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Journal Article

A Formation of Late Miocene and Early Pliocene Age on the North Slope of the Santa Susana Mountains, California: ABSTRACT Free

Edward L. Winterer, David L. Durham
Journal: AAPG Bulletin
Published: 01 December 1951
AAPG Bulletin (1951) 35 (12): 2631.
DOI: https://doi.org/10.1306/3D9343A6-16B1-11D7-8645000102C1865D
...Edward L. Winterer; David L. Durham ABSTRACT It is proposed to recognize a new formation for coarse- and fine-grained sedimentary rocks of late Miocene and early Pliocene age on the north slope of the Santa Susana Mountains in the east-central part of the Ventura basin. These rocks were included...
View PDF for article title, A Formation of Late Miocene and Early Pliocene Age on the North Slope of the <span class="search-highlight">Santa</span> <span class="search-highlight">Susana</span> <span class="search-highlight">Mountains</span>, California: ABSTRACT
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Book Chapter

REPRINT: Late Cenozoic Structure of the Santa Susana Fault Zone (in Recent Reverse Faulting in the Transverse Ranges, California, USGS Professional Paper 1339, pp. 137-160) Available to Purchase

Author(s)
Robert S. Yeats
Book: Geology and Tectonics of the San Fernando Valley and East Ventura Basin, California
Series: Guidebook
Publisher: Pacific Section American Association of Petroleum Geologists
Published: 01 January 2001
DOI: 10.32375/2001-GB77.11
EISBN: 9781732014893
... ABSTRACT The Santa Susana fault extends along the southern edge of the Santa Susana Mountains from the San Fernando Valley in Los Angeles County 28 km west-northwest into Ventura County. It marks an older hinge line between a thick, continuous middle Miocene to Pliocene sequence on the north...
Abstract
View PDF for content titled, REPRINT: Late Cenozoic Structure of the <span class="search-highlight">Santa</span> <span class="search-highlight">Susana</span> Fault Zone (in Recent Reverse Faulting in the Transverse Ranges, California, USGS Professional Paper 1339, pp. 137-160)
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ABSTRACT The Santa Susana fault extends along the southern edge of the Santa Susana Mountains from the San Fernando Valley in Los Angeles County 28 km west-northwest into Ventura County. It marks an older hinge line between a thick, continuous middle Miocene to Pliocene sequence on the north and a thin, discontinuous sequence of the same age on the south. The Frew reverse-fault system, south-side up, was overridden by the north-side-up Torrey and Roosa faults that formed before deposition of the Saugus Formation and are precursors to the Santa Susana fault. The Santa Susana fault overrides the Saugus and older formations together with alluvial-fan deposits that unconformably overlie the Saugus; younger alluvial-fan deposits overlie the fault trace. The fault is low dipping and lobate near the surface but steepens at depth to a uniform 55°-60° to maximum well control at -1.5 km. Comparisons with aftershocks of the 1971 San Fernando earthquake suggest that the fault maintains this dip to depths greater than 12 km. Minimum separation varies from zero west of Oak Ridge oil field, where the Santa Susana apparently becomes a bedding fault, to more than 4 km near Aliso-Canyon oil field; true displacement is probably much larger. Comparison of separation on the Santa Susana fault and on the older Torrey and Frew systems suggests that fault displacements have been accelerating since the initiation of the Frew fault during deposition of the Pico Formation. Modern seismieity on the fault is relatively low, although the April 4, 1893, Pico Canyon earthquake may have occurred on the fault. The Santa Susana fault trace steps left and steepens in dip at Gillibrand Canyon and at the west end of Sylmar basin; both steps (lateral ramps) are seismically active. The Gillibrand step is outlined by aftershocks of an M = 4.6 event on April 8, 1976, and the Sylmar (San Fernando) step is outlined by aftershocks of the February 9, 1971, earthquake. The Santa Susana fault is part of a discontinuous north-dipping thrust-fault system that extends from the Red Mountain and San Cayetano faults east to the San Fernando, Sierra Madre, and Cucamonga faults, all of which lie on the south-facing margin of the Palmdale uplift

Journal Article

Cascade Oil Field, Los Angeles County, California: ABSTRACT Free

George H. Roth, Harold H. Sullwold, Jr.
Journal: AAPG Bulletin
Published: 01 January 1958
AAPG Bulletin (1958) 42 (1): 218.
DOI: https://doi.org/10.1306/0BDA5A53-16BD-11D7-8645000102C1865D
...George H. Roth; Harold H. Sullwold, Jr. ABSTRACT The Cascade oil field is a typical new California oil field—highly complex geologically and economically insignificant to date, but with a glorious future. The field, discovered in 1954, lies in the Santa Susana Mountains and is the most southeastern...
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Book Chapter

