Dataset Identification:
Resource Abstract:
- description: The Elsinore quadrangle is located in the northern part of the Peninsular Ranges Province and includes parts
of two structural blocks, or structural subdivisions of the province. The active Elsinore Fault Zone diagonally crosses the
southwest corner of the quadrangle, and is a major element of the right-lateral strike-slip San Andreas Fault system. The
Elsinore Fault Zone separates the Santa Ana Mountains block west of the fault zone from the Perris block to the east. Internally
both blocks are relatively stable and within the quadrangle are characterized by the presence of widespread erosional surfaces
of low relief. Within the quadrangle the Santa Ana Mountains block is underlain by undifferentiated granitic rocks of the
Cretaceous Peninsular Ranges batholith, but to the west, includes widespread pre-batholithic Mesozoic rocks. The Perris block
is underlain by a combination of batholithic and prebatholithic rocks, the latter consisting of metasedimentary rocks of low
metamorphic grade; sub-greenschist grade. The most abundant lithology is phyllite but includes locally thick sections of impure
quartzite. Minor sills, dikes, and small elongate plutons of fine-grained hornblende gabbro intrude the phyllite. Thin layers
of tremolite-bearing marble occur locally. Also local are thin layers of manganese-bearing rocks. Both rhodonite and manganese
oxides occur in these layers. The phyllite has a regular northwest strike throughout the main body of metamorphic rock giving
rise to a homoclinal section over 25,000 feet thick. The layering-schistocity of these rocks is transposed bedding and is
not stratigraphic thickness. In the northwest corner of the quadrangle is a series of Cretaceous volcanic and associated sedimentary
rocks in the northwest corner of the quadrangle contain widespread primary sedimentary structures and appear to post date
the metamorphism of the phyllite. The volcanic rocks are part of the Estelle Mountain volcanics of primarily rhyolitic composition.
The sedimentary rocks are well indurated, perhaps incipiently metamorphosed, siliceous rocks containing local conglomerate
beds. Parts of three plutonic complexes are included within the quadrangle, all part of the composite Peninsular Ranges batholith.
In the southeast corner is the northwest part of the Paloma Valley ring complex, which is elliptical in plan and consists
of an older ring-dike and two subsidiary short-arced dikes that were emplaced into gabbro by magmatic stoping. Small to large
stoped blocks of gabbro are common within the ring-dikes. A younger ring-set, made up of hundreds of thin pegmatite dikes,
occur largely within the central part of the complex. Only the northern part of the older ring dike occurs within the quadrangle.
Stoped gabbro masses occur near the southeast margin of the quadrangle. In the northern part of the quadrangle is the southern
part of the composite Gavilan ring complex of mostly tonalite composition. Hypersthene, although not usual in tonalite in
the batholith, is a characteristic mineral of most of the rock of this complex. The Gavilan ring complex is a shallow intrusive
that appears to be tilted up to the northeast. Fabric of the rocks changes in texture from hypauthomorphic-granular in the
east to semiporphyritic in the west. The main part of the complex appears to have been emplaced by magmatic stoping. Several
inactive gold mines, Goodhope, Gavilan, and Santa Rosa, are located within the complex. Within the Gavilan ring complex is
the south-half of the Arroyo del Toro pluton. This near circular-in-plan pluton consists of massive-textured granodiorite
that is essentially devoid of inclusions, and at one time was quarried for building stone. The Elsinore Fault Zone forms a
complex series of pull-apart basins. The largest and most pronounced of these pull-apart basins forms a flat-floored closed
depression, La Laguna, which is partly filled by Lake Elsinore. This basin forms the terminus for the San Jacinto River. During
excessively wet periods the La Laguna fills and the overflow passes through Warm Springs Valley into Temescal Wash which joins
the Santa Ana River at Corona. La Laguna, bounded by active faults, is flanked by both Pleistocene and Holocene alluvial fans
emanating from both the Perris block and the Santa Ana Mountains. North of La Laguna are exposures of the Paleocene Silverado
Formation. Clay beds of the Silverado Formation have been an important source of clay. Overlying the Silverado Formation are
discontinuous exposures of conglomeratic younger Tertiary sedimentary rocks that are tentatively correlated with the Pauba
Formation.; abstract: The Elsinore quadrangle is located in the northern part of the Peninsular Ranges Province and includes
parts of two structural blocks, or structural subdivisions of the province. The active Elsinore Fault Zone diagonally crosses
the southwest corner of the quadrangle, and is a major element of the right-lateral strike-slip San Andreas Fault system.
The Elsinore Fault Zone separates the Santa Ana Mountains block west of the fault zone from the Perris block to the east.
Internally both blocks are relatively stable and within the quadrangle are characterized by the presence of widespread erosional
surfaces of low relief. Within the quadrangle the Santa Ana Mountains block is underlain by undifferentiated granitic rocks
of the Cretaceous Peninsular Ranges batholith, but to the west, includes widespread pre-batholithic Mesozoic rocks. The Perris
block is underlain by a combination of batholithic and prebatholithic rocks, the latter consisting of metasedimentary rocks
of low metamorphic grade; sub-greenschist grade. The most abundant lithology is phyllite but includes locally thick sections
of impure quartzite. Minor sills, dikes, and small elongate plutons of fine-grained hornblende gabbro intrude the phyllite.
