PRELIMINARY GEOLOGIC MAP OF THE WINCHESTER 7.5' QUADRANGLE, RIVERSIDE COUNTY, CALIFORNIA By Douglas M. Morton1 Digital preparation by Kelly R. Bovard1 and Gary W. Patt2 Prepared in cooperation with CALIFORNIA GEOLOGICAL SURVEY Open-File Report OF 03-188 2003 Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government. This database, identified as "Preliminary Geologic Map of the Winchester 7.5' Quadrangle, Riverside County, California" has been approved for release and publication by the Director of the USGS. U.S. DEPARTMENT OF INTERIOR U.S. GEOLOGICAL SURVEY 1 U.S. Geological Survey Department of Earth Sciences University of California Riverside CA 92521 2 Department of Earth Sciences University of California Riverside CA 92521 TABLE OF CONTENTS Introduction General How to obtain paper plots Database contents Data package Plot package Other files Software utilities How to obtain the digital files Digital databases Postscript plot files Portable Document Format (.pdf) files How to extract the geologic map database from the tar files Digital database Postscript plot files How to convert the ARC/INFO interchange (export) files Digital geologic map specifications Digital compilation Base map Spatial resolution Map accuracy standards Faults and landslides Database specifics General Lines Polygons Points References Metadata INTRODUCTION General Open-File Report 03-188 contains a digital geologic map database of the Winchester 7.5' quadrangle, Riverside County, California that includes: 1. ARC/INFO (Environmental Systems Research Institute, http://www.esri.com) version 7.2.1 coverages of the various elements of the geologic map. 2. A Postscript file (win_map.ps) to plot the geologic map on a black topographic base, and containing a Correlation of Map Units diagram (CMU), a Description of Map Units (DMU), and an index map. 3. An Adobe Illustrator 9.0 file (win_grey.ai) to plot the geologic map on a grey topographic base, and containing a Correlation of Map Units diagram (CMU), a Description of Map Units (DMU), and an index map. 4. Portable Document Format (.pdf) files of: a. This Readme; includes in Appendix I, data contained in win_met.txt b. The same graphics as plotted in 2 and 3 above. Test plots have not produced precise 1:24,000-scale map sheets. Adobe Acrobat page size setting influences map scale. The Correlation of Map Units and Description of Map Units is in the editorial format of USGS Geologic Investigations Series (I-series) maps but has not been edited to comply with I-map standards. Within the geologic map data package, map units are identified by standard geologic map criteria such as formation-name, age, and lithology. Where known, grain size is indicated on the map by a subscripted letter or letters following the unit symbols as follows: lg, large boulders; b, boulder; g, gravel; a, arenaceous; s, silt; c, clay; e.g. Qyfa is a predominantly young alluvial fan deposit that is arenaceous. Multiple letters are used for more specific identification or for mixed units, e.g., Qfysa is a silty sand. In some cases, mixed units are indicated by a compound symbol; e.g., Qyf2sc. Even though this is an Open-File Report and includes the standard USGS Open-File disclaimer, the report closely adheres to the stratigraphic nomenclature of the U.S. Geological Survey. Descriptions of units can be obtained by viewing or plotting the .pdf file (3b above) or plotting the postscript file (2 above). This Readme file describes the digital data, such as types and general contents of files making up the database, and includes information on how to extract and plot the map and accompanying graphic file. Metadata information can be accessed at http://geo-nsdi.er.usgs.gov/metadata/open-file/03-188 and is included in Appendix I of this Readme. HOW TO OBTAIN PAPER PLOTS For those having access to large-format plotters such as HP650C, HP755C, and HP2500C, plots may be made directly from the included plot file. DATABASE CONTENTS The files constituting the geologic map database of this Open-File Report are listed below along with the interchange files from which they were extracted. Data Package All files listed below are in a compressed tar file named win.tar.gz (2.6 Mb); see section below titled, SOFTWARE UTILITES. ARC/INFO interchange files Winchester coverages Contains win_geo.e00 win_geo Contacts, faults, geologic unit labels win_ano.e00 win_ano Annotation subclasses: GEO (for plotting unit labels) WATER (for plotting water features) CANYONS (for plotting canyon names) CITIES (for plotting city names) Leaders win_str.e00 win_str Attitudes and their dip values. Dip values plotted as annotation. The directory, info/, is produced in the process of importing interchange files to ARC coverages in ARC/INFO. The win (Winchester) info/ directory contains: Feature Attribute Tables Polygon attribute table win_geo.pat Arc attribute table win_geo.aat win_ano.aat Point attribute table win_str.pat Annotation attribute table win_ano.tatgeo win_ano.tatwater win_ano.tatcanyons win_ano.tatcities Raster file Resultant image Contains