Description of data base for Open-File Report 03-294 Contents Introduction This pamphlet serves to introduce and describe the digital files that are included in this publication, available for downloading at http://geopubs.wr.usgs.gov. These data include both a set of Arc/Info geospatial databases containing geologic information and Adobe Acrobat PDF and PostScript plot files containing images of the geologic map sheets that includes text describing the geology of the area. For those solely interested in a paper plot of the maps, please see the section entitled "For Those Who Don't Use Digital Geologic Map Databases" below. In this digital Open-File Report, we have taken geologic data from state geologic maps to develop a series of digital maps. These maps are used to evaluate the parameters (or elements) that might be expected to influence ground-water regimes in different parts of the desert southwest United States. A total of fifteen elements are identified and plotted on seperate maps that can be combined (computer or manually) to show which elements are present in different parts of the region. Some areas may contain all fifteen elements, other areas many contain any number of combinations of the elements. The elements present a first approximation of what should be the expected hydrogeologic setting of a sub-area within the desert southwest. In addition to the element maps, five paleo-tectonic maps at varying time intervals in the Cenozoic are presented. These paleo- tectonic maps indicate where and when different physiographic landscapes existed from 55 Ma to present. For those who don't use digital geologic map databases For those interested in the digital geologic maps, but do not use an Arc/Info compatible Geographic Information System (GIS), we have provided two plotfile packages containing images of the database information. Each package contains a set of images of the 22 individual maps in this database. One package contains the images in Encapsulated PostScript format (EPS) and the other package contains images in Adobe Acrobat Portable Document format (PDF) (see sections "EPS plot files" and "PDF plot files" below). Those interested who have computer capability can access the plot packages in one of two ways described below (see section "Obtaining the digital database and plotfile packages"). Please note that the plot file packages do require PC DOS/Windows zip utilities to access the plot files. Therefore additional software, available free on the Internet, may be required to use the plot files (see section "Zip files"). In addition, the map and explanation sheets are large, and require large-format color plotters to produce a plot of the entire image, although smaller plotters can be used to plot portions of the images using the PDF plot files (see sections "EPS plot files" and "PDF plot files" below). Those without computer capability can obtain plots of the map files through USGS Map-On-Demand service for digital geologic maps (see section "Obtaining digital plots from USGS") or from an outside vendor (see section "Obtaining plots from an outside vendor"). Also, USGS has adopted version numbers for publications, similar to that used in the computer industry. Therefore, this publication may be revised and upgraded from time to time. See the section "Revisions and version numbers" for details on this policy. OF03-294 digital contents This publication includes three digital packages. The first is the EPS Plotfile Package, which consists of Encapsulated PostScript plot files of all 22 maps in this publication. The second is the PDF Plotfile Package, and contains the same plotfiles as the first package, but in Portable Document Format. The third is the Digital Database Package, and contains the geologic database itself, a Microsoft Excel spreadsheet of Table 1 and Federal Geographic Data Committee (FGDC) compliant metadata. EPS plotfile package This package contains the images described here in Encapsulated PostScript format (see below for more information on PostScript plot files): indexsheet.eps A EPS plottable file containing an image of the entire study area that includes all or parts of the states of Oregon, Idaho, California, Nevada, Utah, Arizona, New Mexico and Colorado. sheet1.eps A EPS plottable file containing an image of the hydrogeologic map of the southwestern United States. sheet2.eps A EPS plottable file containing an image of the unconsolidated alluvial deposits in the desert southwest United States. sheet3.eps A EPS plottable file containing an image of the older coarse- grained subsurface basin fill deposits in the desert southwest United States. sheet4.eps A EPS plottable file containing an image of the older fine- grained subsurface basin fill deposits in the desert southwest United States. sheet5.eps A EPS plottable file containing an image of the inferred distribution (surface and subsurface) of Cenozoic basaltic rocks. sheet6.eps