Metadata:
  Identification_Information:

    Citation:
      Citation_Information:
        Originator: Jonathan C. Matti
        Originator: Douglas C. Morton
        Originator: Brett F. Cox
        Originator: Scott E. Carson
        Originator: Thomas J. Yetter
        Publication_Date: 2003
        Title:
          Geologic map and digital database of the Yucaipa 7.5' quadrangle, San Bernardino and
          Riverside Counties, California
        Edition: Version 1.0
        Geospatial_Data_Presentation_Form: vector digital data
        Series_Information:
          Series_Name: United States Geological Survey Open-File Report
          Issue_Identification: 03-301
        Publication_Information:
          Publication_Place: Menlo Park, California
          Publisher: U.S. Geological Survey
        Online_Linkage: http://pubs.usgs.gov/of/2003/0301/
    Description:
      Abstract:
        The Yucaipa 7.5' quadrangle is located at the southeastern margin of the San
        Bernardino Basin, an extensional region situated within a right-step-over zone
        between the San Jacinto and San Andreas Fault zones.  The quadrangle is traversed by
        several faults of the San Andreas system, including (from oldest to youngest) the
        Banning Fault and the Wilson Creek, Mission Creek, Mill Creek, and San Bernardino
        Strands of the San Andreas Fault.

        The Mill Creek Strand of the San Andreas Fault is the easternmost strand of the San
        Andreas in the Yucaipa quadrangle.  It separates granitic and metamorphic rocks of
        the San Bernardino Mountains block from a thin slice of similar rocks on Yucaipa
        Ridge, and thus has only a small amount of strike-slip displacement.

        The Wilson Creek Strand traverses Yucaipa Ridge and converges toward the Mlll Creek
        Strand in the Santa Ana river Canyon.  The fault has juxtaposed an igneous and
        metamorphic complex (Wilson Creek block) and overlying nonmarine sedimentary rocks
        (Mill Creek Formation of Gibson, 1971) against rocks of San Bernardino
        Mountains-type, and thus has significant strike-slip displacement.

        The Mission Creek Strand is inferred to lie beneath Quaternary surficial deposits
        along the southwestern base of the San Bernardino Mountains.  This fault is the
        major strand of the San Andreas Fault zone, and has juxtaposed crystalline rocks of
        San Gabriel Mountains-type (including Pelona Schist overlain by the Vincent Thrust
        and associated upper-plate crystalline rocks) against the Wilson Creek block and the
        San Bernardino Mountains.

        The San Bernardino Strand defines the modern trace of the San Andreas Fault.  The
        strand forms primary fault features in all but the youngest Quaternary surficial
        units, and is thought to have evolved in the last 125,000 years or so based on
        regional fault relations.

        Complications within the San Andreas Fault system over the last several hundred
        thousand years have created a landscape setting in which Quaternary surficial
        materials of the Yucaipa quadrangle have accumulated.  Crustal extension throughout
        the San Bernardino Basin region led to uplift of the Crafton Hills block and
        down-dropping of the Yucaipa Valley region on faults of the Crafton Hills and
        Chicken Hill complex.  Subsequent middle and late Quaternary streamflows deposited
        several generations of axial-valley and alluvial-fan sediment in the down-dropped
        lowlands.  These deposits and the older San Timoteo beds they overlie record the
        history of Quaternary fault movements, and form reservoirs for ground water in the
        Yucaipa quadrangle.

        Digital Data:

        The geologic database of the Yucaipa 1:24,000-scale 7.5' quadrangle, San Bernardino
        and Riverside Counties, California, was prepared by the Southern California Areal
        Mapping Project (SCAMP), a regional geologic-mapping project sponsored jointly by
        the U.S. Geological Survey and the California Geological Survey.  The database was
        created in ARC/INFO (Environmental Systems Research Institute, ESRI), and includes
        the following files: (1) a readme.txt file, (2) this metadata file, (3) coverages
        containing geologic data and station-location data, (4) associated INFO attribute
        data files, (5) a browse graphic (.pdf) of the geologic-map plot and map-marginal
        explanatory information, (6) a PostScript graphics file of the geologic-map plot
        with map-marginal explanatory information, and (7) .pdf text files describing the
        map units of the Yucaipa quadrangle (Description of Map Units) and their geologic
        age and correlation (Correlation of Map Units).
      Purpose:
        The geologic database for the Yucaipa quadrangle was developed as a contribution to
        the National Cooperative Geologic Mapping Program's National Geologic Map Database,
        and is intended to provide a general geologic setting of the quadrangle.  The
        Yucaipa database provides information about geologic materials and structures,
        including the modern trace of the San Andreas fault and associated faults that have
        developed in the map area due to complexities in the San Andreas stress field.

        Geologic information contained in the Yucaipa database is general-purpose data that
        are applicable to land-related investigations in the earth and biological sciences.
        The term "general-purpose" means that all geologic-feature classes have minimal
        information content adequate to characterize their general geologic characteristics
        and to interpret their general geologic history.  However, no single feature class may
        have enough information to definitively characterize its properties and origin.  For
        this reason the database cannot be used for site-specific geologic evaluations,
        although it can be used to plan and guide investigations at the site-specific level.
      Supplemental_Information:
        This database is an updated, digital release of an analog map of the Yucaipa
        quadrangle released previously in the U.S.  Geological Survey Open-file Report (OF)
        series in 1992 (Matti, J.C., Morton, D.M., Cox, B.F., Carson, S.E., and Yetter,T.J.,
        1992, Geologic map of the Yucaipa quadrangle, southern California: U.S. Geological
        Survey Open-File Report 92-445, scale 1:24,000, 14 p.).  Version 1.0 retains much of
        the geologic linear and point data and map-unit information represented in the analog
        release.  However, digital version 1.0 differs from the 1992 analog release in several
        important ways:

        (1) Quaternary surficial materials in the NW part of the quadrangle (Sec.  7, 8, 17,
        18, 19, 20) and SE corner of the quadrangle (Sec.  7, 8, 11, 12, and unsurveyed) have
        been reinterpreted based on analysis of 1938 and 1953 Department of Agriculture
        (Agricultural Stabilization and Conservation Service, ASCS) aerial photography.

        (2) In digital version 1.0, units in the Qa series (Qa, Qya, Qoa, and Qvoa) are
        identified as "axial-valley deposits".  In the 1992 analog version, these units were
        described as "deposits of alluvial plains".  These changes do not affect the geologic
        interpretation or information content of the map.  Rather, they are merely
        nomenclatuaral changes that are the consequence of the U.S.  Geological Survey's
        continued efforts to refine the classification of Quaternary surficial materials in the
        San Bernardino-Yucaipa region.

        (3) For some faults, digital version 1.0 provides new, geologic data and interpretations.
    Time_Period_of_Content:
      Time_Period_Information:
        Range_of_Dates/Times:
          Beginning_Date: 1930
          Ending_Date: 1998
      Currentness_Reference:
        Time period of information content for geologic data in the Yucaipa database reflects (1)
        the vintage (1930, 1938, 1952, 1966, 1975) of archival aerial photographs used to
        interpret geologic features and (2) ground observations made by the map authors between
        1977 and 1998.
    Status:
      Progress: Complete
      Maintenance_and_Update_Frequency: As needed

    Spatial_Domain:
      Bounding_Coordinates:
        West_Bounding_Coordinate: -117.12509183
        East_Bounding_Coordinate: -116.99990817
        North_Bounding_Coordinate: 34.12499996
        South_Bounding_Coordinate: 33.99998412

    Keywords:
      Theme:
        Theme_Keyword_Thesaurus: USGS Thesaurus
        Theme_Keyword: geology
        Theme_Keyword: geologic maps
        Theme_Keyword: bedrock geologic units
        Theme_Keyword: surficial geologic units
        Theme_Keyword: faulting (geologic)
        Theme_Keyword: geologic structure
        Theme_Keyword: landslides
        Theme_Keyword: geospatial datasets
      Theme:
        Theme_Keyword_Thesaurus: none
        Theme_Keyword: geologic maps
        Theme_Keyword: geology
        Theme_Keyword: surficial geologic units
        Theme_Keyword: bedrock geologic units
        Theme_Keyword: San Andreas Fault
        Theme_Keyword: Banning Fault
        Theme_Keyword: Vincent Thrust
        Theme_Keyword: Crafton Hills Fault Zone
        Theme_Keyword: Chicken Hill Fault
        Theme_Keyword: faults (geologic)
        Theme_Keyword: landslides
      Theme:
        Theme_Keyword_Thesaurus: ISO 19115 Topic Categories
        Theme_Keyword: geoscientificInformation
      Place:
        Place_Keyword_Thesaurus: none
        Place_Keyword: California
        Place_Keyword: San Bernardino County
        Place_Keyword: Riverside County
        Place_Keyword: Yucaipa 7.5' quadrangle
        Place_Keyword: Yucaipa
        Place_Keyword: Calimesa
        Place_Keyword: Mentone
      Place:
        Place_Keyword_Thesaurus: Augmented FIPS 10-4 and FIPS 6-4
        Place_Keyword: f06065 = Riverside
        Place_Keyword: f06071 = San Bernardino
      Stratum:
        Stratum_Keyword_Thesaurus: None
        Stratum_Keyword: Mill Creek Formation of Gibson (1971)
        Stratum_Keyword: Pelona Schist
        Stratum_Keyword: San Timoteo beds of Frick (1921)
        Stratum_Keyword: Formation of Warm Springs Canyon
    Access_Constraints: None

    Use_Constraints:
      The Yucaipa 7.5' geologic-map database should be used to evaluate and understand the
      geologic character of the Yucaipa quadrangle as a whole.  It should not be used as a
      detailed map 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 the Yucaipa geologic-map database should not violate the spatial resolution of
      the data.  Although the digital form of the data allows the scale to be manipulated at
      the discretion of the user, detail and accuracy issues that are inherent to map-scale
      limitations similarly exist in the digital data.  The fact that this database was
      constructed and edited at a scale of 1:24,000 means that higher-resolution data
      generally are not present in the dataset.  Therefore, plotting at scales larger than
      1:24,000 will not yield greater, real detail, although enlarged plots may reveal
      fine-scale (artificial) irregularities beyond the intended resolution of the database.
      Although higher-resolution data may be incorporated at a few places, the resolution of
      the entire database output is limited by the lower-resolution data.