win.tif Winchester base map Topographic base from 500 dpi scan of USGS Winchester 7.5' quadrangle, 1953 Plot Package PostScript plot files of the geologic map and explanation; please see section below titled, SOFTWARE UTILITIES for additional information. Compressed file Resultant image Contains win_map.ps.gz win_grey.ai.gz win_map.ps win_grey.ai PostScript plot file of geologic map on a black topographic base and CMU/DMU Adobe Illustrator 9.0 plot file of geologic map on a grey topographic base and CMU/DMU The Postscript file is compressed using winzip. The uncompressed Postscript file win_map.ps and the uncompressed Adobe Illustrator 9.0 win_grey.ai will each plot a 1:24,000 scale, full color geologic map of the Winchester quadrangle on the topographic base. The Postscript file win_ map.ps will plot the geologic map on a black topographic base. The Adobe Illustrator 9.0 file win_grey.ai will plot the geologic map on a grey topographic base. A detailed CMU and DMU are included on the sheet. The sheet is in the editorial format of the U.S. Geological Survey's Geologic Investigations (I) map series, and is approximately 55 X 36 inches in size. The map sheet has been successfully plotted on Hewlett-Packard large-format plotters, models HP650C, HP755C, and HP2500C. Symbols Package Files in the plot package have been prepared to produce optimum plots using the shade, line, and marker sets listed below; these symbol sets and supporting fonts are included in a compressed tar file named symbols.tar.gz (0.04 Mb); see section below titled SOFTWARE UTILITIES. geoSCAMP2.lin Lineset geoSCAMP2.mrk Markerset for points alc1.shd Colors geology2.shd Pattern fills fnt026 Font required for geoSCAMP2.lin fnt037 Font required for geoSCAMP2.mrk fnt035 Font required for geology2.shd Special geologic characters used in unit designations are from the Geoage font group and may be obtained at the following web site: Server: onyx.wr.usgs.gov UserID: anonymous Password: Your e-mail address Directory: pub/wpg/supplies/geoage_1.1 pub/wpg/supplies/geoage_1.2 Other files README.pdf This document win_map.pdf Pdf plot file of geologic map on a black topographic base and CMU/DMU win_grey.pdf Pdf plot file of geologic map on a grey topographic base and CMU/DMU SOFTWARE UTILITIES Files which have .gz file extension were compressed using gzip. Gzip utilities are available free of charge via the Internet at the gzip home page, http://www.gzip.org. Files with a .zip file extension were compressed using WinZip, available at http://www.winzip.com. The data package and symbols package are additionally bundled into a single tar (tape archive) file. The individual files must be extracted using a tar utility, available free of charge via the Internet through links on the Common Internet File Formats page, http://www.matisse.net/files/format.html. One such utility is WinZip, available at http://www.winzip.com. HOW TO OBTAIN THE DIGITAL FILES The export files, and subsequently the data and plot files, constituting the geologic map database of this Open-File Map may be obtained in two ways, both over the Internet. 1. The files can be obtained via the Web from Western Region Geologic Information Server. Go to the web page at http://geopubs.wr.usgs.gov/open-file/03-188 and follow the directions to download the files. 2. The files can also be obtained by anonymous ftp over the Internet from wrgis.wr.usgs.gov. The files are located in the directory /pub/open-file/. Be sure to use binary transfer mode or ASCII mode for individual .e00 (ARC interchange file format) files. HOW TO EXTRACT THE GEOLOGIC MAP DATABASE FROM THE TAR FILE Digital database After downloading the files, they must be uncompressed using a gzip utility such as gzip itself or WinZip. The data files must then be extracted using a tar utility or Winzip. This process will create a directory, win/, that will contain the ARC/INFO interchange files and supporting files. The directory should contain the following files: win/ win _geo.e00 win_str.e00 win_ano.e00 win.tif The symbols.tar.gz file is imported using the same methods as for the win.tar.gz file. It will create a directory, symbols/ that will contain the following files: geoSCAMP2.lin geoSCAMP2.mrk alc1.shd geology2.shd fnt026 fnt037 fnt035 The following are not included in the database tar file, and are downloaded separately. win_map.ps.gz win_grey.ai.gz README.pdf win_map.pdf win_grey.pdf Postscript plot file Make a 12.2 MB uncompressed file, win_map.ps (plot of complete map), by typing gzip -d win_map.ps.gz (or use gzip utility of choice). Adobe Illustrator plot file Make a 10.4 MB uncompressed file, win_grey.ai (plot of complete map), by typing gzip -d win_grey.ai.gz (or use gzip utility of choice). Portable Document Format (.pdf) files PDF files are not stored as gzip files. They are accessed using Adobe Acrobat Reader software, available free from the Adobe website http://www.adobe.com. Follow instructions at the website to download and install the software. Acrobat Reader contains an on-line manual and tutorial. HOW TO