A EPS plottable file containing an image of the inferred distribution (surface and subsurface) of Cenozoic non-basaltic volcanic rocks. sheet7.eps A EPS plottable file containing an image of the inferred distribution of crystalline rocks at depths of less than several kilometers. sheet8.eps A EPS plottable file containing an image of the areas in which pre-Cenozoic coarse to fine-grained siliceous rocks of variable thickness in the surface and subsurface can be expected. sheet9.eps A EPS plottable file containing an image of the areas in which pre-Cenozoic fine-grained siliceous rocks of variable thickness in the surface and subsurface can be expected. sheet10.eps A EPS plottable file containing an image of the areas in which Cenozoic and older carbonate rocks of variable thickness in the surface and subsurface can be expected. sheet11.eps A EPS plottable file containing an image of the areas with regional scale alteration related to mineral deposits in the desert southwest United States. sheet12.eps A EPS plottable file containing an image of the deep basins containing alluvium and low density rocks in the desert southwest United States. sheet13.eps A EPS plottable file containing an image of the symmetry of basins in the desert southwest United States. sheet14.eps A EPS plottable file containing an image of the Cenozoic collapse calderas in the desert southwest United States. sheet15.eps A EPS plottable file containing an image of the domains of regional tilt of Cenozoic strata in the desert southwest United States. sheet16.eps A EPS plottable file containing an image of the density of Quaternary faults in the desert southwest United States. sheet17.eps A EPS plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States for the early part of Paleogene time, 38-55 Ma. sheet18.eps A EPS plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States for the latter part of Paleogene time, 22-38 Ma. sheet19.eps A EPS plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States for the early part of Neogene time, 17-22 Ma. sheet20.eps A EPS plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States for the latter part of Neogene time, 8-17 Ma. sheet21.eps A EPS plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States, 0-8 Ma. PDF plotfile package This package contains the images described here in PDF format (see below for more information on PDF plot files): indexsheet.pdf A PDF plottable file containing an image of the entire study area that includes all or parts of the states of Oregon, Idaho, California, Nevada, Utah, Arizona, New Mexico and Colorado. sheet1.pdf A PDF plottable file containing an image of the hydrogeologic map of the southwestern United States. sheet2.pdf A PDF plottable file containing an image of the unconsolidated alluvial deposits in the desert southwest United States. sheet3.pdf A PDF plottable file containing an image of the older coarse- grained subsurface basin fill deposits in the desert southwest United States. sheet4.pdf A PDF plottable file containing an image of the older fine- grained subsurface basin fill deposits in the desert southwest United States. sheet5.pdf A PDF plottable file containing an image of the inferred distribution (surface and subsurface) of Cenozoic basaltic rocks. sheet6.pdf A PDF plottable file containing an image of the inferred distribution (surface and subsurface) of Cenozoic non-basaltic volcanic rocks. sheet7.pdf A PDF plottable file containing an image of the inferred distribution of crystalline rocks at depths of less than several kilometers. sheet8.pdf A PDF plottable file containing an image of the areas in which pre-Cenozoic coarse to fine-grained siliceous rocks of variable thickness in the surface and subsurface can be expected. sheet9.pdf A PDF plottable file containing an image of the areas in which pre-Cenozoic fine-grained siliceous rocks of variable thickness in the surface and subsurface can be expected. sheet10.pdf A PDF plottable file containing an image of the areas in which Cenozoic and older carbonate rocks of variable thickness in the surface and subsurface can be expected. sheet11.pdf A PDF plottable file containing an image of the areas with regional scale alteration related to mineral deposits in the desert southwest United States. sheet12.pdf A PDF plottable file containing an image of the deep basins containing alluvium and low density rocks in the desert southwest United States. sheet13.pdf A PDF plottable file containing an image of the symmetry of basins in the desert southwest United States. sheet14.pdf A PDF plottable file containing an image of the Cenozoic collapse calderas in the desert southwest United States. sheet15.pdf A PDF plottable file containing an image of the domains of regional tilt of Cenozoic strata in the desert southwest United States. sheet16.pdf A PDF plottable file containing an image of the density of Quaternary faults in the desert southwest United