      Hart, E. W., 1988, Fault-rupture zones in California; Alquist-Priolo Special Studies
      Zones Act of 1972 with index to special studies zones maps: California Division of Mines
      and Geology Special Publication 42

    Point_of_Contact:
      Contact_Information:
        Contact_Person_Primary:
          Contact_Person: Jonathan C. Matti
          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
            520 North Park Avenue, Rm 355
          City: Tucson
          State_or_Province: Arizona
          Postal_Code: 85719
          Country: United States of America
        Contact_Voice_Telephone: 520-670-5577
        Contact_Facsimile_Telephone: 520-670-5113
        Contact_Electronic_Mail_Address: jmatti@usgs.gov

    Browse_Graphic:
      Browse_Graphic_File_Name: http://pubs.usgs.gov/of/2003/0301/images/yuc_map.gif
      Browse_Graphic_File_Description: Reduced-size image of the entire map sheet, 425x300 pixels, 43k bytes. 475x334 pixels, 56k bytes.
      Browse_Graphic_File_Type: GIF
    Browse_Graphic:
      Browse_Graphic_File_Name: http://pubs.usgs.gov/of/2003/0301/pdf/yuc_map.pdf
      Browse_Graphic_File_Description:
        Navigable portable document format file (.pdf) image of the geologic map, topographic
        base, Correlation of Map Units, Description of Map Units and key to point and line
        symbols.
      Browse_Graphic_File_Type: PDF
    Data_Set_Credit:
      Photogrammetric Geologic Compilation:  The U.S. Geological Survey's Photogrammetric
      Plotter Laboratory in Denver, Colorado (James Messerich, photogrammetrist) provided Kern
      PG-2 stereographic plotters that enabled the high-precision, high-accuracy transfer of
      geologic linework and point data from aerial photographs to a scale-stable cartographic
      base.

      Scientific Peer Review:  The database and plot file benefitted from technical reviews by
      R.F. Yerkes, P.  Stone, F.K. Miller, and D.  Bedford.  We thank Peter M.  Sadler and
      Michael O. Woodbourne for discussions of the stratigraphy and structure of rocks in the
      Yucaipa quadrangle.

      Programmatic Credit:  Geologic mapping, topical studies, and digital preparation for
      this database were sponsored jointly by the following: (1) the U.S. Geological Survey's
      National Cooperative Geologic Mapping Program, the National Earthquake Hazards Program,
      and the Mineral Resources Program; (2) California Geological Survey; (3) San Bernardino
      Valley Municipal Water District provided funding support for database development; (4)
      U.S.  Forest Service (San Bernardino National Forest). Mr. Raj Daniel of the San
      Bernardino National Forest facilitated funding support of this database.
    Native_Data_Set_Environment:
      SunOS, 5.6, sun4u UNIX
      ARC/INFO version 7.2.1

    Cross_Reference:
      Citation_Information:
        Originator: Jonathan C. Matti
        Originator: Douglas M. Morton
        Originator: Brett F. Cox
        Originator: Katherine J. Kendrick
        Publication_Date: 2003
        Title:
          Geologic map and digital database of the Redlands 7.5' quadrangle, San Bernardino and
          Riverside Counties, California
        Geospatial_Data_Presentation_Form: vector digital data
        Series_Information:
          Series_Name: U.S. Geological Survey Open-File Report
          Issue_Identification: 03-302
        Publication_Information:
          Publication_Place: Menlo Park, California
          Publisher: U.S. Geological Survey
        Online_Linkage: http://pubs.usgs.gov/of/2003/0302/

  Data_Quality_Information:
    Attribute_Accuracy:
      Attribute_Accuracy_Report:
        The combination of detailed and reconnaissance techniques used to generate the Yucaipa
        quadrangle database yielded a data set whose quality necessarily varies from location to
        location.  Some areas were examined in great detail in order to solve specific geologic
        problems or to clarify the description or geologic relations of a particular map unit.
        Other areas were examined less carefully or were not examined at all.  As a result, some
        parts of the Yucaipa data set have greater attribute accuracy and attribute confidence
        than others.

        ATTRIBUTE ACCURACY

        The attribute-accuracy statement for the Yuciapa database incorporates four elements:
        (1) map-unit description and attribution, (2) geotechnical standards against which the
        observations are measured, (3) map-unit identification, and (4) description of linear
        and planar geologic structures.

        Map-unit description and attribution:

        Geologic-map units in the Yucaipa quadrangle database were described using standard
        field methods (see Process_Description 1 of 6).  Consistent with these methods and
        consistent with the time available to assemble the data set, the database authors have
        assigned standard geologic attributes to geologic lines, points, and polygons identified
        in the database.

        Geotechnical standards for geologic descriptions:

        Plutonic rock classification:  Plutonic rocks and their deformed equivalents are
        classified in accordance with the International Union of Geological Sciences
        Subcommission on the Systematics of Igneous Rocks (1973; Streckeisen, 1976).

        Sedimentary rock classifications:  Sandstones are classified in accordance with the
        scheme suggested by Friedman and Sanders (1978, Table 7-4).  For all sedimentary
        materials, bedding-thickness classification follows Ingram (1954) and grain-size
        classification follows Wentworth (1922).

        Surficial-materials classification:  Surficial materials are mapped and classified
        according to a southern California-wide classification scheme being developed by the
        Southern California Areal Mapping Project (SCAMP).

        Terminology for slope-failure deposits (landslides and other slope-failure types)
        follows Varnes (1978).

        Color classification:  The matrix color of surficial materials and their pedogenic soils
        is classified according to the Munsell soil-color charts (Munsell, 1975).  Bedrock
        colors also are classified according to the Munsell system, supplemented by the
        Rock-Color Chart distributed by the Geological Society of America (reprinted 1970).

        Map-unit identification

        Geologic-map units in the Yucaipa quadrangle represent packages of geologic materials
        whose overall physical properties differ sufficiently from other such units as to
        constitute discrete mappable entities.  From localities where map units in the
        quadrangle first were recognized and defined, they were extended to other areas through
        a mapping process that includes (a) direct outcrop observation, (b) interpretation of
        subsurface boring logs, and (c) aerial-photographic extrapolation into areas where site
        observation was not conducted.  The data contained in the coverage yuc_obs indicates the
        density of observation and data localities in the Yucaipa quadrangle, and is a measure
        of whether a map unit at a particular location was identified on the basis of hands-on
        data or extrapolation.

        Map-unit boundaries (geologic contacts) and faults identified along mapping traverses
        typically were extended laterally by using aerial photographs and binoculars to project
        or interpolate the contact or fault to its next recorded occurrence along a nearby
        traverse.  Only rarely were individual geologic contacts or fault lines walked out to
        determine their variability and character throughout the map area.  The bounding
        contacts of each surficial unit and the location of fault scarps that traverse the units
        were plotted by using a PG-2 photogrammetric plotter that allows location accuracy
        equivalent to the accuracy standard for the topographic-contour base.

        Description of geologic structures

        Geologic structures (planar structures displayed as lines, and structures at specific
        points) in the Yucaipa quadrangle are described and attributed according to the scheme
        described by Matti and others (1997a,b).  These classifications generally follow
        conventional schemes for classifying geologic lines and points (Reynolds and others,
        1995).

        ATTRIBUTE CONFIDENCE

        For digital version 1.0 of the database, the coverage yuc_obs is a proxy for attribute
        confidence:  the number of direct observations within a map unit from place to place in
        the quadrangle proxies for the confidence with which the unit and its attributes are
        believed to be accurately identified.  Future releases of the Yucaipa data set will
        delineate a more objective, empirical basis for map-unit identification and attribute
        accuracy (map-unit and attribute confidence).

        Friedman, G.M., and Sanders, J.E., 1978, Principles of sedimentology:  New York, John
        Wiley & Sons, 792 p.

        Ingram, R.L., 1954, Terminology for the thickness of stratification and parting units in
        sedimentary rocks: Geological Society of America Bulletin, v. 65, p. 937-938.

        International Union of Geological Sciences Subcommission on the Systematics of Igneous
        Rocks, 1973, Plutonic rocks:  Geotimes, v.  18, no. 10, p. 26-30.