CONVERT THE ARC/INFO INTERCHANGE (EXPORT) FILES The ARC interchange (.e00) files are converted to ARC coverages using the ARC command IMPORT. ARC interchange files can also be read by some other Geographic Information Systems, including ArcView (ESRI) and MapInfo (http://www.mapinfo.com), (Environmental Systems Research Institute, Inc., 1998). Please consult your GIS documentation to see if you can use ARC interchange files and the procedure to import them. DIGITAL GEOLOGIC MAP SPECIFICATIONS Digital compilation The geologic map information was hand digitized from a base-stable original (ink on a greenline) of the geologic map at 1:24,000 scale. Digital tics were placed by hand at latitude/longitude intersections. The lines, points, and polygons were edited using standard ARC/INFO commands, and in some places, interactively by hand using graphical user interface ALACARTE (Fitzgibbon, 1991, Fitzgibbon and Wentworth, 1991, Wentworth and Fitzgibbon, 1991). Digitization and editing artifacts significant enough to display at a scale of 1:24,000 were corrected. Base map The base map image (win.tif) was prepared by scanning a scale-stable clear film of the U.S. Geological Survey, 1:24,000 Winchester 7.5' quadrangle (1953) topographic map. Scanning was done using an Anatech Eagle 4080 monochrome 800 dpi scanner; at a resolution of 500 dpi. The raster scan was converted to a monochromatic image in ARC/INFO, and registered and rectified to the Winchester 7.5' quadrangle. No elements of the base layer are attributed. The base map is provided for reference only. Spatial resolution Use of this digital geologic map database should not violate the spatial resolution of the data. Although the digital form of the data removes the constraint imposed by the scale of a paper map, the detail and accuracy inherent in map scale are also present in the digital data. The fact that this database was edited at a scale of 1:24,000 means that higher resolution information is not generally present in the dataset. Plotting at scales larger than 1:24,000 will not yield greater real detail, although it may reveal fine-scale irregularities above the intended resolution of the database. Similarly, although higher resolution data is incorporated at a few places, the resolution of the combined output will be limited by the lower resolution data. Map accuracy standards Until uniform National geologic map standards are developed and adopted, lines and points on SCAMP 1:24,000 scale geologic maps that are located to within 15 meters, relative to accurately located features on the base map, are considered to meet map accuracy standards. Dashed lines, indicated in the database as approximately located or inferred, are generally located within 30 meters, relative to accurately located features on the base map. Faults and landslides This database is sufficiently detailed to identify and characterize many actual and potential geologic hazards represented by faults and landslides, but it is not sufficiently detailed for site-specific determinations. Faults shown do not take the place of fault rupture hazard zones designated by the California State Geologist (see Hart, 1998). Database specifics General--The map database consists of ARC/INFO format coverages which are stored in polyconic projection (Table 1), and a series of data tables. Digital tics define a 2.5 minute grid of latitude and longitude in the geologic coverages corresponding to the 2.5 minute tic grid on the topographic base map. Table 1 --- Map Projection Projection Polyconic Datum NAD27 Zunits No Units Meters Spheroid Clark 1866 X shift 0.000000000 Y shift 0.000000000 Parameters -117 3 45.000 longitude of central meridian 33 37 30.00 latitude of projections origin 0.00000 false easting (meters) 0.00000 false northing (meters) The content of the geologic database can be described in terms of feature classes that include lines, points, and areas that compose the map. See the metadata text file (Appendix I) for detailed descriptions. Lines - Lines are recorded as strings of arcs and are described in an arc attribute (.aat) table. Complete lists of the line types (LTYPE) used in the quadrangle are available in Appendix I. They represent contacts and faults, which define the boundaries of map units and map boundaries. Polygons --- Geologic map units (polygons) are described in the polygon attribute (.pat) table (details in Appendix I). For traditional descriptions of the map units, see the Portable Document Format file win_map.pdf or the Postscript map plot, win_map.ps. A list of all map units in the database is given in Appendix I. Points - Point information (attitudes of planar and linear features) is recorded as coordinate and related information. Complete lists of the point types (PTTYPE) used in the point coverage are available in Appendix I. REFERENCES Environmental Systems Research Institute, Inc, 1991, ARC/INFO command references 6.0: Proprietary software manual Fitzgibbon, T.T., 1991, ALACARTE installation and system manual (version 1.0): U.S. Geological Survey, Open-File Report 