States. sheet17.pdf A PDF plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States for the early part of Paleogene time, 38-55 Ma. sheet18.pdf A PDF plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States for the latter part of Paleogene time, 22-38 Ma. sheet19.pdf A PDF plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States for the early part of Neogene time, 17-22 Ma. sheet20.pdf A PDF plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States for the latter part of Neogene time, 8-17 Ma. sheet21.pdf A PDF plottable file containing an image of the interpretative paleo-tectonic map of the southwest United States, 0-8 Ma. Digital database package This database package contains the geologic map database files for all 22 maps in this Open-File Report. The digital maps, or coverages, along with their associated INFO directory have been converted to uncompressed Arc/Info export files. Arc export files promote ease of data handling, and are usable by some Geographic Information Systems in addition to Arc/Info (see below for discussion of working with export files). Two of the digital maps contain Arc/Info shapefiles, which are not Arc/Info coverages, but behave similar to coverages. These files are stand-alone file types that can be exported from and imported into Arc/Info (see below for discussion of working with shapefiles). The Arc export files and the associated Arc/Info coverages, shapefiles and directories, as well as the additional digital material included in the database, are described below: ARC/INFO export file coverage Resultant Description of Coverage ------------- ----------- ----------------------------- studyarea1.e00 studyarea1/ The study area in the desert southwest United States. This coverage includes arcs and polygons. swlithologyc.e00 swlithologyc/ The hydrogeologic units derived from the geologic units of digital state geologic maps. This coverage includes arcs and polygons. unconsol1c.e00 unconsol1c/ The unconsolidated alluvial deposits in the desert southwest United States. This coverage includes arcs and polygons. lowbfsdscgl1c.e00 lowbfsdscgl1c/ The older coarse-grained subsurface basin fill deposits in the desert southwest United States. This coverage includes arcs and polygons. lowbfmudss1c.e00 lowbfmudss1c/ The older fine-grained subsurface basin fill deposits in the desert southwest United States. This coverage includes arcs and polygons. qczbasalt1c.e00 qczbasalt1c/ The inferred distribution (surface and subsurface) of Cenozoic basaltic rocks in the desert southwest United States. This coverage includes arcs and polygons. otherczvolc1c.e00 otherczvolc1c/ The inferred distribution (surface and subsurface) of Cenozoic non-basaltic volcanic rocks in the desert southwest United States. This coverage includes arcs and polygons. preczcrystl1c.e00 preczcrystl1c/ The inferred distribution of crystalline rocks at depths of less than several kilometers. This coverage includes arcs and polygons. preczsdscgl1c.e00 preczsdscgl1c/ The areas in which pre-Cenozoic coarse to fine-grained siliceous rocks of variable thickness in the surface and subsurface can be expected. This coverage includes arcs and polygons. preczchshss1c.e00 preczchshss1c/ The areas in which pre-Cenozoic fine-grained siliceous rocks of variable thickness in the surface and subsurface can be expected. This coverage includes arcs and polygons. preczcarb1c.e00 preczcarb1c/ The areas in which Cenozoic and older carbonate rocks of variable thickness in the surface and subsurface can be expected. This coverage includes arcs and polygons. mindeposits.e00 mindeposits/ The areas with regional scale alteration related to mineral deposits in the desert southwest United States. This coverage includes arcs and polygons. calderasc.e00 calderasc/ The Cenozoic collapse calderas in the desert southwest United States. This coverage contains arcs. basinaxes.e00 basinaxes/ The asymmetry of basins in the desert southwest United States. This coverage contains arcs. stewtiltc.e00 stewtiltc/ The domains of regional tilt direction of Cenozoic strata in the desert southwest United States. This coverage includes arcs and polygons. calk3855ma.e00 calk3855ma/ The areas of calc-alkaline volcanic rocks in the southwest United States for the early part of Paleogene time, 38-55 Ma. This coverage includes arcs and polygons. calk2238ma.e00 calk2238ma/ The areas of calc-alkaline volcanic rocks in the southwest United States for the latter part of Paleogene time, 22-38 Ma. This coverage includes arcs and polygons. calk1722ma.e00 calk1722ma/ The areas of calc-alkaline volcanic rocks in the southwest United States for the early part of Neogene time, 17-22 Ma. This coverage includes arcs and polygons. calk17ssmalw.e00 calk17ssmalw/ The areas of fault-bounded basins in the southwest United States for the early part of Neogene time, 17-22 Ma. This coverage includes arcs and polygons. basalt817ma.e00 