        Matti, J.C., Powell, R.E., Miller, F.K., Kennedy, S.A., Ruppert, K.R., Morton, G.L., and
        Cossette, P.M., 1997a, Geologic-line attributes for digital geologic-map databases
        produced by the Southern California Areal Mapping Project (SCAMP), Version 1.0:
        U.S.Geological Survey Open-File Report 97-861

        Matti, J.C., Miller, F.K., Powell, R.E., Kennedy, S.A., Bunyapanasarn, T.P., Koukladas,
        Catherine, Hauser, R.M., and Cossette, P.M., 1997b, Geologic-point attributes for
        digital geologic-map databases produced by the Southern California Areal Mapping Project
        (SCAMP), Version 1.0: U.S.Geological Survey Open-File Report 97-859

        Munsell Color, 1975, Munsell soil color charts, 1975 edition   Baltimore, Maryland,
        Macbeth Division of Kollmorgen Corporation.

        Reynolds, M.W., Queen, J.E., and Taylor, R.B., 1995, Cartographic and digital standard
        for geologic map information:  U.S. Geological Survey Open-File Report 95-525

        Streckeisen A., 1976, To each plutonic rock its proper name: Earth Science Reviews, v.
        12, p. 1-33.

        Varnes, D.J., 1978, Slope movement types and processes, in Schuster, R.L., and Krizek,
        R.J., eds., Landslides: analysis and control:  Washington, D.C., Transportation Research
        Board, National Academy of Sciences, Special Report 176, p. 11-33.

        Wentworth, C.K., 1922, A scale of grade and class terms for clastic sediments:  Journal
        of Geology, v. 30, p.  377-392.

    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 that are themselves a set of
      sequentially numbered coordinate pairs.  Point data are represented by coordinate pairs.
    Completeness_Report:
      The geologic map and digital database of the Yucaipa 7.5' quadrangle contain new data
      that have been subjected to scientific peer review and are a substantially complete
      representation of the current state of knowledge concerning the geology of the
      quadrangle.

      Information for geologic units, geologic contacts, and faults by necessity is
      generalized.  Although derived from data collected at individual observation stations,
      the characteristics of map units, their bounding contacts, and faults have been averaged
      and reduced to attributes that describe each map unit and each line element as a whole.
      This averaging process is necessary because of the intrinsic variability that geologic
      units, contacts, and faults display spatially: in detail, their characteristics
      necessarily vary geographically, although certain core attributes persist.  To account
      for this variability and yet still characterize the major defining attributes of
      geologic entities, the database authors have selected and archived certain geologic
      characteristics but omitted others.  In such cases, details were sacrificed in the
      interest of defining the average character of the geologic features.

      Map-unit completeness: For map-unit polygons, version 1.0 of the Yucaipa database does
      not exploit the full potential afforded by the data-model and attribute scheme proposed
      by Matti and others (1997a).  The file yuc_geo.pat contains limited information about
      polygon themes such as geologic name and the thickness of geologic-map units, as well as
      information about unique attributes that distinguish a map unit within a polygon or a
      particular subset of polygons.  Additional lithologic-attribute data are available in
      the INFO data table yuc_summ.rel, including age-related data and major rock type.  Other
      than this minimal information, however, the Yucaipa database for geologic-map units
      (yuc_geo) lacks the comprehensive information content of the .pdf files (yuc_dmu.pdf and
      yuc_cmu.pdf).

      Line and Point Completeness: For line and point data, the Yucaipa database exploits the
      attribution scheme proposed by Matti and others (1997a,b).  This scheme allows geologic
      elements represented as lines (geologic contacts, faults, fold axes, geomorphic
      features) and points (bedding orientations, foliation orientations, fault dips) to be
      assigned a full spectrum of attributes ranging from contact and fault type to geologic
      age of linear and point features.  Some of these attributes are embedded directly within
      the line and point data bases (.aat and .pat, respectively).  Most line and point
      attributes are stored as codes in two INFO data tables (lines.rel and points.rel).

      A complete description of the SCAMP polygon, line, and point data coding schemes is
      available in U.S. Geological Survey Open-File Reports OF-97-859, OF-97-860, and
      OF-97-861 (full source citations follow):

      Matti, J.C., Powell, R.E., Miller, F.K., Kennedy, S.A., Ruppert, K.R., Morton, G.L., and
      Cossette, P.M., 1997a, Geologic-line attributes for digital geologic-map databases
      produced by the Southern California Areal Mapping Project (SCAMP), Version 1.0: U.S.
      Geological Survey Open-File Report 97-861
      http://pubs.usgs.gov/of/1997/0861/

      Matti, J.C., Miller, F.K., Powell, R.E., Kennedy, S.A., Bunyapanasarn, T.P., Koukladas,
      Catherine, Hauser, R.M., and Cossette, P.M., 1997b, Geologic-point attributes for
      digital geologic-map databases produced by the Southern California Areal Mapping Project
      (SCAMP), Version 1.0: U.S. Geological Survey Open-File Report 97-859
      http://pubs.usgs.gov/of/1997/0859/

      Matti, J.C., Miller, F.K., Powell, R.E., Kennedy, S.A., and Cossette, P.M., 1997c,
      Geologic-polygon attributes for digital geologic-map databases produced by the Southern
      California Areal Mapping Project (SCAMP), Version 1.0: U.S. Geological Survey Open-File
      Report 97-860
      http://pubs.usgs.gov/of/1997/0860/

    Positional_Accuracy:
      Horizontal_Positional_Accuracy:
        Horizontal_Positional_Accuracy_Report:
          Nationwide geologic-map accuracy standards for geologic line and point features have not
          been developed and adopted by the U.S.  Geological Survey and other earth-science
          entities.  Until such standards are developed, the Southern California Areal Mapping
          Project (SCAMP) uses internal map-accuracy standards for 1:24,000-scale geologic maps
          produced by the project.

          In the Yucaipa 1:24,000 scale quadrangle, geologic lines are judged to meet the
          map-accuracy standard if they are located to within ˜+/-15 meters relative to topographic
          or cultural features on the base map.  Within the database, line data that are judged to
          meet the map-accuracy standard are denoted in the data table lines.rel by the attribute
          code .MEE. (meets); line data that may not meet the map-accuracy standard are denoted by
          the attribute code .MNM. (may not meet).  On geologic-map plots and other plots
          generated from the geologic database, line data that are judged to meet the map-accuracy
          standard are denoted by solid lines; line data that may not meet the map-accuracy
          standard are denoted by dashed or dotted lines.

          In the database and on geologic-map plots, no cartographic device exists for denoting
          the map-accuracy for geologic-point data (symbols for bedding, foliation, lineations,
          etc.).

          Three sources of positional error exist for geologic elements in the Yucaipa quadrangle
          database:

          (1) Positional accuracy of field observations: observation stations (data localities)
          were located either on aerial photographs or on the topographic basemap of the Yucaipa
          quadrangle by referencing hypsographic and planimetric features on the basemap.

          (2) Transfer of line and point data from aerial photographs to the topographic base:
          For bedrock geologic materials, point data, contacts, and faults were visually
          transferred to scale-stable copies of the topographic base map.  For most surficial
          geologic materials, geologic contacts and fault scarps were transferred to the base map
          through the use of a PG-2 sterographic plotter that allows geologic elements to be
          located with an accuracy and precision equivalent to the standard for the
          topographic-contour base.

          (3) Positional fidelity during digital data processing: the maximum transformation Root
          Mean Square (RMS) error acceptable for 7.5' quadrangle transformation and data input is
          0.003 (1.8 meters).  The horizontal positional accuracy of line and point entities was
          checked by visual comparison of hard-copy plots with base-stable source data.
    Lineage:
      Source_Information:
        Source_Citation:
          Citation_Information:
            Originator: U.S. Geological Survey
            Publication_Date: 1967, photorevised 1980
            Title:
              Topographic basemap of the Yucaipa quadrangle, southern
              California
            Geospatial_Data_Presentation_Form: map
            Publication_Information:
              Publication_Place: Reston, Virginia
              Publisher: U.S. Geological Survey
        Source_Scale_Denominator: 24000
        Type_of_Source_Media:
          Stable base material (greenline chronoflex for geologic compilation; .007 mil clearfilm
          blackline for topographic basemap image)
        Source_Time_Period_of_Content:
          Time_Period_Information:
            Single_Date/Time:
              Calendar_Date: 1967
          Source_Currentness_Reference: Topographic basemap
        Source_Citation_Abbreviation: USGS Yucaipa, 1967
        Source_Contribution:
          The Yucaipa topographic basemap served as the reference standard by which the database
          authors located the position of observation stations and geologic structures (geologic
          contacts, faults, fold axes).  Scale-stable copies of the basemap also were used to
          transfer geologic information from aerial photographs to basemap using a PG-2
          stereographic plotter.