91-587B Fitzgibbon, T.T., and Wentworth, C.M., 1991, ALACARTE user interface - AML code and demonstration Maps (version 1.0): U.S. Geological Survey, Open-File Report 91-587A Wentworth, C.M., and Fitzgibbon, T.T., 1991, ALACARTE user manual (version 1.0): U.S. Geological Survey Open-File Report 91-587C APPENDIX I (original metadata text) Identification_Information: Citation: Citation_Information: Originator: Douglas M. Morton Publication_Date: 2003 Title: Preliminary Geologic Map of the Winchester 7.5' Quadrangle, Riverside County, California Edition: Version 1.0 Geospatial_Data_Presentation_Form: vector digital data Series_Information: Series_Name: U.S. Geological Survey Open-File Report Issue_Identification: USGS OFR 03-188 Publication_Information: Publication_Place: Menlo Park, California Publisher: U.S. Geological Survey Online_Linkage: Online_Linkage URL:http://geopubs.wr.usgs.gov/open-file/of03-188 Description: Abstract: The Winchester quadrangle is located in the northern part of the Peninsular Ranges Province within the central part of the Perris block, a relatively stable, rectangular in plan view, area located between the Elsinore and San Jacinto fault zones (see location map). The quadrangle is underlain by Cretaceous and older basement rocks. Cretaceous plutonic rocks are part of the composite Peninsular Ranges batholith, which indicates wide variety of granitic rocks, ranging from granite to gabbro. Parts of three major plutonic complexes are within the quadrangle, the Lakeview Mountains pluton, the Domenigoni Valley pluton and the Paloma Valley ring complex. In the northern part of the quadrangle is the southern part of the Lakeview Mountains pluton, a large composite body, most of which lies in the quadrangle to the north. In the center part of the quadrangle is the eastern part of the Domenigoni Valley pluton, which consists of massive biotite-hornblende granodiorite and tonalite; some tonalite in the southern part of the pluton has a relatively pronounced foliation produced by oriented biotite and hornblende. Common to abundant equant-shaped, mafic inclusions occur through out the pluton except in the outermost part where inclusions are absent. The pluton was passively emplaced by piecemeal stoping of a variety of older rocks and the eastern contact is well exposed in the quadrangle. Associated with the Domenigoni Valley pluton is a swarm of latite dikes; the majority of these dikes occur in the Winchester quadrangle, but they extend into the Romoland quadrangle to the west. The latite dikes intrude both the pluton and adjacent metamorphic rocks, most are foliated, and most have a well developed lineation defined by oriented biotite and/or hornblende crystals. Dikes intruding the pluton were emplaced in northwest striking joints; and dikes intruding the metamorphic rocks were emplaced along foliation planes. In the eastern part of the quadrangle a Cretaceous age suture juxtaposes low-metamorphic grade Mesozoic rocks against high-metamorphic grade gneissic-textured Mesozoic rocks. Juxtaposition occurred when the high-metamorphic grade rocks were at upper amphibolite grade temperatures, and produced a steep thermal gradient in the low-metamorphic grade Mesozoic rocks. Age of suturing and attendant metamorphism, based on metamorphic mineral ages, is about 100 Ma (L. Snee, personal communication, 2002). The suture zone appears to vary in thickness, and includes within it a number of metadunite bodies and related rocks. Prebatholithic rocks of Mesozoic age include a wide variety of sedimentary rocks of greenschist or lower metamorphic grade, in the western and central part of the quadrangle, and upper amphibolite grade near the eastern edge of the quadrangle. The metamorphic grade increases from greenschist to upper amphibolite grade over a distance of less than two miles; andalusite and sillimanite isograds are closely spaced near the suture. Metamorphism was Buchan type of relatively high temperature and relatively low pressure (Schwarcz, 1969). Common lithologies of the low metamorphic grade suite include phyllite, lithic greywacke, impure quartzite, meta-arkose, and interlayered quartzite and phyllite. Most of the layering and foliation in the metamorphic rocks is the result of intense structural transposition. Relic bedding appears to be restricted to very local occurrences in hinges of slip folds. The upper amphibolite grade, gneissic-textured Mesozoic rocks consist of sillimanite-biotite gneiss, black amphibolite, and impure quartzite. Anatectic gneiss containing igneous textured segregations of quartz and feldspar is commonly inter leaved with biotite gneiss. Purpose: The data set for the Winchester 7.5' quadrangle was prepared under the U.S. Geological Survey Southern California Areal Mapping Project (SCAMP) as part of an ongoing effort to develop a regional geologic framework of southern California, and to utilize a Geographic Information System (GIS) format to create regional digital geologic databases. These regional databases are being developed as contributions to the