basalt817ma/ The areas of basaltic rocks and the Cascade volcanic arc in the southwest United States for the latter part of Neogene time, 8-17 Ma. This coverage includes arcs and polygons. basalt817malw.e00 basalt817malw/ The area of fault-bounded basins and the Rio Grande Rift in the southwest United States for the latter part of Neogene time, 8-17 Ma. This coverage includes arcs and polygons. basalt08ma.e00 basalt08ma/ The areas of basaltic rocks and the Cascade volcanic arc in the southwest United States, 0-8 Ma. This coverage includes arcs and polygons. basalt08malw.e00 basalt08malw/ The areas of fault-bounded basins, aggraded plains, alluvial basins and the Rio Grande Rift in the southwest United States, 0-8 Ma. This coverage includes arcs and polygons. ARC/INFO Associated shapefile Arc/Info files Description of Coverage ------------- ----------------- ----------------------------- basincont1k.shp basincont1k.shx The contour lines of basin depth at 1 basincont1k.sbn kilometer intervals for the desert southwest basincont1k.sbx United States. This file has other associated basincont1k.dbf Arc/Info files necessary to convert from a basincont1k.prj shapefile to an Arc coverage. nmcont1k.shp nmcont1k.shx The contour lines of basin depth at 1 nmcont1k.sbn kilometer intervals for New Mexico. This nmcont1k.sbx file has other associated Arc/Info files nmcont1k.dbf necessary to convert from a shapefile to an nmcont1k.prj Arc coverage. qfdensity005.shp qfdensity005.shx The contour lines of Quaternary fault qfdensity005.sbn density at 0.005 km/km2 intervals for the qfdensity005.sbx desert southwest United States. This file has qfdensity005.dbf other associated Arc/Info files necessary to qfdensity005.prj convert from a shapefile to an Arc coverage. The database also includes the following Arc coverages and files: ARC/INFO Resultant Description of Coverage export file coverage ------------- ----------- ----------------------------- latlonlines.e00 latlonlines/ Latitude and longitude lines at 4 degree intervals for all 22 digital maps. This coverage contains lines. latlontics.e00 latlontics/ Cross-hair tic marks between latitude and longitude lines for all 22 digital maps. This coverage contains lines. states_alb.e00 states_alb/ State boundaries for all 50 states and includes the U.S. Virgin Islands. This coverage includes lines and polygons. PDF files, ASCII text files, Microsoft Excel spreadsheet file, and ASCII text files of Federal Geographic Data Committee (FGDC) compliant metadata files: of03-294.pdf A PDF file of a pamphlet describing the digital and scientific results of this publication, OF03-294. readme.txt ASCII text file of a pamphlet describing the digital database contents of this publication, OF03-294 (this file). table1.xls A Microsoft Excel spreadsheet file of Table 1 in this publication, OF03-294. studyarea1.met A text-only file of publication level FGDC compliant metadata for the study area in the desert southwest United States. swlithologyc.met A text-only file of publication level FGDC compliant metadata for the hydrogeologic units derived from the geologic units of digital state geologic maps. unconsol1c.met A text-only file of publication level FGDC compliant metadata for the unconsolidated alluvial deposits in the desert southwest United States. lowbfsdscgl1c.met A text-only file of publication level FGDC compliant metadata for the older coarse-grained subsurface basin fill deposits in the desert southwest United States. lowbfmudss1c.met A text-only file of publication level FGDC compliant metadata for the older fine-grained subsurface basin fill deposits in the desert southwest United States qczbasalt1c.met A text-only file of publication level FGDC compliant metadata for the inferred distribution (surface and subsurface) of Cenozoic basaltic rocks in the desert southwest United States. otherczvolc1c.met A text-only file of publication level FGDC compliant metadata for the inferred distribution (surface and subsurface) of Cenozoic non-basaltic volcanic rocks in the desert southwest United States. preczcrystl1c.met A text-only file of publication level FGDC compliant metadata for the inferred distribution of crystalline rocks at depths of less than several kilometers. preczsdscgl1c.met A text-only file of publication level FGDC compliant metadata for the areas in which pre-Cenozoic coarse to fine-grained siliceous rocks of variable thickness in the surface and subsurface can be expected. preczchshss1c.met A text-only file of publication level FGDC compliant metadata for the areas in which pre-Cenozoic fine-grained siliceous rocks of variable thickness in the surface and subsurface can be expected. preczcarb1c.met A text-only file of publication level FGDC compliant metadata for the areas in which Cenozoic and older carbonate rocks of variable thickness in the surface and subsurface can be expected. mindeposits.met A text-only file of publication level FGDC