Geology of Aliso Canyon Field, Los Angeles County, California Available to Purchase

Author(s)
Claude E. Leach
Book: Structure of Typical American Oil Fields: A Symposium of the Relation of Oil Accumulation to Structure
Series: AAPG Special Publication
Publisher: American Association of Petroleum Geologists
Published: 01 January 1948
DOI: 10.1306/SV14344C3
EISBN: 9781629812489
... Abstract The Aliso Canyon field is located in the eastern part of the Santa Susana Mountains, approximately 30 miles northwest from the center of Los Angeles, California. The productive beds are in the block beneath the folded Santa Susana thrust fault. The complicated set of structural...
Abstract
View PDF for content titled, Geology of Aliso Canyon Field, Los Angeles County, California
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Abstract The Aliso Canyon field is located in the eastern part of the Santa Susana Mountains, approximately 30 miles northwest from the center of Los Angeles, California. The productive beds are in the block beneath the folded Santa Susana thrust fault. The complicated set of structural and stratigraphic conditions pertinent to the accumulation of oil is discussed. The Pliocene, Miocene, and Eocene series each contains a productive zone. Each series is separated from the other by an erosional unconformity with the result that the structure and productive limits of each oil zone are different.

Journal Article

Some Features of Santa Susana Thrust, Vicinity of Aliso Canyon Field, Los Angeles County, California: ABSTRACT Free

John C. Hazzard
Journal: AAPG Bulletin
Published: 01 December 1944
AAPG Bulletin (1944) 28 (12): 1780–1781.
DOI: https://doi.org/10.1306/3D9336FA-16B1-11D7-8645000102C1865D
...John C. Hazzard Abstract This paper discusses a 6 mile segment of the Santa Susana thrust, a feature in which the northern block is thrust southward for 18 miles along the southern side of the Santa Susana Mountains. In part the surface trace of the thrust is relatively straight but in canyons...
View PDF for article title, Some Features of <span class="search-highlight">Santa</span> <span class="search-highlight">Susana</span> Thrust, Vicinity of Aliso Canyon Field, Los Angeles County, California: ABSTRACT
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Journal Article

Fault systems of the 1971 San Fernando and 1994 Northridge earthquakes, southern California: Relocated aftershocks and seismic images from LARSE II Available to Purchase

Gary S. Fuis, Robert W. Clayton, Paul M. Davis, Trond Ryberg, William J. Lutter, David A. Okaya, Egill Hauksson, Claus Prodehl, Janice M. Murphy, Mark L. Benthien, Shirley A. Baher, Monica D. Kohler, Kristina Thygesen, Gerry Simila, G. Randy Keller
Journal: Geology
Published: 01 February 2003
Geology (2003) 31 (2): 171–174.
DOI: https://doi.org/10.1130/0091-7613(2003)031<0171:FSOTSF>2.0.CO;2
... the hanging wall into shingle- or wedge-like blocks. In contrast, the fault system for the Northridge earthquake appears simple, at least east of the LARSE II transect, consisting of a fault that extends 20 km southward at a dip of ∼33° from ∼7 km depth beneath the Santa Susana Mountains, where it abuts...
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View PDF for article title, Fault systems of the 1971 San Fernando and 1994 Northridge earthquakes, southern California: Relocated aftershocks and seismic images from LARSE II
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Journal Article

Landslides triggered by the 1994 Northridge, California, earthquake Available to Purchase

Edwin L. Harp, Randall W. Jibson
Published: 01 February 1996
Bulletin of the Seismological Society of America (1996) 86 (1B): S319–S332.
DOI: https://doi.org/10.1785/BSSA08601BS319
...Edwin L. Harp; Randall W. Jibson Abstract The 17 January 1994 Northridge, California, earthquake ( M w = 6.7) triggered more than 11,000 landslides over an area of about 10,000 km 2 . Most of the landslides were concentrated in a 1000-km 2 area that included the Santa Susana Mountains...
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Journal Article

A transitional alluvial to marine sequence; the Eocene Llajas Formation, southern California Available to Purchase

Richard L. Squires
Published: 01 September 1981
Journal of Sedimentary Research (1981) 51 (3): 923–938.
DOI: https://doi.org/10.1306/212F7DE2-2B24-11D7-8648000102C1865D
...Richard L. Squires Abstract The early to middle Eocene Llajas Formation of the southwestern Santa Susana Mountains, Transverse Ranges, in southern California forms a retrogradational system followed by a progradational system. The retrogradational system grades vertically upward from coastal...
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Image
—Slump structure in fine sands and shales on slope toward left (from photograph). Upper Miocene, Oat Mountain, Santa Susana Mountains, Ventura.

