern CBB with associated
mantle exhumation and weakens to the southwest with decoupled deformations between the upper crust
and lithospheric mantle. Such an along-strike variation of extension can be explained by slab window
formation and forearc rotation, which are associated with the Phoenix Plate detachment during the ridge–
trench collisions at the southwest of the Hero Fracture Zone.