National Geologic Map Database of the National Cooperative Geologic Mapping Program of the USGS. Supplemental_Information: none Time_Period_of_Content: Time_Period_Information: Single_Date/Time: Calendar_Date: 2003 Currentness_Reference: New data Status: Progress: Complete Maintenance_and_Update_Frequency: As Needed Spatial_Domain: Bounding_Coordinates: West_Bounding_Coordinate: -117.12509053 East_Bounding_Coordinate: -116.99990947 North_Bounding_Coordinate: 33.74999995 South_Bounding_Coordinate: 33.62498421 Keywords: Theme: Theme_Keyword_Thesaurus: None Theme_Keyword: geologic map Theme_Keyword: geology Theme_Keyword: bedrock geology Place: Place_Keyword_Thesaurus: None Place_Keyword: California Place_Keyword: Riverside County Place_Keyword: Winchester 7.5' quadrangle Stratum: Stratum_Keyword_Thesaurus: None Stratum_Keyword: Cretaceous gabbro, tonalite and granodiorite Stratum_Keyword: Mesozoic and Paleozoic(?) metamorphics Temporal: Temporal_Keyword_Thesaurus: None Temporal_Keyword: Mesozoic Temporal_Keyword: Cretaceous Access_Constraints: none Use_Constraints: The Winchester 7.5' geologic-map database should be used to evaluate and understand the geologic character of the Winchester 7.5' quadrangle as a whole. The data should not be used for purposes of site-specific land-use planning or site-specific geologic evaluations. The database is sufficiently detailed to identify and characterize many actual and potential geologic hazards represented by faults and landslides and posed by ground subsidence and earthquake-generated ground shaking. However, it is not sufficiently detailed for site-specific determinations or evaluations of these features. Faults shown do not take the place of fault-rupture hazard zones designated by the California State Geologist (see Hart, 1988). Use of this digital geologic-map database should not violate the spatial resolution of the data. Although the digital form of the data removes the constraint imposed by the scale of a paper map, the detail and accuracy inherent in map scale are also present in the digital data. The fact that this database was compiled and edited at a scale of 1:24,000 means that higher resolution information may not have been uniformly retained in the dataset. Plotting at scales larger than 1:24,000 will not yield greater real detail, although it may reveal fine-scale irregularities below the intended resolution of the database. Similarly, although higher resolution data is incorporated in most of the map, the resolution of the combined output will be limited by the lower resolution data. Point_of_Contact: Contact_Information: Contact_Person_Primary: Contact_Person: Douglas M. Morton Contact_Organization: U.S. Geological Survey, Western Region, Earth Surface Processes Team Contact_Position: Project Geologist Contact_Address: Address_Type: mailing address Address: U.S. Geological Survey Address: Department of Earth Sciences Address: University of California, Riverside City: Riverside State_or_Province: California Postal_Code: 92521 Country: United States of America Contact_Voice_Telephone: (909) 276-6397 Contact_Facsimile_Telephone: (909) 276-6295 Contact_Electronic_Mail_Address: scamp@usgs.gov Data_Set_Credit: Geologic mapping and digital preparation of this report were sponsored jointly by (1) the National Cooperative Geologic Mapping Program of the U.S. Geological Survey, (2) the California Geological Survey, and (3) the Southern California Areal Mapping Project (SCAMP). Native_Data_Set_Environment: SunOS, 5.8, sun4m UNIX ARC/INFO version 7.2.1 Cross_Reference: Citation_Information: Originator: Morton, D.M. Publication_Date: 1999 Title: Preliminary digital geologic map of the Santa Ana 30'x60' quadrangle, southern California, version 1.0. Geospatial_Data_Presentation_Form: vector digital data Series_Information: Series_Name: U.S. Geological Survey Open-File Report Issue_Identification: USGS OF 99-172 Publication_Information: Publication_Place: California Publisher: U.S. Geological Survey Online_Linkage: http://geopubs.wr.usgs.gov/open-file/of99-172 Data_Quality_Information: Attribute_Accuracy: Attribute_Accuracy_Report: Geologic-map units in the Winchester quadrangle database were described using standard field methods. Consistent with these methods, the database author has assigned standard geologic attributes to geologic lines, points, and polygons identified in the database. Nation-wide geologic-map accuracy standards have not been developed and adopted by the U.S. Geological Survey and other earth-science entities. Until such standards are adopted, the SCAMP project has developed internal map-accuracy standards for 1:24,000-scale geologic maps produced by the project. Geologic lines and points on 1:24,000 scale geologic maps are judged to meet SCAMP's internal map-accuracy standards if they are located to within +/-15 meters, relative to topographic or cultural features on the base map. On any derivative geologic-map plot, line data that are judged to meet the SCAMP internal map-accuracy standard are denoted by solid lines; line data that