—Slump structure in fine sands and shales on slope toward left (from photog... Available to Purchase

Published: 01 May 1953
FIG. 6. —Slump structure in fine sands and shales on slope toward left (from photograph). Upper Miocene, Oat Mountain, Santa Susana Mountains, Ventura.
Image
Overturned current bedding below graded sand with small load casts (from photograph). Upper Miocene, Oat Mountain, Santa Susana Mountains, Ventura.

Overturned current bedding below graded sand with small load casts (from ph... Available to Purchase

Published: 01 May 1953
FIG. 11. Overturned current bedding below graded sand with small load casts (from photograph). Upper Miocene, Oat Mountain, Santa Susana Mountains, Ventura.
Image
—Slump structure in silts and shales. Current bedding shows slope from right to left; hence, underthrust slump structures (from photograph). Upper Miocene, Oat Mountain, Santa Susana Mountains, Ventura.

—Slump structure in silts and shales. Current bedding shows slope from righ... Available to Purchase

Published: 01 May 1953
FIG. 8. —Slump structure in silts and shales. Current bedding shows slope from right to left; hence, underthrust slump structures (from photograph). Upper Miocene, Oat Mountain, Santa Susana Mountains, Ventura.
Journal Article

Late Cenozoic Tectonics of the East Ventura Basin, Transverse Ranges, California Available to Purchase

Robert S. Yeats, Gary J. Huftile, Leonard T. Stitt
Journal: AAPG Bulletin
Published: 01 July 1994
AAPG Bulletin (1994) 78 (7): 1040–1074.
DOI: https://doi.org/10.1306/A25FE42D-171B-11D7-8645000102C1865D
..., and the Oak Ridge fault on the south. The Red Mountain, San Cayetano, and Santa Susana faults are part of a south-verging zone of reverse faults extending from the western Santa Barbara Channel to the San Andreas fault near San Bernardino ( Figure 1 ). In the west Ventura basin, this Quaternary fault system...
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Journal Article

Deformation rates across the Placerita (Northridge M w = 6.7 aftershock zone) and Hopper Canyon segments of the western transverse ranges deformation belt Available to Purchase

Gary J. Huftile, Robert S. Yeats
Published: 01 February 1996
Bulletin of the Seismological Society of America (1996) 86 (1B): S3–S18.
DOI: https://doi.org/10.1785/BSSA08601B00S3
.... Geophys. Res. 97 , 437 - 447 . Canter N. W. (1974) . Paleogeology and paleogeography of the Big Mountain area, Santa Susana, Moorpark, and Simi quadrangles, Ventura County, California , unpublished Master's Thesis , Ohio...
View PDF for article title, Deformation rates across the Placerita (Northridge M w = 6.7 aftershock zone) and Hopper Canyon segments of the western transverse ranges deformation belt
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Schematic diagram illustrating the stratigraphic evolution of the Las Posas region from the early Pliocene until ca. 75 ka. Darkly shaded areas represent topographic features during the different time slices, whereas lightly shaded areas represent modern topographic features that have not yet developed. (A) Shallow-marine sediments accumulate on the Camarillo shelf, while thick accumulations of Pliocene–Pleistocene marine strata accumulate elsewhere. (B) Santa Susana Mountains begin uplifting. Terrestrial Saugus Formation (Qs1) progrades across the Santa Clara River Valley and future location of the Oak Ridge uplift, while to the south and west marine deposition continues. Black star illustrates the approximate location of the Moorpark mammoth site, whereas hollow star shows the location of amino acid racemization (AAR) age estimate on fossil bivalve. (C) Uplift along the Oak Ridge fault isolates the Las Posas Valley from the Santa Clara River. At ca. 130 ka, Las Posas Sand accumulates on a shallow embayment between the Santa Monica Mountains and the South Mountain–Oak Ridge uplift. (D) Progradation of Qs2 and Qs3 across the shelf occurs between ca. 125 ka and ca. 75 ka. During this interval, a single large strath (Qt1) is cut on the south flank of the Oak Ridge hanging wall.

