THE ORIGIN AND SPACING OF CROSS JOINTS - EXAMPLES FROM THE MONTEREY FORMATION, SANTA-BARBARA COASTLINE, CALIFORNIA

被引:285
作者
GROSS, MR
机构
[1] Department of Geosciences, Pennsylvania State University, University Park
关键词
D O I
10.1016/0191-8141(93)90059-J
中图分类号
P [天文学、地球科学];
学科分类号
07 ;
摘要
Cross joints in the Monterey Formation terminate against a series of pre-existing systematic strike-perpendicular joints. The strike-perpendicular joints act as mechanical layer boundaries during cross joint propagation, and the distance between adjacent strike-perpendicular joints represents a mechanical layer thickness. The fracture spacing index (FSI), or ratio of joint-controlled mechanical layer thickness to cross joint spacing in the Monterey Formation, is approximately 1.3. A model is proposed for cross joint propagation based on the analysis of stress reduction in the vicinity of a newly-formed joint. In this model, cross joint development follows a sequential infilling process as remote tensile stress increases with time. According to the model, the first cross joints (FSI = 0.32) propagate under a remote tensile stress of approximately -14 mPa. A second episode of cross jointing (FSI = 0.65) initiates when remote tensile stress reaches -27 MPa, and a third generation of cross joints (FSI = 1.30) develops at -57 MPa. Joints in each successive episode initiate in the midregion between existing joints where local tensile stress is highest. High remote tensite stresses may develop due to differential horizontal contraction among adjacent stratigraphic beds upon uplift and erosion.
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页码:737 / 751
页数:15
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