may not meet the SCAMP internal map-accuracy standard are denoted by dashed or dotted lines. There is no cartographic device for denoting the map-accuracy for geologic-point data (e.g., symbols representing bedding, foliation, lineations, etc.). Logical_Consistency_Report: Polygon and chain-node topology present. The areal extent of the map is represented digitally by an appropriately projected (polyconic projection), mathematically generated box. Consequently, polygons intersecting the lines that comprise the map boundary are closed by that boundary. Polygons internal to the map boundary are completely enclosed by line segments which are themselves a set of sequentially numbered coordinate pairs. Point data are represented by coordinate pairs. Completeness_Report: The geologic map database of the Winchester 7.5' quadrangle contains new data that have been subjected to rigorous review and are a substantially complete representation of the current state of knowledge concerning the geology of the quadrangle. Positional_Accuracy: Horizontal_Positional_Accuracy: Horizontal_Positional_Accuracy_Report: The maximum transformation RMS error acceptable for a 7.5' quadrangle transformation and data input is 0.003 (1.8 meters). Horizontal positional accuracy was checked by visual comparison of hard-copy plots with base-stable source data. Lineage: Process_Step: Process_Description: Field mapping and aerial photograph interpretation; iterative process (D.M. Morton). Process_Date: 1991; 1995-99; 2001 Process_Step: Process_Description: Digitization of geologic linework and point data from a scale-stable cartographic base of quadrangle. ARC/INFO database established; cleanup of artifacts; polygon, arc, and point attribute tables established. Digitizing and editing artifacts significant enough to display at a scale of 1:24,000 were corrected (K.R. Bovard and G.W. Patt). Process_Date: 1999-2001 Process_Step: Process_Description: Description of map units and correlation of map units (K.R. Bovard). Process_Date: 2002 Process_Step: Process_Description: First draft of metadata created by K.R. Bovard using FGDCMETA.AML ver. 1.2 05/14/98 on ARC/INFO data set /scamp31/kbovard/winchester/win_geo Process_Date: 20020903 Spatial_Data_Organization_Information: Direct_Spatial_Reference_Method: Vector Point_and_Vector_Object_Information: SDTS_Terms_Description: SDTS_Point_and_Vector_Object_Type: Point Point_and_Vector_Object_Count: 265 SDTS_Point_and_Vector_Object_Type: String Point_and_Vector_Object_Count: 1107 SDTS_Point_and_Vector_Object_Type: GT-polygon composed of chains Point_and_Vector_Object_Count: 266 Spatial_Reference_Information: Horizontal_Coordinate_System_Definition: Planar: Map_Projection: Map_Projection_Name: Polyconic Polyconic: Latitude_of_Projection_Origin: 33.625 Longitude_of_Central_Meridian: -117.0625 False_Easting: 0.00000 False_Northing: 0.00000 Planar_Coordinate_Information: Planar_Coordinate_Encoding_Method: coordinate pair Coordinate_Representation: Abscissa_Resolution: 1.000399708747 Ordinate_Resolution: 1.000399708747 Planar_Distance_Units: Meters Geodetic_Model: Horizontal_Datum_Name: North American Datum of 1927 Ellipsoid_Name: Clarke 1866 Semi-major_Axis: 6378206.4 Denominator_of_Flattening_Ratio: 294.98 Entity_and_Attribute_Information: Overview_Description: Entity_and_Attribute_Overview: Version 1.0 of the Winchester 7.5' quadrangle comprises three ARC/INFO coverages, of which two contain geologic data, and one contains cartographic features: win_geo (geology), win_str (structural data), and win_ano (annotation and leaders). Geologic data represented by line entities and the polygons they delineate are contained in the coverage WIN_GEO. For display purposes, the annotation coverage contains four annotation subclasses: anno.geo contains unit labels, anno.water contains water feature labels, anno.canyons contains canyon names, and anno.cities contains city names. Geological point data includes site-specific information describing the types and the orientation of foliation, joints and lineations. Annotation is respective dip and plunge values associated with individual point data. WIN_GEO.PAT: COLUMN ITEM NAME WIDTH OUTPUT TYPE N.DEC ALTERNATE NAME 1 AREA 4 12 F 3 5 PERIMETER 4 12 F 3 9 WIN_GEO# 4 5 B - 13 WIN_GEO-ID 4 5 C - 17 LABL 35 35 C - 52 SHD 3 3 I - 55 PLABL 35 35 C - 90 SHDFIL 3 3 I - WIN_GEO.AAT: COLUMN ITEM NAME WIDTH OUTPUT TYPE N.DEC ALTERNATE NAME 1 FNODE# 4 5 B - 5 TNODE# 4 5 B - 9 LPOLY# 4 5 B - 13 RPOLY# 4 5 B - 17 LENGTH 4 12 F 3 21 WIN_GEO# 4 5 B - 25 WIN_GEO-ID 4 5 B - 29 LTYPE 35 35 C - 64 L-SYMB 3 3 I - Entity_and_Attribute_Detail_Citation: none Detailed_Description: Entity_Type: Entity_Type_Label: win_geo.pat Entity_Type_Definition: Geologic units (LABL) and their corresponding names (NAME) identified in the Winchester 7.5' quadrangle Attribute: Attribute_Label: LABL Attribute_Definition: geologic map unit label, in plain text Attribute_Domain_Values: Enumerated_Domain: Enumerated_Domain_Value: Qaf Enumerated_Domain_Value_Definition: artificial fill Enumerated_Domain: