--> Abstract: Timing and Geometry of Left-Slip Faulting and Compressional Folding in Hondo Field, Western Santa Barbara Channel, by M. McGroder, C. Millson, and D. Gardner; #90981 (1994).
[First Hit]

Datapages, Inc.Print this page

Abstract: Timing and Geometry of Left-Slip Faulting and Compressional Folding in Hondo Previous HitFieldNext Hit, Western Santa Barbara Channel

Michael McGroder, Chip Millson, Dave Gardner

Hondo Previous HitfieldNext Hit is located within the Santa Ynez offshore lease unit, approximately 5 mi south of Gaviota, California. Production is from Monterey fractured shales and deeper sandstone horizons. Two types of structures are well imaged on 3-D reflection data from the east end of the Previous HitfieldNext Hit, which has undergone 3-D prestack time migration. The most conspicuous structure is an east-west compressional fold with a gently to moderately dipping southern limb and a shorter and more steeply dipping Previous HitnorthNext Hit limb. The shape of the fold suggests that uplift was related to southward transport up a Previous HitnorthNext Hit dipping thrust ramp at (subseismic) depth. The northern limb of this structure is widest at the level of the top Sisquoc Formation and narrowest in sediments 2-3 cycles beneath the Previous HitseaNext Hit floor. This triangu ar panel of Previous HitnorthNext Hit dip indicates growth of the structure commenced during deposition of the lower Pico Formation in the Pliocene, and continued through the Pleistocene.

The second-order structures that control trap distribution within the Previous HitfieldNext Hit include high-angle faults that trend roughly east-west. The northernmost of these faults, the Previous HitnorthNext Hit bounding fault (NBF) is known from well data to have 1500 feet of throw and to dip steeply to the south. It would restore to a vertical or steep Previous HitnorthNext Hit dip upon removal of the effects of Pliocene-Pleistocene folding. The southernmost of these faults (SF) appears to change displacement from down-to-the-south in the east to down-to-the-Previous HitnorthNext Hit in the west and also dips steeply. A high-angle fault in the center of the Previous HitfieldNext Hit (CF) also has a vaiable sense of offset across it. Several prominent northeast-southwest faults lie between the CF and SF and clearly exhibit normal separation on vertical time sections and left se aration on time slices. Variable thicknesses of Sisquoc Formation and roughly uniform thicknesses of Monterey Formation indicate that these faults were active in latest Miocene to early Pliocene.

We have used visualization technology to create 3-D images of several horizons in Hondo Previous HitfieldNext Hit. These images and the observations described above lead us to conclude that the high-angle faults in this part of the western channel formed during a short-lived but intense episode of transtensional left slip at around 5-4 Ma. This event was followed shortly thereafter by the onset of regional Previous HitnorthNext Hit-south compression on deep thrusts within the channel and Transverse Ranges. We speculate that the location of ramps in the deep thrust system and hence the geometry of overlying folds was controlled to some extent by the presence of the previously active high-angle faults. The undeformed Previous HitseaTop floor suggests that the deep thrusts and overlying folds may not be active today.

AAPG Search and Discovery Article #90981©1994 AAPG Pacific Section Meeting, Ventura, California, April 27-29, 1994