--> ABSTRACT: Mesozoic Sea Level Fluctuations Documented on Exmouth Plateau off Northwestern Australia, by Bilal U. Haq, Charles D. Blome, Timothy J. Bralower, Wolfram Brenner, Motoyoshi Oda, William Siesser, and Antonius A. H. Wonders; #91022 (1989)
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Mesozoic Sea Level Fluctuations Documented on Exmouth Plateau off Northwestern Australia

Bilal U. Haq, Charles D. Blome, Timothy J. Bralower, Wolfram Brenner, Motoyoshi Oda, William Siesser, Antonius A. H. Wonders

The Exmouth Plateau is uniquely suited to the study of sea level changes because of the existence of an extensive seismic grid and industry well sites, an extended Mesozoic stratigraphic record punctuated with several major Previous HitunconformitiesNext Hit, and the relatively protected position of this high plateau. Thus, documenting sea level fluctuations was one of the major objectives of drilling on the Exmouth Plateau. This documentation depends on our ability to (1) isolate the tectonic overprint from the eustatic signal by retracting the subsidence histories of the drill sites and (2) accurately date the Previous HitunconformitiesNext Hit. Two transects of sites were drilled, one with four sites on the Wombat Plateau and the other with two sites on the central Exmouth Plateau, with one site located relatively proximally and another distally to the source of sediment supply. Preli inary shipboard work indicates that the age of Mesozoic Previous HitunconformitiesTop can be accurately constrained and the subsidence-related tectonic events can be effectively isolated from sea level fluctuations. Sequence stratigraphic analysis of seismic, lithofacies, biofacies, and well-log data document important Upper Triassic sequence boundaries on the Wombat Plateau between the middle and upper Carnian (Norian-Rhaetian boundary) and in the uppermost Rhaetian, whose timing and relative magnitude conform well with the eustatic cycle chart. The sequence boundary and systems tracts recognized in the central Exmouth Plateau Barrow Group equivalent strata (Berriasian-Valanginian) also correspond well with the global cycle chart. These preliminary results are of considerable importance in providing a test of the validity of the eustatic model.

AAPG Search and Discovery Article #91022©1989 AAPG Annual Convention, April 23-26, 1989, San Antonio, Texas.