Enumerated_Domain_Value: Qyf Enumerated_Domain_Value_Definition: young alluvial fan deposits Enumerated_Domain: Enumerated_Domain_Value: Qya Enumerated_Domain_Value_Definition: young alluvial channel deposits Enumerated_Domain: Enumerated_Domain_Value: Qyv Enumerated_Domain_Value_Definition: young alluvial valley deposits Enumerated_Domain: Enumerated_Domain_Value: Qyls Enumerated_Domain_Value_Definition: young landslide Enumerated_Domain: Enumerated_Domain_Value: Qof Enumerated_Domain_Value_Definition: old alluvial fan deposits Enumerated_Domain: Enumerated_Domain_Value: Qoa Enumerated_Domain_Value_Definition: old alluvial channel deposits Enumerated_Domain: Enumerated_Domain_Value: Qov Enumerated_Domain_Value_Definition: Old alluvial valley deposits Enumerated_Domain: Enumerated_Domain_Value: Qvof Enumerated_Domain_Value_Definition: very old alluvial fan deposits Enumerated_Domain: Enumerated_Domain_Value: Qvoa Enumerated_Domain_Value_Definition: very old alluvial channel deposits Enumerated_Domain: Enumerated_Domain_Value: Khqd Enumerated_Domain_Value_Definition: hypersthene quartz diorite Enumerated_Domain: Enumerated_Domain_Value: Ktcg Enumerated_Domain_Value_Definition: Monzogranite of Tres Cerritos Enumerated_Domain: Enumerated_Domain_Value: Klmt Enumerated_Domain_Value_Definition: tonalite Enumerated_Domain: Enumerated_Domain_Value: Kgab Enumerated_Domain_Value_Definition: heterogeneous mixture of olivine, pyroxene, and hornblende Enumerated_Domain: Enumerated_Domain_Value: Kgao Enumerated_Domain_Value_Definition: olivine gabbro Enumerated_Domain: Enumerated_Domain_Value: Kgah Enumerated_Domain_Value_Definition: hornblende rich gabbro Enumerated_Domain: Enumerated_Domain_Value: Kgat Enumerated_Domain_Value_Definition: troctolite Enumerated_Domain: Enumerated_Domain_Value: Kgaa Enumerated_Domain_Value_Definition: anorthositic gabbro Enumerated_Domain: Enumerated_Domain_Value: Kgam Enumerated_Domain_Value_Definition: metagabbro Enumerated_Domain: Enumerated_Domain_Value: Kdvg Enumerated_Domain_Value_Definition: granodiorite Enumerated_Domain: Enumerated_Domain_Value: Kpvt Enumerated_Domain_Value_Definition: tonalite Enumerated_Domain: Enumerated_Domain_Value: Kgd Enumerated_Domain_Value_Definition: granodiorite undifferentiated Enumerated_Domain: Enumerated_Domain_Value: Kgb Enumerated_Domain_Value_Definition: gabbro Enumerated_Domain: Enumerated_Domain_Value: Khg Enumerated_Domain_Value_Definition: heterogeneous granitic rocks Enumerated_Domain: Enumerated_Domain_Value: Mzu Enumerated_Domain_Value_Definition: metasedimentary rocks undifferentiated Enumerated_Domain: Enumerated_Domain_Value: Mzg Enumerated_Domain_Value_Definition: graywacke Enumerated_Domain: Enumerated_Domain_Value: Mzq Enumerated_Domain_Value_Definition: quartz-rich rocks Enumerated_Domain: Enumerated_Domain_Value: Mzqg Enumerated_Domain_Value_Definition: intermixed quartzite and graywacke Enumerated_Domain: Enumerated_Domain_Value: Mzgp Enumerated_Domain_Value_Definition: Intermixed graywacke and phyllite Enumerated_Domain: Enumerated_Domain_Value: Mzgs Enumerated_Domain_Value_Definition: intermixed graywacke and schist Enumerated_Domain: Enumerated_Domain_Value: Mzp Enumerated_Domain_Value_Definition: phylite Enumerated_Domain: Enumerated_Domain_Value: Mzs Enumerated_Domain_Value_Definition: schist Enumerated_Domain: Enumerated_Domain_Value: Mzi Enumerated_Domain_Value_Definition: interlayered phyllite Enumerated_Domain: Enumerated_Domain_Value: Mzds Enumerated_Domain_Value_Definition: Metadunite and serpentinite Enumerated_Domain: Enumerated_Domain_Value: Mzsm Enumerated_Domain_Value_Definition: magnesite-bearing serpentine Enumerated_Domain: Enumerated_Domain_Value: Mzdx Enumerated_Domain_Value_Definition: amphibole and pyroxene-bearing rocks associated with metadunite-serpentinite Enumerated_Domain: Enumerated_Domain_Value: Mzdc Enumerated_Domain_Value_Definition: marble associated with metadunite Enumerated_Domain: Enumerated_Domain_Value: KgMz Enumerated_Domain_Value_Definition: intermixed mesozoic schist and cretaceous granitic rocks Enumerated_Domain: Enumerated_Domain_Value: Mzsgn Enumerated_Domain_Value_Definition: low metamorphic grade and upper amphibolite grade rocks Enumerated_Domain: Enumerated_Domain_Value: Mzgn Enumerated_Domain_Value_Definition: biotite gneiss and schist Enumerated_Domain: Enumerated_Domain_Value: Mza Enumerated_Domain_Value_Definition: amphibolite Attribute: Attribute_Label: PLABL Attribute_Definition: Geological map unit label used to generate plot labels with relevant stratigraphic symbols. The geologic units with LABL designating Mesozoic (Mz) have keystroke substitute characters, }, that call their corresponding symbols from the Geoage Font Group. Geologic map unit labels will plot on derivative map plots with appropriate stratigraphic symbols if PLABL is used as the source for unit labels. Attribute: Attribute_Label: SHD Attribute_Definition: polygon color (as integer value) from shadeset alc1.shd Attribute: Attribute_Label: SHDFIL Attribute_Definition: polygon fill pattern (as integer