compliant metadata for the areas with regional scale alteration related to mineral deposits in the desert southwest United States. calderasc.met A text-only file of publication level FGDC compliant metadata for the Cenozoic collapse calderas in the desert southwest United States. basinaxes.met A text-only file of publication level FGDC compliant metadata for the symmetry of basins in the desert southwest United States. stewtiltc.met A text-only file of publication level FGDC compliant metadata for the domains of regional tilt of Cenozoic strata in the desert southwest United States. calk3855ma.met A text-only file of publication level FGDC compliant metadata for the areas of calc-alkaline volcanic rocks in the southwest United States for the early part of Paleogene time, 38-55 Ma. calk2238ma.met A text-only file of publication level FGDC compliant metadata for the areas of calc-alkaline volcanic rocks in the southwest United States for the latter part of Paleogene time, 22-38 Ma. calk1722ma.met A text-only file of publication level FGDC compliant metadata for the areas of calc-alkaline volcanic rocks in the southwest United States for the early part of Neogene time, 17-22 Ma. calk17ssmalw.met A text-only file of publication level FGDC compliant metadata for the areas of fault-bounded basins in the southwest United States for the early part of Neogene time, 17-22 Ma. basalt817ma.met A text-only file of publication level FGDC compliant metadata for the areas of basaltic rocks and the Cascade volcanic arc in the southwest United States for the latter part of Neogene time, 8-17 Ma. basalt817malw.met A text-only file of publication level FGDC compliant metadata for the area of fault-bounded basins and the Rio Grande Rift in the southwest United States for the latter part of Neogene time, 8-17 Ma. basalt08ma.met A text-only file of publication level FGDC compliant metadata for the areas of basaltic rocks and the Cascade volcanic arc in the southwest United States, 0-8 Ma. basalt08malw.met A text-only file of publication level FGDC compliant metadata for the areas of fault-bounded basins, aggraded plains, alluvial basins and the Rio Grande Rift in the southwest United States, 0-8 Ma. basincont1k.met A text-only file of publication level FGDC compliant metadata for the contour lines of basin depth at 1 kilometer intervals for the desert southwest United States. nmcont1k.met A text-only file of publication level FGDC compliant metadata for the contour lines of basin depth at 1 kilometer intervals for New Mexico. qfdensity005.met A text-only file of publication level FGDC compliant metadata for the contour lines of Quaternary fault density at 0.005 km/km2 intervals for the desert southwest United States. The following supporting directory is not included in the database package, but is produced in the process of reconverting the export files into Arc coverages: info/ INFO directory containing files supporting the databases. Zip files The three data packages described above are stored in zip (DOS/Windows compression format) files. A zip utility is required to extract the data from the zip file. This utility is included in most PC systems, and can be obtained for a variety of platforms free of charge over the Internet from Internet Literacy's Common Internet File Formats Webpage: http://www.matisse.net/files/formats.html The zip file itself is slightly compressed and when the archived files are extracted the zip file is automatically uncompressed. Winzip for PC Windows and Zip It for Macintosh computers, are both decompression utilities available free of charge at the following websites: (http://www.awa.com/softlock/zipit/zipit.html) - Zip It file decompression for Macintosh (ftp://ftp.cdrom.com/pub/cica/win3/util/) - WinZip file decompression for PC Windows When the zip file is uncompressed and the data from the zip file is extracted, the files can be put in a directory of the user's choice. The specifics of the zip files are listed below: Name of Size of Data package compressed compressed contained zip file zip file (uncompressed) -------------- ------------------- ------------------ of03-294ps.zip 20 MB (260 MB) EPS plotfile package of03-294pdf.zip 12 MB (13 MB) PDF plotfile package of03-294db.zip 27 MB (108 MB) Digital database package EPS plot files For those interested in the geologic data for this publication, but don't use an Arc/Info compatible GIS system we have included a separate data package with 22 PostScript plot files. Of the 22 files, the first 15 files after the index file (index.eps) and the sheet1 file (sheet1.eps) are related to the 15 element maps described earlier in this pamphlet (see Introduction section above). These 15 map files can be divided into five groups related to geologic parameters. [1] unconsolidated younger sediments and sedimentary rocks, mostly of Cenozoic age (Sheet 2, Sheet 3, Sheet 4, sheet2.eps, sheet3.eps, sheet4.eps); [2] lithified