Motion of the Australian Plate from Sediment Paleoinclinations, Early Cretaceous through Holocene

Abstract: The change in paleolatitude of the areas off northwestern Australia since the Early Cretaceous was determined from Paleomagnetism of cores from ODP Leg 123 (Sites 765 and 766) and DSDP Leg 27 (Site 261). The Early Cretaceous paleolatitudes determined for Sites 766 and 261 agree with each other, indicating an average paleolatitude of 37° ± 3°, which is slightly lower than expected from the Australian apparent polar wander path (APWP). The Early Cretaceous to Paleogene paleolatitudes for Site 765 are systematica… Show more

“…Kodama and Ogg (1992) Musgrave (1989) Idnurm (1994) Embleton and McElhinny (1982) Embleton and McElhinny (1982), (2) Musgrave (1989), and (3) Idnurm (1985Idnurm ( , 1994. The numbers indicate approximate age of the reference (south) pole.…”

“…Only recently, has the paleomagnetic record of deep-sea sediments been used to place constraints in APWPs of major plates (Klootwijk et al, 1991;Kodama and Ogg, 1992;Acton, 1999). The record of Australia's plate motion contained in Cenozoic sediments recovered on ODP Leg 182 provide the means to better define Australia's APWP.…”

Paleolatitudes and magnetostratigraphy for Cenozoic sediments, ODP Leg 182: The Great Australian Bight

“…Kodama and Ogg (1992) Musgrave (1989) Idnurm (1994) Embleton and McElhinny (1982) Embleton and McElhinny (1982), (2) Musgrave (1989), and (3) Idnurm (1985Idnurm ( , 1994. The numbers indicate approximate age of the reference (south) pole.…”

“…Only recently, has the paleomagnetic record of deep-sea sediments been used to place constraints in APWPs of major plates (Klootwijk et al, 1991;Kodama and Ogg, 1992;Acton, 1999). The record of Australia's plate motion contained in Cenozoic sediments recovered on ODP Leg 182 provide the means to better define Australia's APWP.…”

Paleolatitudes and magnetostratigraphy for Cenozoic sediments, ODP Leg 182: The Great Australian Bight