Schematic diagram illustrating the stratigraphic evolution of the Las Posas... Open Access

Published: 01 April 2012
not yet developed. (A) Shallow-marine sediments accumulate on the Camarillo shelf, while thick accumulations of Pliocene–Pleistocene marine strata accumulate elsewhere. (B) Santa Susana Mountains begin uplifting. Terrestrial Saugus Formation (Qs1) progrades across the Santa Clara River Valley and future
Journal Article

Comment on “Late Quaternary Fold Deformation along the Northridge Hills Fault, Northridge, California: Deformation Coincident with Past Northridge Blind-Thrust Earthquakes and Other Nearby Structures?” by J. N. Baldwin, K. I. Kelson, and C. E. Randolph Available to Purchase

Roy J. Shlemon, James E. Slosson, John T. Barnhart
Published: 01 December 2001
Bulletin of the Seismological Society of America (2001) 91 (6): 1930–1932.
DOI: https://doi.org/10.1785/0120000281
... [Southern California Earthquake Center] Scientists , March 1997 , Vol. II . Saul , R. B. ( 1975 ). Geology of the southeast slope of the Santa Susana Mountains and geologic effects of the San Femando earthquake , in San Fernando, California, Earthquake of 9 February 1971 , G. B...
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Journal Article

Tectonic setting of the 1971 Sylmar and 1994 Northridge earthquakes in the San Fernando Valley, California Available to Purchase

Hiroyuki Tsutsumi, Robert S. Yeats
Published: 01 October 1999
Bulletin of the Seismological Society of America (1999) 89 (5): 1232–1249.
DOI: https://doi.org/10.1785/BSSA0890051232
... of the 1994 earthquake in the Santa Susana Mountains and east Venturabasin. An important question addressed here is whether a detailed 1232 Tectonic Setting of the 1971 Sylmar and 1994 Northridge Earthquakes i 19~a~I, 118°W 1233 Figure 1. Tectonic map of part of the western Transverse Ranges, California...
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Journal Article

Anomalous Concentrations of Seismically Triggered Rock Falls in Pacoima Canyon: Are They Caused by Highly Susceptible Slopes or Local Amplification of Seismic Shaking? Available to Purchase

Edwin L. Harp, Randall W. Jibson
Published: 01 December 2002
Bulletin of the Seismological Society of America (2002) 92 (8): 3180–3189.
DOI: https://doi.org/10.1785/0120010171
... of about 10,000 km 2 (Harp and Jibson, 1995 , 1996 ). Greater than 90% of these landslides consisted of rock falls and rock slides that were concentrated in an area of about 1,000 km 2 that lies north and northwest of the epicenter in the Santa Susana Mountains and the mountains north of the Santa...
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(A) Gravity data along the LARSE II transect. Predicted gravity curve is calculated from the 3D velocity model (see panel C) using velocity-density relationships discussed in the text. Bouguer (solid red and blue circles) and isostatic gravity (open magenta and blue circles) data show highs associated with the Santa Monica Mountains and central Transverse Ranges and lows associated with the San Fernando, Santa Clarita, and Antelope Valley basins. Basins are labeled at the top of the figure: SFVB, San Fernando Valley basin; EVB, east Ventura basin; RSB, Ridge and Soledad basins (positioned west and east of the LARSE II line 2, respectively); BC, Bee Canyon basin (subbasin of the Soledad basin); and WAB, west Antelope Valley basin. The east Ventura and Ridge/Soledad basins together underlie the Santa Clarita Valley along line 2. Surface bedrock geologic units are PS, Pelona Schist; =, pre-ambrian gneiss; Mz, Mesozoic intrusives. (B) DLS inversion model (finer gridded version; see text), from the method of Lutter et al. (1999), fits 7500 travel times to an average rms error of 53 msec. Faults are abbreviated as in Figure 1. Additional faults are abbreviated as follows: GF, Garlock Fault; SAF, San Andreas Fault (dashed white line); and SGF, San Gabriel Fault. The Santa Monica Mountains and Santa Susana Mountains are abbreviated SMM and SSM, respectively. Thin black lines are velocity contours (contour interval, 0.25 km/sec). Heavy black line segments are sediment-basement contacts determined from oil-test well data within 0-2.5 km of line 2, or, in the San Fernando Valley, from a refraction cross line. See Figure 1 for well identifications; gray fill in lower part of well h represents sedimentary basement rocks, where the sonic log indicates a velocity of ∼5 km/sec. (C) 3D velocity model, from the method of Hole (1992), fits 20,000 travel times to an rms error of 41 msec. Shown is central slice of 3D model, which lies along line 2 and is coincident with DLS model profile of (B). Faults, sediment-basement contacts, and oil-test wells are the same as in (B). A diagonal resolution value of 0.4 from the coarser-grid DLS model (see text) truncates the colored regions of both models. The Northridge (blue) and San Fernando (red) mainshock focal mechanisms (vertically exaggerated) are superimposed. Aftershocks of Northridge (blue) and San Fernando (red-brown) earthquakes are from Fuis et al. (2003a). (These were relocated using the model of Hauksson [2000] improved using LARSE II shots; they are projected onto line 2 from a zone 0-10 km east of line 2.) Heavy blue line, causative fault for Northridge earthquake; heavy magenta lines, faults of the San Fernando Fault system (from Fuis et al., 2003a).