      Source_Information:
        Source_Citation:
          Citation_Information:
            Originator: Pictorial Crafts, Inc. (contracted to the U.S. Geological Survey)
            Publication_Date: 1975
            Title: Pictorial Crafts aerial photography
        Source_Scale_Denominator: 24000
        Type_of_Source_Media: Paper true-color aerial photographs
        Source_Time_Period_of_Content:
          Time_Period_Information:
            Range_of_Dates/Times:
              Beginning_Date: 197505
              Ending_Date: 197506
          Source_Currentness_Reference: Paper true-color aerial photographs
        Source_Citation_Abbreviation: Pictorial Crafts, Inc., 1975
        Source_Contribution:
          The Pictorial Crafts aerial photography provides true-color rendering of geologic and
          geomorphic features in the Yucaipa quadrangle and throughout the San Bernardino Basin.
          The E-W flight lines were the primary aerial-photography resource used by the authors to
          locate the position of observation stations and to plot the positions of geologic
          structures (geologic contacts, faults, fold axes).  Although their 1975 vintage post-dates
          urbanization that obscures some geologic features, the photography was helpful in
          recognizing geologic features whose color is a distinguishing characteristic.
      Source_Information:
        Source_Citation:
          Citation_Information:
            Originator: U.S. Department of Agriculture, Agricultural Stabilization and Conservation Service
            Publication_Date: 1952
            Title:
              U.S. Department of Agriculture, Agricultural Stabilization and Conservation Service, 1952
              photography (Symbol AXM, AXL)
        Source_Scale_Denominator: 20000
        Type_of_Source_Media: Paper black-and-white aerial photographs
        Source_Time_Period_of_Content:
          Time_Period_Information:
            Single_Date/Time:
              Calendar_Date: 1952
          Source_Currentness_Reference: 1952 date imprint on positive print
        Source_Citation_Abbreviation: ASCS 1952 photography (Symbol AXM, AXL)
        Source_Contribution:
          The ASCS photography provides systematic aerial-photographic cover of the Yucaipa
          quadrangle and the rest of the San Bernardino Basin, along N-S flight lines.  This
          orientation contrasts with the typical E-W orientation of most photographic series, and
          provides a different perspective of geologic and geomorphic features.  Because the ASCS
          photography pre-dates much urbanization that obscures land-form features, it was helpful
          in recognizing geologic and geomorphic features that have been obliterated by human
          activities in the last 50 years or so.  The database authors used the 1952 ASCS
          photography to augment and refine observations made using the 1975 Pictorial Crafts
          photography, and to delineate features in the Yucaipa Valley and Mentone areas.
      Source_Information:
        Source_Citation:
          Citation_Information:
            Originator: U.S. Department of Interior, Geological Survey
            Publication_Date: 1966
            Title: U.S. Department of Interior, Geological Survey 1966 photography (symbol GS-VBNS)
        Source_Scale_Denominator: 30000 (approximately)
        Type_of_Source_Media: Paper black-and-white aerial photographs
        Source_Time_Period_of_Content:
          Time_Period_Information:
            Single_Date/Time:
              Calendar_Date: 1966
          Source_Currentness_Reference: 1966 date imprint on positive print
        Source_Citation_Abbreviation: USGS 1966 photography (symbol GS-VBNS)
        Source_Contribution:
          The USGS photography (symbol GS-VBNS) provides systematic aerial photographic coverage of
          the Yucaipa quadrangle and the rest of the San Bernardino Basin, along E-W flight lines.
          Although their 1966 vintage post-dates some urbanization that obscures geologic features,
          moderate vertical exaggeration in this photo series enhances subtle geologic and
          geomorphic features not easily recognized in other photoseries. The database authors used
          the 1966 GS-VBNS photography to augment and refine observations made using the 1975
          Pictorial Crafts photography, and especially to delineate subtle features in the Mentone
          and northern Yucaipa Valley areas.
      Source_Information:
        Source_Citation:
          Citation_Information:
            Originator: U.S. Department of Agriculture, Agricultural Stabilization and Conservation Service
            Publication_Date: 1938
            Title:
              U.S. Department of Agriculture, Agricultural Stabilization and Conservation Service, 1938
              photography (Symbol AXM, AXL)
        Source_Scale_Denominator: 20000
        Type_of_Source_Media: Paper black-and-white aerial photographs
        Source_Time_Period_of_Content:
          Time_Period_Information:
            Single_Date/Time:
              Calendar_Date: 1938
          Source_Currentness_Reference: 1938 date imprint on positive print
        Source_Citation_Abbreviation: ASCS 1938 photography (Symbol AXM, AXL)
        Source_Contribution:
          The 1938 ASCS photography provides the most regionally extensive early-vintage aerial
          images available for southern California, including the Yucaipa quadrangle.  The 1938
          photography pre-dates much urbanization that obscures land-form features, and thus was
          helpful in recognizing geologic and geomorphic features that have been obliterated by
          human activities in the last 60 years or so.  The database authors used the 1938
          photography to augment and refine observations made using the 1975 Pictorial Crafts
          photography, and to delineate pre-urbanization features in the Yucaipa Valley and Mentone
          areas.
      Source_Information:
        Source_Citation:
          Citation_Information:
            Originator: Spence Airplane Photos, Los Angeles (flown under contract to the U.S.  Geological Survey)
            Publication_Date: 1930
            Title: Spence aerial photography, 1930
        Source_Scale_Denominator: 18000
        Type_of_Source_Media: Paper black-and-white aerial photographs
        Source_Time_Period_of_Content:
          Time_Period_Information:
            Single_Date/Time:
              Calendar_Date: 1930
          Source_Currentness_Reference: 1930 date imprint on positive print
        Source_Citation_Abbreviation: Spence Aerial Photography, 1930
        Source_Contribution:
          The Spence aerial photography consists of a single flight line flown along the San Andreas
          Fault in southern California, including the Yucaipa quadrangle.  The 1930 photography
          pre-dates much urbanization that obscures land-form features, and thus was helpful in
          delineating geologic and geomorphic features (fault scarps, shutter ridges, lineaments)
          that have been obliterated by human activities in the last 70 years or so.  The database
          authors used the 1930 Spence photography to interpret geomorphic details of the San
          Andreas Fault Zone (San Bernardino Strand).
      Source_Information:
        Source_Citation:
          Citation_Information:
            Originator: Matti, J.C.
            Originator: Morton, D.M.
            Originator: Cox, B.F.
            Originator: Carson, S.E.
            Originator: Yetter, T.J.
            Publication_Date: 1992
            Title: Geologic map of the Yucaipa quadrangle, southern California
            Series_Information:
              Series_Name: U.S. Geological Survey Open-File Report
              Issue_Identification: 92-445
        Source_Scale_Denominator: 24000
        Type_of_Source_Media: stable base material
        Source_Time_Period_of_Content:
          Time_Period_Information:
            Range_of_Dates/Times:
              Beginning_Date: 1930
              Ending_Date: 1991
          Source_Currentness_Reference:
            Publication data
            Time period of information content for geologic information in the 1992 Yucaipa quadrangle
            map reflects (1) the vintage (1930, 1938, 1953, 1966, 1975) of archival aerial photographs
            used to interpret geologic features and (2) ground observations made by the map authors
            between 1977 and 1992.
        Source_Citation_Abbreviation: Matti and others, 1992
        Source_Contribution:
          The 1992 analog geologic map of the Yucaipa quadrangle is the source of much of the
          geologic line, point, and map-unit data represented in digital version 1.0.  Lithologic,
          structural, and stratigraphic data for sedimentary deposits of the San Timoteo beds of
          Frick (1921) are retained, as are boundaries and structural orientations of crystalline
          bedrock units.  Most faults are the same as in the analog version,

          The information content of digital version 1.0 of the Yucaipa quadrangle database differs
          in some important ways from that of the analog version (Matti and others, 1992).  As
          described in Process_Step 4 of 6, between 1994 and 1998 one of the database authors (J.C.
          Matti) reinterpreted some of the Quaternary surficial materials and some fault
          relationships.
      Source_Information:
        Source_Citation:
          Citation_Information:
            Originator: Smith, R. E.
            Publication_Date: 1959
            Title: Geology of the Mill Creek area, San Bernardino County, California
            Publication_Information:
              Publication_Place: Los Angeles, California
              Publisher: University of California
            Other_Citation_Details: unpublished M.A. thesis, 95 p.
        Source_Scale_Denominator: 20000
        Type_of_Source_Media: paper
        Source_Time_Period_of_Content:
          Time_Period_Information:
            Single_Date/Time:
              Calendar_Date: 1959
          Source_Currentness_Reference:
            Publication data
            Time period of information content for geologic information in the report by Smith (1959)
            reflects the date that the thesis was approved by the thesis committee and submitted to
            the University of California, Los Angeles.
        Source_Citation_Abbreviation: Smith (1959)
        Source_Contribution:
          Smith (1959) is the source of structural-attitude data (bedding orientation) in two small
          parts of the Yucaipa quadrangle: (1) in the NE 1/4 Sec. 17, T1S R1W, and (2) northwest of
          Morton Peak, north and south of the boundary between Sec. 1 and 12, T1S R2W.  These are
          identified in the database and on the geologic-map plot.
      Process_Step:
        Process_Description:
          Geologic mapping for analog map (Matti and others, 1992)

          Geologic data for the Yucaipa quadrangle were collected in the field by the data-set
          authors.  The field data were plotted on aerial photographs and on a 1:24,000-scale
          basemap (U.S. Geological Survey, Yucaipa 7.5' quadrangle, 1967, photorevised, 1980).

          Bedrock map units were described, mapped, and interpreted on the basis of
          traverse-mapping methods.  Observations were recorded along each traverse, locations for
          which are stored in the coverage yuc_obs. Information recorded at these stations
          provides the basis for the identification and characterization of each bedrock map
          unit..  Map-unit boundaries (geologic contacts) and faults identified along each
          traverse typically were extended laterally by using aerial photographs and binoculars to
          project or interpolate the fault or contact to its next recorded occurrence along a
          nearby traverse.  A few sedimentary-layering attitudes were determined through binocular
          observation rather than from site determinations; these are identified in the data base
          and on the geologic-map plot.