material including basaltic rocks of Cenozoic age (Sheet 5, sheet5.eps), other types of volcanic rocks of Cenozoic age (Sheet 6, sheet6.eps), crystalline rocks including granitoids, gneisses and schists of any age but mostly older than Cenozoic (Sheet 7, sheet7.eps), siliceous and carbonate rocks mostly of pre-Cenozoic age (Sheet 8, Sheet 9, Sheet 10, sheet8.eps, sheet9.eps, sheet10.eps); [3] regional alteration (Sheet 11, sheet11.eps); [4] basins with a variety of unlithified and lithified fill (Sheet 12, Sheet 13, sheet12.eps, sheet13.eps); [5] tectonic-structural features (Sheet 14, Sheet 15, Sheet 16, sheet14.eps, sheet15.eps, sheet16.eps). The last five map files are related to the paleo-tectonic maps as described earlier in this pamphlet (see Introduction section above). These 6 map files correspond to Sheets 17-21 in this publication (sheet17.eps, sheet18.eps, sheet19.eps, sheet20.eps, sheet21.eps). These interpretative maps show the most recent geologic history of the southwestern U.S. at varying time intervals in the Cenozoic. The PostScript image for all 22 digital maps (index.eps, sheet1.eps to sheet21.eps) are at 1:2,000,000 scale and set for 34 inches wide by 44 inches high plot size, so it requires a large plotter to produce paper copies at the intended scale. Therefore, the paper must be at least 36 inches wide to correctly output these hardcopy maps. The PostScript plotfiles were produced in ArcMap (part of ArcGIS, Arc/Info version 8.2) by printing the finished maps to a Encapsulated PostScript file. PDF plot files A second plot package contains PDF versions of the 22 EPS map sheets. Adobe Acrobat PDF (Portable Document Format) files are similar to EPS plot files in that they contain all the information needed to produce a paper copy of a map or pamphlet and they are platform independent. Their principle advantage is that they require less memory to store and are therefore quicker to download from the Internet. In addition, PDF files allow for relatively easy printing of portions of a map image on a printer smaller than that required to print the entire map without the purchase of expensive additional software. All PDF files in this report have been created from EPS plot files using Adobe Acrobat Distiller. In test plots we have found that paper maps created with PDF files contain almost all the detail of the maps created with PostScript plot files. We would, however, recommend that those users with the capability to print the large PostScript plot files to do so in preference to the PDF files. To use the PDF files, the user must download and install a copy of Adobe Acrobat Reader. This software is available free of charge from the Adobe website (http://www.adobe.com). Please follow the instructions given at the website for installation. Once installed, the Acrobat Reader software contains an on-line manual and tutorial. There are two ways to use Acrobat Reader in conjunction with the Internet. One is to use the PDF reader plug-in with your Internet browser. This allows for interactive viewing of PDF file images within your browser. This is a very handy way to quickly look at PDF files without downloading them to your hard disk. The second way is to download the PDF file to your local hard disk, and then view the file with Acrobat Reader. We strongly recommend that large map images be handled by downloading to your hard disk, because viewing them within an Internet browser tends to be very slow. To print a smaller portion of a PDF map image using Acrobat Reader, it is necessary to cut out the portion desired using Acrobat Reader and the standard cut and paste tools for your platform, and then to paste the portion of the image into a file generated by another software program that can handle images. Most word processors (such as Microsoft Word) will suffice. The new file can then be printed. Image conversion in the cut and paste process, as well as changes in the scale of the map image, may result in loss of image quality. Test plots of a converted image, however, have proven adequate in most cases. Software designed to handle images (Photoshop, Illustrator) do a better job. Obtaining the Digital Database and Plotfile Packages The digital data can be obtained in either of two ways: 1. From the USGS Western Region Publications Group Webpage 2. Request for a CD-ROM disk (limited quantities available) To obtain the Plotfile or Digital Database packages from the USGS website: The U.S. Geological Survey supports a set of graphical pages on the World Wide Web. Digital publications (including this one) can be accessed via these pages. The location of the main Web page for the entire USGS is http://www.usgs.gov The web server for digital publications from the Western Region is http://geopubs.wr.usgs.gov or goto http://geopubs.wr.usgs.gov/open-file/of03-294 to access this publication. Besides providing easy access to the entire digital database, this Web page