Thin layers of tremolite-bearing marble occur locally. Also local are thin layers of manganese-bearing rocks. Both rhodonite
and manganese oxides occur in these layers. The phyllite has a regular northwest strike throughout the main body of metamorphic
rock giving rise to a homoclinal section over 25,000 feet thick. The layering-schistocity of these rocks is transposed bedding
and is not stratigraphic thickness. In the northwest corner of the quadrangle is a series of Cretaceous volcanic and associated
sedimentary rocks in the northwest corner of the quadrangle contain widespread primary sedimentary structures and appear to
post date the metamorphism of the phyllite. The volcanic rocks are part of the Estelle Mountain volcanics of primarily rhyolitic
composition. The sedimentary rocks are well indurated, perhaps incipiently metamorphosed, siliceous rocks containing local
conglomerate beds. Parts of three plutonic complexes are included within the quadrangle, all part of the composite Peninsular
Ranges batholith. In the southeast corner is the northwest part of the Paloma Valley ring complex, which is elliptical in
plan and consists of an older ring-dike and two subsidiary short-arced dikes that were emplaced into gabbro by magmatic stoping.
Small to large stoped blocks of gabbro are common within the ring-dikes. A younger ring-set, made up of hundreds of thin pegmatite
dikes, occur largely within the central part of the complex. Only the northern part of the older ring dike occurs within the
quadrangle. Stoped gabbro masses occur near the southeast margin of the quadrangle. In the northern part of the quadrangle
is the southern part of the composite Gavilan ring complex of mostly tonalite composition. Hypersthene, although not usual
in tonalite in the batholith, is a characteristic mineral of most of the rock of this complex. The Gavilan ring complex is
a shallow intrusive that appears to be tilted up to the northeast. Fabric of the rocks changes in texture from hypauthomorphic-granular
in the east to semiporphyritic in the west. The main part of the complex appears to have been emplaced by magmatic stoping.
Several inactive gold mines, Goodhope, Gavilan, and Santa Rosa, are located within the complex. Within the Gavilan ring complex
is the south-half of the Arroyo del Toro pluton. This near circular-in-plan pluton consists of massive-textured granodiorite
that is essentially devoid of inclusions, and at one time was quarried for building stone. The Elsinore Fault Zone forms a
complex series of pull-apart basins. The largest and most pronounced of these pull-apart basins forms a flat-floored closed
depression, La Laguna, which is partly filled by Lake Elsinore. This basin forms the terminus for the San Jacinto River. During
excessively wet periods the La Laguna fills and the overflow passes through Warm Springs Valley into Temescal Wash which joins
the Santa Ana River at Corona. La Laguna, bounded by active faults, is flanked by both Pleistocene and Holocene alluvial fans
emanating from both the Perris block and the Santa Ana Mountains. North of La Laguna are exposures of the Paleocene Silverado
Formation. Clay beds of the Silverado Formation have been an important source of clay. Overlying the Silverado Formation are
discontinuous exposures of conglomeratic younger Tertiary sedimentary rocks that are tentatively correlated with the Pauba
Formation.
Citation
- Title Preliminary geologic map of the Elsinore 7.5' quadrangle, Riverside County, California.
-
- creation Date
2018-05-21T10:58:11.993195
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- Linkage for online resource
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- name Dublin Core references URL
- URL: http://pubs.usgs.gov/of/2003/0281/els.tar.gz
- protocol WWW:LINK-1.0-http--link
- link function information
- Description URL provided in Dublin Core references element.
Linkage for online resource
- name Dublin Core references URL
- URL: http://pubs.usgs.gov/of/2003/0281/
- protocol WWW:LINK-1.0-http--link
- link function information
- Description URL provided in Dublin Core references element.
Linkage for online resource
- name Dublin Core references URL
- URL: http://pubs.usgs.gov/of/1999/of99-172/
- protocol WWW:LINK-1.0-http--link
- link function information
- Description URL provided in Dublin Core references element.
Metadata data stamp:
2018-08-06T23:29:36Z
Resource Maintenance Information
- maintenance or update frequency:
- notes: This metadata record was generated by an xslt transformation from a dc metadata record; Transform by Stephen M. Richard, based
on a transform by Damian Ulbricht. Run on 2018-08-06T23:29:36Z
Metadata contact
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pointOfContact
- organisation Name
CINERGI Metadata catalog
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- Contact information
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- Address
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- electronic Mail Address cinergi@sdsc.edu
Metadata language
eng
Metadata character set encoding:
utf8
Metadata standard for this record:
ISO 19139 Geographic Information - Metadata - Implementation Specification
standard version:
2007
Metadata record identifier:
urn:dciso:metadataabout:15664de8-d300-4814-a610-f23e15ba1172
Metadata record format is ISO19139 XML (MD_Metadata)