          Surficial-materials map units were described, mapped, and interpreted on the basis of
          aerial-photographic interpretation augmented by observations at specific stations.  The
          bounding contacts of each surficial unit and the location of fault scarps that traverse
          the units were plotted by using a PG-2 photogrammetric plotter that allows location
          accuracy equivalent to the accuracy standard for the topographic-contour base.  The
          coverage yuc_obs shows the position of observation stations data from which were used to
          determine geologic characteristics of the surficial map units.

          GEOLOGIC CONTRIBUTIONS BY AUTHORS:

          Jonathan C. Matti - mapped and interpreted Quaternary surficial materials; faults of the
          San Timoteo Canyon, Crafton Hills, Chicken Hill, Yucaipa Valley graben complex, and San
          Andreas zones; San Timoteo Canyon formation; crystalline rocks in the Santa Ana River
          Canyon and areas to the west; crystalline rocks in the southeast corner of the
          quadrangle - 1979, 1985-1986, 1988, 1991.

          Douglas M. Morton - mapped crystalline rocks in the Crafton Hills area - 1977.

          Brett F. Cox - mapped crystalline rocks in the Crafton Hills area, in the east-central
          margin of the quadrangle, and between the Wilson Creek and San Bernardino strands of the
          San Andreas fault; mapped the Warm Springs Canyon formation in Mill Creek Canyon;
          Quaternary materials and faults adjacent to the San Bernardino Strand between Mill Creek
          and Santa Ana River - 1979 to 1980.

          Scott E. Carson - mapped crystalline rocks in the vicinity of Morton Peak and Santa Ana
          River Canyon; described Quaternary surficial Materials in Yucaipa Valley - 1979 through
          1981.

          Thomas J. Yetter - mapped crystalline rocks in the vicinity of Morton Peak and Santa Ana
          River Canyon; beds of the Mill Creek Formation in lower Mill Creek Canyon - 1979.
        Process_Date: 1977 through 1991

      Process_Step:
        Process_Description:
          Analog geologic-map preparation (Matti and others, 1992)

          The 1992 geologic-map product was produced from geologic linework drafted on a
          1:24,000-scale greenline chronoflex of the Yucaipa 7.5' quadrangle.  Source materials were
          paper field sheets produced by each map author, and pencil linework generated by a PG-2
          stereographic plotter on a scale-stable 1:24,000-scale chronoflex of the Yucaipa 7.5'
          quadrangle.
        Process_Date: 1991
      Process_Step:
        Process_Description:
          Post-1992 revision of Yucaipa quadrangle geologic map

          After the 1992 geologic map of the Yucaipa quadrangle was released (Matti and others,
          1992), additional observation and interpretation by J.C. Matti led to revisions of that
          version.  Changes included: (1) re-interpretation of fault-line relations for the San
          Bernardino Strand of the San Andreas Fault west of the mouth of Santa Ana River Canyon;
          (2) re-interpretation of surficial geologic materials in the vicinity of Mentone and along
          the drainage of Wildwood Canyon along its entire extent; and (3) reinterpretation of the
          south end of the Chicken Hill Fault in the vicinity of Interstate Highway 10, including
          the recognition of a probable fault scarp that was obliterated by construction of the
          Highway right-of-way.
        Process_Date: 1995-1998
      Process_Step:
        Process_Description:
          Digital processing of Topographic Base Map

          The basemap image (yuc.tif) was prepared by scanning a scale-stable right-reading,
          blackline .007-mil clear-film positive of the U.S.  Geological Survey, 1:24,000-scale
          Yucaipa 7.5' quadrangle topographic map (1967, photorevised, 1980).  Scanning was done
          using an Anatech Eagle 4080 monochrome 800 dots-per-inch scanner at a resolution of 500
          dpi.  The raster scan was converted to a monochromatic image in ARC/INFO.  No elements of
          the base layer are attributed.  The base map is provided for reference only.
        Process_Date: 1996
      Process_Step:
        Process_Description:
          Digital Preparation of Geologic-map Information

          Geologic line and point data on scale-stable greenline chronoflex copies of the Yucaipa
          7.5' quadrangle were digitized and simultaneously converted to ARC/INFO coverages
          through the application and utilization of the graphical user interface ALACARTE
          developed by the USGS (Fitzgibbon, 1991; Fitzgibbon and Wentworth, 1991; Wentworth and
          Fitzgibbon, 1991) running on a Data General Aviion workstation.  The database
          subsequently was edited and tagged on a Sun SPARC20 computer system running Solaris v.
          2.4 and ARC/INFO v. 7.0.4 and v.  7.1.1.  Geologic point data were captured using
          ALACARTE and ARC/INFO v.7.0.4.

          CONTRIBUTIONS BY DATABASE EDITORS:

          Pamela M. Cossette - responsible for final geologic database editing, assembling the
          database and plot-file products, and production of metadata

          Bradley Jones - responsible for significant data capture

          Melinda C. Wright - responsible for geologic point-data capture and preliminary database
          editing

          Stephen A. Kennedy - responsible for initial database editing

          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.
        Process_Date: 1995-2000
      Process_Step:
        Process_Description:
          Observation-station coverage yuc_obs

          The coverage yuc_obs contains the locations of observation stations that the dataset
          authors used to describe geologic materials and geologic structures in the Yucaipa
          quadrangle.  Several kinds of observation stations are included:

          (1) Field observations made by the dataset authors.  These are represented by the
          author's name (e.g., Jonathan C.  Matti), and the station ID (e.g., JF, which represents
          J.C. Matti, notebook F);

          (2) Subsurface borings obtained by the California Department of Transportation at
          overpassing and underpassing right-of-ways along the Interstate and State Highway
          systems;

          (3) Subsurface borings obtained by the U.S. Geological Survey's Water Resources Division
          (WRD);

          (4) Subsurface borings obtained by various private geotechnical-engineering firms;

          (5) Soil-profile descriptions obtained by the Natural Resources and Conservation Service
          (Woodruff and Brock, 1980, sheet 10);

          Woodruff, G.A., and Brock, W.Z., 1980, Soil survey of San Bernardino County,
          southwestern part, California:  U.S.  Department of Agriculture, Soil Conservation
          Service, 64 p., scale 1:24,000.
        Process_Date: 1995-2000
      Process_Step:
        Process_Description:
          Preliminary metadata documentation for version 1.0 of the Yucaipa quadrangle geologic
          database was prepared by Pamela M.  Cossette using FGDCMETA.AML ver. 1.2 05/14/98 on
          ARC/INFO data set /gis_3/scamp/arccovers/sanber/yucaipa/yuc1216a.  The metadata has
          undergone several revisions as the Yucaipa 7.5' quadrangle data was refined.
        Process_Date: 2000
      Process_Step:
        Process_Description: Creation of original metadata record
        Process_Date: 20030827
        Process_Contact:
          Contact_Information:
            Contact_Organization_Primary:
              Contact_Organization: U.S. Geological Survey
              Contact_Person: Pamela M. Cossette
            Contact_Position: Geographer
            Contact_Address:
              Address_Type: mailing address
              Address:
                U.S. Geological Survey
                Room 202
                West 904 Riverside Avenue
              City: Spokane
              State_or_Province: Washington
              Postal_Code: 99201-1087
              Country: USA
            Contact_Voice_Telephone: 509-368-3123
            Contact_Facsimile_Telephone: 509-368-3199
            Contact_Electronic_Mail_Address: pcossette@usgs.gov
  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: 1484
      SDTS_Terms_Description:
        SDTS_Point_and_Vector_Object_Type: String
        Point_and_Vector_Object_Count: 4062
      SDTS_Terms_Description:
        SDTS_Point_and_Vector_Object_Type: GT-polygon composed of chains
        Point_and_Vector_Object_Count: 1485

  Spatial_Reference_Information:
    Horizontal_Coordinate_System_Definition:
      Planar:
        Map_Projection:
          Map_Projection_Name: Polyconic
          Polyconic:
            Longitude_of_Central_Meridian: -117.0625
            Latitude_of_Projection_Origin: 34.00
            False_Easting: 0.0
            False_Northing: 0.0
        Planar_Coordinate_Information:
          Planar_Coordinate_Encoding_Method: coordinate pair
          Coordinate_Representation:
            Abscissa_Resolution: 0.0027671901044
            Ordinate_Resolution: 0.0027671901044
          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:
        The ARC/INFO version of the digital geologic database of the Yucaipa 7.5'quadrangle
        consists of five coverages:
        >yuc_geo (geologic map units and linear geologic entities)
        >yuc_pts (geologic point features)
        >yuc_obs (distribution of data stations)
        >yuc_ptsorn (geologic line ornamentation)
        >yuc_ldr (map-unit label leaders).
        Three additional INFO tables are included in the data set:
        yuc_summ.rel (provides general information about each geologic-map unit, including
        general lithologic features, geologic age, and geologic origin which applies to all
        polygons of a specified map unit)

        lines.rel - (provides information about geologic features displayed as lines on the map.
        For a complete description of attributes in lines.rel, refer to USGS Open-File Report
        97-861: see Entity_and_Attribute_Detail_Citation)

        points.rel - (provides information about geologic features displayed as points on the
        map.  For a complete description of attributes in points.rel, refer to USGS Open-File
        Report 97-859: see Entity_and_Attribute_Detail_Citation)

        1)  The coverage yuc_geo contains information about geologic-map units (represented by
        polygons) and planar geologic features that bound or break them (e.g. geologic contacts
        and faults) represented by lines.  The polygons have cartographic and geologic
        attributes contained in yuc_geo.pat; the lines have cartographic and geologic attributes
        contained in yuc_geo.aat.  For display purposes, the geology coverage contains two
        annotation subclasses: geo contains unit labels, and fault contains formal fault names.