also affords easy access to the PostScript and PDF plot files for those who do not use digital databases (see below). To obtain the Plotfile or Digital Database packages on a CD-ROM disk: The two Plotfile packages and Digital Database package can be obtained by sending a request (postal or electronic mail) with return address to: Geologic Database of the Desert southwest United States U.S. Geological Survey 345 Middlefield Road, MS 975 Menlo Park, CA 94025 Attn: Edwin H. McKee Do not omit any part of this address! Please send e-mail requests to: mckee@usgs.gov NOTE: Individual files cannot be sent on CD-ROM. Please access these files via the USGS website listed above. Obtaining plots from a commercial vendor Those interested in the geologic data of the desert southwest United States, but do not use a computer or the Internet, can still obtain the information. We will provide the PostScript or PDF plot files on a CD-ROM dismapping, or other improvements, will be integrated into this publication. Rather than releasing an entirely new publication, the USGS has adopted a policy of using version numbers similar to that used in the computer industry. The original version of all publications will be labeled Version 1.0. Subsequent small revisions will be denoted by the increase of the numeral after the decimal, while large changes will be denoted by increasing the numeral before the decimal. Pamphlets and map products will be clearly marked with the appropriate version number. Information about the changes, if any, that have been made since the release of Version 1.0 will be listed in the publication revision file. This file will be available at the publication web site (see above), and will also be included in the digital database package. A simplified version of the revision list will be included in the publication metadata. Digital database format The databases in this publication were compiled in Arc/Info, a commercial Geographic Information System produced by Environmental Systems Research Institute, Redlands, California (ESRI), with version 3.1 of the menu interface ALACARTE (Fitzgibbon and Wentworth, 1991; Fitzgibbon, 1991; Wentworth and Fitzgibbon, 1991) and ArcGIS Version 8.2 for the PC Windows operating system. The files are in COVERAGE (Arc/Info vector data) format or Shapefile (Arc/Info vector data) format. Coverages are stored in uncompressed Arc export format (Arc/Info version 7.x). Arc export files (.e00 extension) can be converted into Arc coverages in Arc/Info (see below) and can be read by some other Geographic Information Systems, such as MapInfo via ArcLink and ESRI's ArcView (free limited version for PC Windows from ESRI's website: http://www.esri.com). Arc shapefiles (.shp extension) come with 5 other files with the same filename, but diferent extensions (.shx, .sbn, .sbx, .dbf, .prj). The principle shapefile (with .shp extension) can be used much like a coverage in Arc/Info, but one must remember the file is not a coverage nor is it part of any coverage. These files do not contain any topological information such as that found in Arc coverages. Shapefiles, however, can be converted into a coverage in ArcGIS, using the ArcToolBox interface. The digital compilation was done in two operating system environments. In the UNIX environment, Arc/Info version 7.2.1 with version 3.1 of the menu interface ALACARTE (Fitzgibbon and Wentworth, 1991; Fitzgibbon, 1991; Wentworth and Fitzgibbon, 1991) was used. In the PC Windows environment, ArcGIS version 8.2 along with the full workstation suite of tools such as GRID, TIN, etc was used. Converting Arc export files Arc export files are converted to Arc coverages using the Arc command IMPORT with the option COVER. Arc export files can also be read by some other Geographic Information Systems. Please consult your GIS documentation to see if you can use Arc export files and the proceedure to import them. Digital compilation The geologic data was collected and developed from a variety of sources: digital GIS datasets available at USGS or other spatial database-related websites, digital files acquired from scientists within the USGS, and digitizing of mapped features on mylar or paper maps. Details of the original digital GIS datasets or other digital files can be found in the various FGDC compliant metadata included in the Digital Database package. The digitized maps were done on a CalComp digitizing table and then transformed from digitizing cooridnates to projection coordinates with digital tics placed by hand at known locations on the earth, such as the intersection of latitude and longitude coordinates. Spatial resolution Use of this digital geologic data should not violate the spatial resolution of the data. Although the digital form of the data removes the constraint imposed by the scale of a paper map, the detail and accuracy inherent in map scale are also present in the digital data. This dataset was edited at