value) from shadeset geology2.shd Attribute: Attribute_Label: NAME Attribute_Definition: Geologic name of map unit (see list under LABL attribute) Detailed_Description: Entity_Type: Entity_Type_Label: win_geo.aat Entity_Type_Definition: Geologic features such as contacts and faults that bound rock-unit polygons Attribute: Attribute_Label: LTYPE Attribute_Definition: Description of types of lines on the geologic map (contact, fault, dike). Attribute_Domain_Values: Enumerated_Domain: Enumerated_Domain_Value: contact, certain Enumerated_Domain_Value: contact, approx. located Enumerated_Domain_Value: fault, approx. located Enumerated_Domain_Value: fault, certain Enumerated_Domain_Value: fault, concealed Enumerated_Domain_Value: map boundary Enumerated_Domain_Value: scratch boundary Enumerated_Domain_Value: suture Enumerated_Domain_Value: Kgbd, gabbroic dikes Enumerated_Domain_Value: Kld, quartz latite dikes Enumerated_Domain_Value: Kp, granitic pegmatite dikes Enumerated_Domain_Value: Mzmn, black manganese-bearing siliceous rock Detailed_Description: Entity_Type: Entity_Type_Label: win_str.pat Entity_Type_Definition: Geological point data includes site-specific information describing the types and the orientation of foliation, joints, and lineations. One annotation subclass is included in the geologic points coverage, WIN_STR which displays the respective dip and plunge values associated with individual point data. Attribute: Attribute_Label: PTTYPE Attribute_Definition: describes type of point data (foliation, joints, lineations) Attribute_Domain_Values: Enumerated_Domain: Enumerated_Domain_Value: igneous foliation Enumerated_Domain_Value: vertical igneous foliation Enumerated_Domain_Value: metamorphic foliation Enumerated_Domain_Value: vertical metamorphic foliation Enumerated_Domain_Value: igneous joint Enumerated_Domain_Value: vertical igneous joint Enumerated_Domain_Value: metamorphic joint Enumerated_Domain_Value: igneous lineation Enumerated_Domain_Value: metamorphic lineation Enumerated_Domain_Value: minor metamorphic fold axis Attribute: Attribute_Label: PT-SYMB Attribute_Definition: Coded integer value that relates point to cartographic point symbol in markerset geoscamp2.mrk Attribute: Attribute_Label: STRIKE Attribute_Definition: Azimuthal strike of planar feature Attribute: Attribute_Label: DIP Attribute_Definition: Dip of planar feature Detailed_Description: Entity_Type: Entity_Type_Label: win_ano.aat Entity_Type_Definition: Annotation leaders Attribute: Attribute_Label: L-SYMB Attribute_Definition: Coded integer value (1) that relates arcs to cartographic line symbol in lineset Distribution_Information: Distributor: Contact_Information: Contact_Organization_Primary: Contact_Organization: U.S. Geological Survey Information Services Contact_Address: Address_Type: mailing address Address: Box 25286 Denver Federal Center City: Denver State_or_Province: Colorado Postal_Code: 80225 Country: USA Contact_Voice_Telephone: (303)202-4700 Contact_Facsimile_Telephone: (303)202-4693 Distribution_Liability: The U.S. Geological Survey (USGS) provides these geographic data "as is." The USGS makes no guarantee or warranty concerning the accuracy of information contained in the geographic data. The USGS further makes no warranties, either expressed or implied as to any other matter whatsoever, including, without limitation, the condition of the product, or its fitness for use lies entirely with the user. Although these data have been processed successfully on computers at the USGS, no warranty, expressed or implied, is made by the USGS regarding the use of these data on any other system, nor does the fact of distribution constitute or imply any such warranty. In no event shall the USGS have any liability whatsoever for payment of any consequential, incidental, indirect, special, or tort damages of any kind, including, but not limited to, any loss of profits arising out of use of or reliance on the geographic data or arising out of the delivery, installation, operation, or support by USGS. This digital geologic map database of the Winchester 7.5' quadrangle, 1:24,000 map-scale, and any derivative maps thereof, is not meant to be used or displayed at any scale larger than 1:24,000 (e.g., 1:12,000). Metadata_Reference_Information: Metadata_Date: 20020903 Metadata_Review_Date: 20030225 Metadata_Contact: Contact_Information: Contact_Organization_Primary: Contact_Organization: U.S. Geological Survey Contact_Person: Kelly R. Bovard Contact_Position: Geologist Contact_Address: Address_Type: mailing address Address: U.S. Geological Survey Address: Department of Earth Sciences Address: University of California, Riverside City: Riverside State_or_Province: California Postal_Code: 92521 Country: USA Contact_Voice_Telephone: (909) 276-6397 Contact_Facsimile_Telephone: (909) 276-6295 Contact_Electronic_Mail_Address: kbovard@usgs.gov Metadata_Standard_Name: FGDC Content Standards for Digital Geospatial Metadata Metadata_Standard_Version: FGDC-STD-001-1998 Metadata_Access_Constraints: none Metadata_Use_Constraints: none 14