        2)  The coverage yuc_pts contains analyzable structural data, including information that
        describes the types and orientation of planar and linear geologic features such as
        bedding, foliation, fault-plane dip, and fold-hinge plunge. One annotation subclass is
        included in the geologic points coverage which displays the respective dip and plunge
        values associated with individual point data.

        3)  The coverage yuc_obs contains point data that repesent the locality of data stations
        associated with multiple authors and sources, all of which have contributed geologic
        data.  The locality data represented in yuc_obs serves several purposes: (1) as a proxy
        for author confidence in unit identification, (2) as a means of identifying each
        author's contribution, and (3) as a means of identifying data from sources other than
        the USGS authors.  One annotation subclass, obs, identifies five particular locations:
        four Natural Resources Conservation Service (NRCS) soil profile description localities
        and one USGS Water Resource Division (WRD) well-log data locality.

        4)  The coverage yuc_ptsorn stores point data that represent ornamentation for geologic
        lines (e.g. strike slip arrows, bar and ball on down-thrown block, etc.)

        5)  The coverage yuc_ldr contains annotation leaders that point to unit labels that are
        placed outside the perimeter of a particular geologic polygon.  These cartographic line
        entities are attributed with only  a single attribute, L-SYMB, and all have the same
        value, 1.
      Entity_and_Attribute_Detail_Citation:
        A complete description of the polygon, line, and point data coding schemes is available
        in U.S. Geological Survey Open-File Reports OF-97-859, OF-97-860, and OF-97-861 (full
        source citations follow):

        Matti, J.C., Miller, F.K., Powell, R.E., Kennedy, S.A., Bunyapanasarn, T.P., Koukladas,
        Catherine, Hauser, R.M., and Cossette, P.M., 1997b, Geologic-point attributes for
        digital geologic-map databases produced by the Southern California Areal Mapping Project
        (SCAMP), Version 1.0: U.S.Geological Survey Open-File Report 97-859

        Matti, J.C., Miller, F.K., Powell, R.E., Kennedy, S.A., and Cossette, P.M., 1997c,
        Geologic-polygon attributes for digital geologic-map databases produced by the Southern
        California Areal Mapping Project (SCAMP), Version 1.0: U.S.Geological Survey Open-File
        Report 97-860

        Matti, J.C., Powell, R.E., Miller, F.K., Kennedy, S.A., Ruppert, K.R., Morton, G.L., and
        Cossette, P.M., 1997a, Geologic-line attributes for digital geologic-map databases
        produced by the Southern California Areal Mapping Project (SCAMP), Version 1.0:
        U.S.Geological Survey Open-File Report 97-861
    Detailed_Description:
      Entity_Type:
        Entity_Type_Label: yuc_geo.pat
        Entity_Type_Definition:
          Geologic units shown on geologic map in Postscript (.ps) and Portable Document
          Format (.pdf) files
      Attribute:
        Attribute_Label: TAG
        Attribute_Definition:
          A reference label for subgroups of polygons of the geologic-map unit identified by LABL.
          Every polygon subgroup has certain attributes in common with all other polygons of the map
          unit, but each subgroup has unique, distinguishing attributes that warrant recognition in
          the database although those distinguishing characteristics do not provide a basis for
          recognizing new map units (for example, geographic variations in properties such as grain
          size, thickness, and clast compositiion).

          TAG serves one additional purpose: it functions as the relate item that associates each
          polygon with its attributes stored in the polygon-attribute data table, YUC_SUMM.REL.

          TAG is defined as LABL followed by an upper-case letter, e.g., QwA, QwB, or QwC, etc.
          Most map units in the Yucaipa databse have only one TAG designation, TAG A; map units
          having polygon subsets representing characteristics sufficiently distinct from those of
          the overall unit include: Qw (QwA, QwB), Qf (QfA, QfB), Qya4 (Qya4A, Qya4B), Qya5
          (Qya5A, Qya5B), Qvof3 (Qvof3A, Qvof3B0, Tgr (TgrA, TgrB).

