New Paleomagnetic Data from Thurston Island - Implications for the Tectonics of West Antarctica and Weddell Sea Opening

Publication Status is "Submitted" Or "In Press: 
LDEO Publication: 
Publication Type: 
Year of Publication: 
Journal Title: 
Journal of Geophysical Research-Solid Earth
Journal Date: 
Oct 10
Place Published: 
Tertiary Title: 
Section / Start page: 
ISBN Number: 
ISSN Number: 
Short Title: 
Accession Number: 
LDEO Publication Number: 
Call Number: 

Paleomagnetic data from three West Antarctic crustal blocks (Antarctic Peninsula (AP), Thurston Island-Eights Coast (TI), and the Ellsworth-Whitmore Mountains (EWM) indicate that there has been motion between the individual blocks and motion relative to East Antarctica during the Mesozoic. A Triassic paleomagnetic pole from the TI block (116-degrees-E, 61-degrees-S, A95 = 19.4-degrees, N = 3 VGPs) appears to indicate that the block has rotated approximately 90-degrees relative to East Antarctica between 230 Ma and 110 Ma. Our previously reported Middle Jurassic paleomagnetic pole from the EWM block indicates that a 90-degrees rotation relative to East Antarctica occurred sometime between the Cambrian and 175 Ma. We believe that the 90-degrees counterclockwise EWM rotation occurred between approximately 220 Ma and 175 Ma related to the development of post-Gondwanide Orogeny shear zones. The motion of the AP, TI, and EWM blocks appears to be linked during the mid- to late Mesozoic to three major events in the evolution of the southern ocean basins. Opening in the Mozambique-Somali-Weddell Sea basins may have produced major counterclockwise rotation of the TI block with respect to East Antarctica between the Jurassic and Early Cretaceous based on new Late Jurassic (145-degrees-E, 64.5-degrees-S, A95 = 7-degrees, N = 5 VGPs) poles. We believe that the TI rotation, as well as deformation in the southern AP block, was caused by collision and shearing of the EWM block against the other two as the EWM block moved southward with East Antarctica. An Early Cretaceous paleomagnetic pole (232-degrees-E, 49-degrees-S, A95 = 7.9-degrees, N = 5 VGPs) from the TI block requires that between the Early and mid- Cretaceous there was clockwise rotation, with respect to East Antarctica, of the AP-TI-EWM blocks (an entity we call Weddellia). A change in the opening history of the Weddell Sea basin caused by initiation of spreading in the South Atlantic ocean basin at approximately 130 Ma probably started Weddellia's clockwise rotation. Two new approximately 110 and approximately 90 Ma poles from the TI block (210-degrees-E, 73-degrees-S, A95 = 7.6-degrees, N = 7 VGPs and 161-degrees-E, 81-degrees-S, A95 = 3.9-degrees, N = 18 VGPs, respectively) are similar to equivalent age poles from the AP block and East Antarctica and indicate that Weddellia was at or near its present-day position with respect to East Antarctica by approximately 110 Ma. This corresponds to a time of major plate recoganization in the South Atlantic and southeast Indian Oceans. Based on both the new TI paleomagnetic data and previously reported data from Marie Byrd Land (MBL), dextral shearing would be expected to have occurred between MBL and Weddellia since the mid-Cretaceous. Pine Island Bay, the area between the TI and MBL blocks, marks a fundamental and complex tectonic boundary in West Antarctica that we propose has largely been a zone of transcurrent shearing.


Gk023Times Cited:59Cited References Count:79