(A) Gravity data along the LARSE II transect. Predicted gravity curve is ca... Available to Purchase

Published: 01 April 2004
, Garlock Fault; SAF, San Andreas Fault (dashed white line); and SGF, San Gabriel Fault. The Santa Monica Mountains and Santa Susana Mountains are abbreviated SMM and SSM, respectively. Thin black lines are velocity contours (contour interval, 0.25 km/sec). Heavy black line segments are sediment-basement
Image
(A) Gravity data along the LARSE II transect. Predicted gravity curve is calculated from the 3D velocity model (see panel C) using velocity-density relationships discussed in the text. Bouguer (solid red and blue circles) and isostatic gravity (open magenta and blue circles) data show highs associated with the Santa Monica Mountains and central Transverse Ranges and lows associated with the San Fernando, Santa Clarita, and Antelope Valley basins. Basins are labeled at the top of the figure: SFVB, San Fernando Valley basin; EVB, east Ventura basin; RSB, Ridge and Soledad basins (positioned west and east of the LARSE II line 2, respectively); BC, Bee Canyon basin (subbasin of the Soledad basin); and WAB, west Antelope Valley basin. The east Ventura and Ridge/Soledad basins together underlie the Santa Clarita Valley along line 2. Surface bedrock geologic units are PS, Pelona Schist; =, pre-ambrian gneiss; Mz, Mesozoic intrusives. (B) DLS inversion model (finer gridded version; see text), from the method of Lutter et al. (1999), fits 7500 travel times to an average rms error of 53 msec. Faults are abbreviated as in Figure 1. Additional faults are abbreviated as follows: GF, Garlock Fault; SAF, San Andreas Fault (dashed white line); and SGF, San Gabriel Fault. The Santa Monica Mountains and Santa Susana Mountains are abbreviated SMM and SSM, respectively. Thin black lines are velocity contours (contour interval, 0.25 km/sec). Heavy black line segments are sediment-basement contacts determined from oil-test well data within 0-2.5 km of line 2, or, in the San Fernando Valley, from a refraction cross line. See Figure 1 for well identifications; gray fill in lower part of well h represents sedimentary basement rocks, where the sonic log indicates a velocity of ∼5 km/sec. (C) 3D velocity model, from the method of Hole (1992), fits 20,000 travel times to an rms error of 41 msec. Shown is central slice of 3D model, which lies along line 2 and is coincident with DLS model profile of (B). Faults, sediment-basement contacts, and oil-test wells are the same as in (B). A diagonal resolution value of 0.4 from the coarser-grid DLS model (see text) truncates the colored regions of both models. The Northridge (blue) and San Fernando (red) mainshock focal mechanisms (vertically exaggerated) are superimposed. Aftershocks of Northridge (blue) and San Fernando (red-brown) earthquakes are from Fuis et al. (2003a). (These were relocated using the model of Hauksson [2000] improved using LARSE II shots; they are projected onto line 2 from a zone 0-10 km east of line 2.) Heavy blue line, causative fault for Northridge earthquake; heavy magenta lines, faults of the San Fernando Fault system (from Fuis et al., 2003a).

(A) Gravity data along the LARSE II transect. Predicted gravity curve is ca... Available to Purchase

Published: 01 April 2004
, Garlock Fault; SAF, San Andreas Fault (dashed white line); and SGF, San Gabriel Fault. The Santa Monica Mountains and Santa Susana Mountains are abbreviated SMM and SSM, respectively. Thin black lines are velocity contours (contour interval, 0.25 km/sec). Heavy black line segments are sediment-basement
Journal Article

Late Quaternary Fold Deformation along the Northridge Hills Fault, Northridge, California: Deformation Coincident with Past Northridge Blind-Thrust Earthquakes and Other Nearby Structures? Available to Purchase

John N. Baldwin, Keith I. Kelson, Carolyn E. Randolph
Published: 01 June 2000
Bulletin of the Seismological Society of America (2000) 90 (3): 629–642.
DOI: https://doi.org/10.1785/0119990056
... San Fernando valley (white), and Santa Susana and San Gabriel Mountains (shading), showing zones of ground deformation produced during the 1994 Northridge earthquake (stipple pattern). Modified from EERI ( 1994 ). The 1994 ( M W 6.7) Northridge earthquake was produced by rupture along a south...
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