      Attribute:
        Attribute_Label: LABL
        Attribute_Definition: Geologic map unit label. Plain text is substituted for specialized geologic age symbols.
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Kao
            Enumerated_Domain_Value_Definition: Granodiorite of Angeles Oaks
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Kcc
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Monzogranite of City Creek
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzc
            Enumerated_Domain_Value_Definition: Diorite of Cram Peak
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzd
            Enumerated_Domain_Value_Definition: Diorite
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzfg
            Enumerated_Domain_Value_Definition: Foliated granitoid rock
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzg
            Enumerated_Domain_Value_Definition: Granitoid rock
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzga
            Enumerated_Domain_Value_Definition: Orthogneiss of Alger Creek
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzgr
            Enumerated_Domain_Value_Definition: Mesocratic granitoid rock
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzi
            Enumerated_Domain_Value_Definition: Inclusion-rich granitoid rock
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzmg
            Enumerated_Domain_Value_Definition: Mylonitic and cataclastic granitoid rock
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzmm
            Enumerated_Domain_Value_Definition: Mixed mafic rocks
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzpsg
            Enumerated_Domain_Value_Definition: Pelona Schist, greenstone unit
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Mzpsm
            Enumerated_Domain_Value_Definition: Pelona schist, muscovite schist
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: QTstu
            Enumerated_Domain_Value_Definition: San Timoteo beds of Frick (1921), upper member
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvya
            Enumerated_Domain_Value_Definition: Very young axial-valley deposits (latest Holocene)
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvyc
            Enumerated_Domain_Value_Definition: Very young colluvial deposits (latest Holocene)
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvyf
            Enumerated_Domain_Value_Definition: Very young alluvial-fan deposits (latest Holocene)
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvyls
            Enumerated_Domain_Value_Definition: Very young landslide deposits (latest Holocene)
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qoa1
            Enumerated_Domain_Value_Definition: Old axial-valley deposits, Unit 1
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qoa2
            Enumerated_Domain_Value_Definition: Old axial-valley deposits, Unit 2
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qoa3
            Enumerated_Domain_Value_Definition: Old axial-valley deposits, Unit 3
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qof
            Enumerated_Domain_Value_Definition: Old alluvial-fan deposits
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qof1
            Enumerated_Domain_Value_Definition: Old alluvial-fan deposits, Unit 1
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qof2
            Enumerated_Domain_Value_Definition: Old alluvial-fan deposits, Unit 2
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qof3
            Enumerated_Domain_Value_Definition: Old alluvial-fan deposits, Unit 3
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qols
            Enumerated_Domain_Value_Definition: Old landslide deposits
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvoa3
            Enumerated_Domain_Value_Definition: Very old axial-valley deposits, Unit 3
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvof3
            Enumerated_Domain_Value_Definition: Very old alluvial-fan deposits, Unit 3
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvos
            Enumerated_Domain_Value_Definition: Very old surficial deposits, undifferentiated
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvyw
            Enumerated_Domain_Value_Definition: Very young wash deposits, active (latest Holocene)
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvyw1
            Enumerated_Domain_Value_Definition: Very young wash deposits, Unit 1 (latest Holocene)
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qvyw2
            Enumerated_Domain_Value_Definition: Very young wash deposits, Unit 2 (latest Holocene)
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qya
            Enumerated_Domain_Value_Definition: Young deposits of axial-valley floors
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qya1
            Enumerated_Domain_Value_Definition: Young axial-valley deposits, Unit 1
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qya3
            Enumerated_Domain_Value_Definition: Young axial-valley deposits, Unit 3
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qya4
            Enumerated_Domain_Value_Definition: Young axial-valley deposits, Unit 4
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qya5
            Enumerated_Domain_Value_Definition: Young axial-valley deposits, Unit 5
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qyf
            Enumerated_Domain_Value_Definition: Young alluvial-fan deposits
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qyf1
            Enumerated_Domain_Value_Definition: Young alluvial-fan deposits, Unit 1
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qyf2
            Enumerated_Domain_Value_Definition: Young alluvial-fan deposits, Unit 2
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qyf3
            Enumerated_Domain_Value_Definition: Young alluvial-fan deposits, Unit 3
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qyf4
            Enumerated_Domain_Value_Definition: Young alluvial-fan deposits, Unit 4
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qyf5
            Enumerated_Domain_Value_Definition: Young alluvial-fan deposits, Unit 5
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Qyls
            Enumerated_Domain_Value_Definition: Young landslide deposits
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Ta
            Enumerated_Domain_Value_Definition: Andesite to dacite
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Tgr
            Enumerated_Domain_Value_Definition: Granodiorite
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Tma
            Enumerated_Domain_Value_Definition: Mill Creek Formation of Gibson (1971), arkose unit
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Tmcp
            Enumerated_Domain_Value_Definition: Mill Creek Formation of Gibson (1971), Pelona Schist-bearing conglomerate unit
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Tmcv
            Enumerated_Domain_Value_Definition: Mill Creek Formation of Gibson (1971), volcanic-clast-bearing unit
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Tmm
            Enumerated_Domain_Value_Definition: Mill Creek Formation of Gibson (1971), mudrock unit
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Tms
            Enumerated_Domain_Value_Definition: Mill Creek Formation of Gibson (1971), sandstone unit
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Trm
            Enumerated_Domain_Value_Definition: Porphyritic monzogranite
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: Tw
            Enumerated_Domain_Value_Definition: Formation of Warm Springs Canyon
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: gg
            Enumerated_Domain_Value_Definition: Gneissose granitoid rock and gneiss
      Attribute:
        Attribute_Label: PLABL
        Attribute_Definition:
          Coded geologic map unit label used to generate plot labels using appropriate stratigraphic
          symbols. Geologic units having LABL Mzc, Mzd, Mzfg, Mzg, Mzga, Mzgg, Mzgr, Mzi, Mzmg,
          Mzmm, Mzpsg, Mzpsm, (Mesozoic), appear in the item PLABL as }c, }d etc.; unit label Trm
          (Triassic) appears as ^m,  in the item PLABL.  The replacement characters call up
          stratigraphic age symbols from the GeoAge Font Group.  Map unit labels will plot on
          derivative  map plots with appropriate stratigraphic symbols if PLABL is used as the
          source of unit labels.
      Attribute:
        Attribute_Label: SHDFIL
        Attribute_Definition: Polygon fill pattern from shadeset geology2.shd (included in the data package)
      Attribute:
        Attribute_Label: SHDPS
        Attribute_Definition:
          Polygon color from shadeset scamp2.shd (included in the data package) and used to generate
          the map plotfile
      Attribute:
        Attribute_Label: THICK
        Attribute_Definition: Thickness data for geologic unit (sedimentary and surficial), where relevant
      Attribute:
        Attribute_Label: NAME
        Attribute_Definition: Name of each geologic-map unit
      Attribute:
        Attribute_Label: UNIQUE
        Attribute_Definition:
          Allows for the description of geologic properties that are unique to a particular polygon
          or group of polygons
      Attribute:
        Attribute_Label: SOURCE
        Attribute_Definition:
          Allows identification of sources from which polygon data have been compiled other than the
          U.S. Geological Survey authors of this database
    Detailed_Description:
      Entity_Type:
        Entity_Type_Label: yuc_summ.rel
        Entity_Type_Definition:
          INFO table containing general information about each geologic-map unit, including
          lithologic features, geologic age, and geologic origin which applies to all polygons of a
          specified map unit.
      Attribute:
        Attribute_Label: TAG
        Attribute_Definition:
          The data-base item that relates polygon subgroups to their associated map unit identified
          in the polygon feature attribute table, yuc_geo.pat.
      Attribute:
        Attribute_Label: AGEMIN
        Attribute_Definition:
          The minimum age (youngest possible age) for a geologic-map unit. Data include mimimum
          estimates for (1) age of formation of sedimentary and igneous rocks and surficial
          materials, (2) metamorphic age for geologic materials that have been metamorphosed, (3)
          deformation age for geologic materials that have been deformed (folded, faulted,
          penetratively deformed, brecciated, fractured), and (4) age of alteration for stained and
          altered geologic materials.  Data is represented by coded entries (Matti and others,
          1997b).
      Attribute:
        Attribute_Label: AGEMAX
        Attribute_Definition:
          The maximum age (oldest possible age) for a geologic-map unit.  Data include maximum
          estimates for (1) age of formation of sedimentary and igneous rocks and surficial
          materials, (2) metamorphic age  for geologic materials that have been metamorphosed, (3)
          deformation age for geologic materials that have been deformed (folded, faulted,
          penetratively deformed, brecciated, fractured), and (4) age of alteration for stained and
          altered geologic materials.  Data is represented by coded entries (Matti and others,
          1997b).
      Attribute:
        Attribute_Label: AGECON
        Attribute_Definition:
          Indicates the basis for assigning a geologic age to a map unit and the confidence with
          which that age is assigned.  Data is represented by coded entries (Matti and others,
          1997b).
      Attribute:
        Attribute_Label: TYPE
        Attribute_Definition:
          Provides a hierarchical classification of the general lithologic types occurring in a
          geologic-map unit, including whether a particular map unit is a bedrock unit or a
          surficial unit.  Data is represented by coded entries (Matti and others, 1997b).
      Attribute:
        Attribute_Label: CLASS
        Attribute_Definition:
          Provides the stratigraphic classification of a rock unit in terms of the North American
          Code of Stratigraphic Nomenclature.  Data is represented by coded entries (Matti and
          others, 1997b).
      Attribute:
        Attribute_Label: SURFACE
        Attribute_Definition:
          Identifies geologic and geomorphic characteristics of the upper surface of surficial
          geologic units.  Data is represented by coded entries (Matti and others, 1997b).
      Attribute:
        Attribute_Label: ORIGIN
        Attribute_Definition:
          Provides coded information for the geologic origin of a map unit.  Data is represented by
          coded entries (Matti and others, 1997b).
    Detailed_Description:
      Entity_Type:
        Entity_Type_Label: yuc_geo.aat
        Entity_Type_Definition:
          Geologic lines, which include features such as faults, contacts, and terraces.  (A
          complete description of each line type is available in the data table, lines.rel.)
      Attribute:
        Attribute_Label: L-SYMB
        Attribute_Definition:
          Calls up the appropriate line symbol from the lineset geoscamp2.lin (included in the data
          package)
      Attribute:
        Attribute_Label: L-TAG
        Attribute_Definition:
          Consists of a character and numerical value e.g. C17 which allows the user to relate the
          line entity to its corresponding definition in the INFO table lines.rel.

          Geologic-line types in yuc_geo and their corresponding definitions in lines.rel include
          (abbreviated from Matti and others, 1997c):
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C18
            Enumerated_Domain_Value_Definition: .contact.landslide.location may not meet accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C26
            Enumerated_Domain_Value_Definition: .contact.landslide.crown scarp.location may not meet map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C29
            Enumerated_Domain_Value_Definition: .contact.sedimentary.location meets map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C30
            Enumerated_Domain_Value_Definition: .contact.sedimentary.location may not meet map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C32
            Enumerated_Domain_Value_Definition:
              .contact.sedimentary.location inferred beneath mapped covering unit.location may not meet
              map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C37
            Enumerated_Domain_Value_Definition: .contact.sedimentary.separates terraced alluvial units.  location meets accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C38
            Enumerated_Domain_Value_Definition:
              .contact.sedimentary.separates terraced alluvial units.  location may not meet accuracy
              standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C50
            Enumerated_Domain_Value_Definition: .contact.igneous.location may not meet accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C51
            Enumerated_Domain_Value_Definition: .contact.igneous.inferred.location may not meet accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: C99
            Enumerated_Domain_Value_Definition: .contact.igneous.scratch boundary
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: CL1
            Enumerated_Domain_Value_Definition: .cartographic line.map boundary
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F10
            Enumerated_Domain_Value_Definition: .fault.high-angle.normal slip.location observable.may not meet accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F178
            Enumerated_Domain_Value_Definition: .fault.low-angle.thrust slip.location observable.may not meet map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F180
            Enumerated_Domain_Value_Definition:
              .fault.low-angle.thrust slip.location inferred beneath mapped covering unit.may not meet
              map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F13
            Enumerated_Domain_Value_Definition: .fault.high-angle.unspecified slip.location inferred.may not meet map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F19
            Enumerated_Domain_Value_Definition: .fault.high-angle.unspecified slip.location observable.may not meet map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F2
            Enumerated_Domain_Value_Definition:
              .fault.high-angle.strike slip.right lateral.location observable.meets map accuracy
              standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F20
            Enumerated_Domain_Value_Definition:
              .fault.high-angle.strike slip.right lateral.location observable.may not meet accuracy
              standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F22
            Enumerated_Domain_Value_Definition: .fault.high-angle.normal slip.location observable.may not meet map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F23
            Enumerated_Domain_Value_Definition: .fault.high-angle.reverse slip.location observable.may not meet map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F4
            Enumerated_Domain_Value_Definition: .fault.high-angle.normal slip.location observable.meets map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F37
            Enumerated_Domain_Value_Definition:
              .fault.high-angle.unspecified slip.questionable existence.may not meet map accuracy
              standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F50
            Enumerated_Domain_Value_Definition: .fault.high-angle.strike slip.right lateral.scarp.meets map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F52
            Enumerated_Domain_Value_Definition: .fault.high-angle.normal slip.fault scarp.meets map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F53
            Enumerated_Domain_Value_Definition: .fault.high-angle.reverse slip.fault scarp.meets map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F58
            Enumerated_Domain_Value_Definition: .fault.high-angle.normal slip.fault scarp.location may not meet map accuracy standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F67N
            Enumerated_Domain_Value_Definition: .fault.high-angle.normal slip.fault scarp.identity questionable
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F67R
            Enumerated_Domain_Value_Definition: .fault.high-angle.normal slip.scarp.identity questionable
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F7
            Enumerated_Domain_Value_Definition:
              .fault.high-angle.unspecified slip.location observable.may not not meet map accuracy
              standard
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: F8
            Enumerated_Domain_Value_Definition:
              .fault.high-angle.strike slip.right lateral.location observable.may not meet map accuracy
              standard
      Attribute:
        Attribute_Label: L-AGECON
        Attribute_Definition: Indicates the confidence with which a geologic age has been assigned to each linear entity
      Attribute:
        Attribute_Label: L-NAME
        Attribute_Definition: Formal name, where applicable, of linear geologic features
      Attribute:
        Attribute_Label: L-UNIQUE
        Attribute_Definition:
          Allows for the description of attributes that are unique to a particular linear feature or
          segment of a feature, e.g.  faults having associated seismicity
      Attribute:
        Attribute_Label: L-SOURCE
        Attribute_Definition:
          Allows identification of sources other than the U.S.  Geological Survey authors of this
          SCAMP products from which line data have been compiled
      Attribute:
        Attribute_Label: L-AGEMAX
        Attribute_Definition:
          Coded statement of the maximum age (oldest age) estimated for geologic contacts and faults
          or for segments of such features
      Attribute:
        Attribute_Label: L-AGEMIN
        Attribute_Definition:
          Coded statement of the minimum age (youngest age) estimated for geologic contacts and
          faults or for segments of such features
    Detailed_Description:
      Entity_Type:
        Entity_Type_Label: yuc_pts.pat
        Entity_Type_Definition: Structural point data.

      Attribute:
        Attribute_Label: P-SYMB
        Attribute_Definition: Calls the point-type from the markerset geoscamp2.mrk (included in the data package)
      Attribute:
        Attribute_Label: P-TAG
        Attribute_Definition:
          Consists of a character(s) and numerical value e.g. FN42 which allows the user to relate
          the point entity to its corresponding definition in the INFO table points.rel.
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: B19
            Enumerated_Domain_Value_Definition: .bedding attitude.sedimentary.inclined.binocular observation
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: B2
            Enumerated_Domain_Value_Definition: .bedding attitude.sedimentary.inclined.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: B23
            Enumerated_Domain_Value_Definition: .bedding attitude.sedimentary.inclined.compiled data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: B4
            Enumerated_Domain_Value_Definition: .bedding attitude.sedimentary.vertical.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: B6
            Enumerated_Domain_Value_Definition: .bedding attitude.sedimentary.overturned.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: FC4
            Enumerated_Domain_Value_Definition: .fault dip direction
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: FN13
            Enumerated_Domain_Value_Definition: .foliation attitude.igneous.inclined.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: FN14
            Enumerated_Domain_Value_Definition: .foliation attitude.igneous.vertical.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: FN2
            Enumerated_Domain_Value_Definition: .foliation attitude.origin not determined.inclined.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: FN3
            Enumerated_Domain_Value_Definition: .foliation attitude.origin not determined.vertical.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: FN31
            Enumerated_Domain_Value_Definition: .foliation attitude.strain dominated.inclined.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: FN32
            Enumerated_Domain_Value_Definition: .foliation attitude.strian dominated.vertical.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: FN42
            Enumerated_Domain_Value_Definition: .foliation attitude.metamorphic.inclined.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: L1
            Enumerated_Domain_Value_Definition: .lineation.origin not determined.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: L14
            Enumerated_Domain_Value_Definition: .lineation.high-strain.crushed and streaked minerals.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: L17
            Enumerated_Domain_Value_Definition: .lineation.high-strain.aligned mineral grains.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: L19
            Enumerated_Domain_Value_Definition: .lineation.metamorphic.crushed and streaked minerals.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: L37
            Enumerated_Domain_Value_Definition: .lineation.minor-fold axis.geometry not determined.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: L40
            Enumerated_Domain_Value_Definition: .lineation.minor-fold axis.dextral rotation.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: L43
            Enumerated_Domain_Value_Definition: .lineation.minor-fold axis.kink band fold.original data
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: L59
            Enumerated_Domain_Value_Definition: .lineation. minor-fold axis. sinistral rotation. original data
      Attribute:
        Attribute_Label: P-SOURCE
        Attribute_Definition:
          Allows identification of all sources of geologic data represented in the Yucaipa geologic
          map database
      Attribute:
        Attribute_Label: P-UNIQUE
        Attribute_Definition:
          Allows for the description of attributes uniquely associated with a particular point datum
          location
      Attribute:
        Attribute_Label: P-AGECON
        Attribute_Definition: Indicates the confidence with which a geologic age is assigned to a point feature
      Attribute:
        Attribute_Label: P-DIP
        Attribute_Definition: Dip of planar point features
      Attribute:
        Attribute_Label: P-STRIKE
        Attribute_Definition: Azimuth strike of planar features
      Attribute:
        Attribute_Label: P-DIPDIR
        Attribute_Definition:
          Azimuthal direction of dip

          Note: To date, there is no other way to indicate to the user the cardinal direction of dip
          using the traditional convention (traditional geologic notation allows a quadrant
          designation following the dip value).
      Attribute:
        Attribute_Label: P-PLUNGE
        Attribute_Definition: Lineation plunge value
      Attribute:
        Attribute_Label: P-BEARING
        Attribute_Definition: Azimuthal direction of lineation bearing
      Attribute:
        Attribute_Label: P-AGEMIN
        Attribute_Definition:
          Coded statement of the minimum age (youngest age) estimated for geologic features
          represented by point data
      Attribute:
        Attribute_Label: P-AGEMAX
        Attribute_Definition:
          Coded statement of the maximum age (oldest age) estimated for geologic features
          represented by point data
    Detailed_Description:
      Entity_Type:
        Entity_Type_Label: yuc_obs.pat
        Entity_Type_Definition:
          Data that repesent the locality of data stations associated with multiple authors and
          sources
      Attribute:
        Attribute_Label: P-SYMB
        Attribute_Definition: Calls the point-type from the markerset geoscamp2.mrk (included in the data package)
      Attribute:
        Attribute_Label: P-TAG
        Attribute_Definition:
          Point tag which consists of a character(s) and numerical value; allows the user to relate
          the point entity to its corresponding definition in the data table, points.rel
      Attribute:
        Attribute_Label: P-SOURCE
        Attribute_Definition:
          Allows identification of sources from which point data have been compiled other than the
          U.S. Geological Survey authors of this product
      Attribute:
        Attribute_Label: P-UNIQUE
        Attribute_Definition:
          Allows for the description of attributes uniquely associated with a particular point datum
          location
      Attribute:
        Attribute_Label: P-STAT
        Attribute_Definition: Alphanumeric identification of a particular datum location
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: NRCS-SWSB-22
            Enumerated_Domain_Value_Definition: Natural Resources Conservation Service pit/soil profile description
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: NRCS-SWSB-14
            Enumerated_Domain_Value_Definition: Natural Resources Conservation Service pit/soil profile description
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: NRCS-SWSB-12
            Enumerated_Domain_Value_Definition: Natural Resources Conservation Service pit/soil profile description
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: NRCS-SWSB-23
            Enumerated_Domain_Value_Definition: Natural Resources Conservation Service pit/soil profile description
        Attribute_Domain_Values:
          Enumerated_Domain:
            Enumerated_Domain_Value: WRD-EP
            Enumerated_Domain_Value_Definition: USGS Water Resources Division well/well-log data
    Detailed_Description:
      Entity_Type:
        Entity_Type_Label: yuc_ptsorn.pat
        Entity_Type_Definition: Line ornamentation
      Attribute:
        Attribute_Label: P-SYMB
        Attribute_Definition: Calls the point-type from the markerset geoscamp2.mrk (included in the data package)
      Attribute:
        Attribute_Label: P-TAG
        Attribute_Definition:
          Point tag which consists of a character(s) and numerical value; allows the user to relate
          the point entity to its corresponding definition in the data table, points.rel
    Detailed_Description:
      Entity_Type:
        Entity_Type_Label: yuc_ldr.aat
        Entity_Type_Definition: Unit label annotation leaders
      Attribute:
        Attribute_Label: L-SYMB
        Attribute_Definition:
          Coded integer symbol (1) that calls up the apprporiate line symbol in lineset
          geoscamp2.lin
  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: CO
          Postal_Code: 80225
          Country: USA
        Contact_Voice_Telephone: 303-202-4700
        Contact_Facsimile_Telephone: 303-202-4693
    Resource_Description: USGS Open-File Report 03-301
    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 any particular purpose. The burden for determining 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 Yucaipa 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).
    Standard_Order_Process:
      Digital_Form:
        Digital_Transfer_Information:
          Format_Name: ARCE
          Format_Version_Number: 7.2.1
          Format_Information_Content: Geologic units and structural features
          File_Decompression_Technique: tar and gzip
          Transfer_Size: 2.1
        Digital_Transfer_Option:
          Online_Option:
            Computer_Contact_Information:
              Network_Address:
                Network_Resource_Name: http://pubs.usgs.gov/of/2003/0301/yuc.tar.gz
      Fees: none
  Metadata_Reference_Information:
    Metadata_Date: 20160610
    Metadata_Review_Date: 20040726
    Metadata_Contact:
      Contact_Information:
        Contact_Person_Primary:
          Contact_Person: Peter N Schweitzer
          Contact_Organization: USGS Midwest Area
        Contact_Position: Collection manager, USGS Geoscience Data Clearinghouse, http://geo-nsdi.er.usgs.gov/
        Contact_Address:
          Address_Type: mailing address
          Address:
            Mail Stop 954
            12201 Sunrise Valley Dr
          City: Reston
          State_or_Province: VA
          Postal_Code: 20192-0002
          Country: USA
        Contact_Voice_Telephone: 703-648-6533
        Contact_Facsimile_Telephone: 703-648-6252
        Contact_Electronic_Mail_Address: pschweitzer@usgs.gov
    Metadata_Standard_Name: Content Standard for Digital Geospatial Metadata
    Metadata_Standard_Version: FGDC-STD-001-1998
    Metadata_Access_Constraints: none
    Metadata_Use_Constraints: none