a scale of 1:2,000,000 and although higher resolution information was used in the interpretation of some of the maps, the intended use for these maps is at the 1:2,000,000 regional scale. Plotting at scale larger than 1:2,000,000 will not yield greater detail, although it may reveal fine-scale irregularities below the intended resolution of the database. Similarly, where this database is used in combination with other data of higher resolution, the resolution of the combined output will be limited by the lowest resolution of these data. Database specifics What follows is a brief and simple description of the databases included in this report and the data in them. For a comprehensive look at the database structure and content, please see the FGDC metadata files (.met extension), included in the database package and available separately at the publication web page. The map databases consist of Arc coverages, shapefiles and supporting INFO files, which are stored in a Albers (Albers Conical Equal Area) projection (Table 1). Table 1. Map Projection PROJECTION ALBERS UNITS METERS DATUM NAD27 (North American Horizontal Datum of 1927) SPHEROID CLARKE1866 (Arc/Info default) PARAMETERS 1st standard parallel 29 30 00 2nd standard parallel 45 30 00 central meridian -96 0 0 latitude of projection's origin 23 0 0 false easting (meters) 0 flase northing (meters) 0 The content of the geologic database can be described in terms of the lines and areas that compose the map. Descriptions of the database fields use the terms explained in Table 2. Table 2. Field Definition Terms ITEM NAME name of the database field (item) WIDTH maximum number of digits or characters stored OUTPUT output width TYPE B-binary integer, F-binary floating point integer, I-ASCII integer, C-ASCII character string, N-number with decimal places N. DEC. number of decimal places maintained for floating point numbers Lines The lines (arcs) are recorded as strings of vectors and are described in the arc attribute table (an example of the format of arc attribute tables is shown in Table 3). They define the boundaries of the mapped features and the map boundaries. The first seven items in the "item name" column of any line coverage in Arc/Info are defined by the GIS software. Any items after the first seven are usually user-defined attribute items for particular lines or all lines in the coverage. These items are typically explained in the FGDC metadata files associated with each coverage and will not be described here. Table 3. Example content of an Arc Attribute Table ITEM NAME WIDTH OUTPUT TYPE N. DEC FNODE# 4 5 B arc starting node (from node) TNODE# 4 5 B arc ending node (to node) LPOLY# 4 5 B polygon to the left of the arc RPOLY# 4 5 B polygon to the right of the arc LENGTH 4 12 F 3 length of arc in meters # 4 5 B unique internal control number -ID 4 5 B unique identification number Areas The areas (polygons) are regions enclosed by lines and are described in the polygon attribute table (an example of the format of polygon attribute tables is shown in Table 4). Arc/Info coverages cannot contain both point and polygon information, so only coverages with polygon information will have a polygon attribute table, and these coverages will not have a point attribute table. The first four items in the "item name" column of any polygon coverage in Arc/Info are defined by the GIS software. Any items after the first four are usually user-defined attribute items for particular polygons or all polygons in the coverage. These items are typically explained in the FGDC metadata files associated with each coverage and will not be described here. Table 4. Example content of a Polygon Attribute Table ITEM NAME WIDTH OUTPUT TYPE N. DEC AREA 4 12 F 3 area of polygon in sq. meters PERIMETER 4 12 F 3 length of perimeter in meters # 4 5 B unique internal control number -ID 4 5 B unique identification number Acknowledgments The authors are grateful to the following USGS scientists (current and emeritus) for their input in developing the maps and scientific content for this publication: R.C. Jachens, D. Sweetkind, F.A. D'Agnese, J.M. Harrill, J.R. Bartolino. In particular, the authors are grateful to R.C. Jachens for providing the raster data of gravity-derived depth to Cenozoic basement in the southwest United States. This dataset was instrumental in terms of understanding basin geometry and shape that are portrayed in the maps of this publication. The first author would like to acknowledge A.D. Konieczki and J.A. Rees of the USGS Water Resources Division in Tucson, AZ for their help in gathering and providing digital datasets in the early stages of this publication. Thanks also to D. Bedford (USGS) for providing the digital state geologic map units of California, Nevada, and Utah and to V.E. Langenheim (USGS) for providing the digital Quaternary fault datasets used to make map sheet 16. The first author would also like to thank M. Diggles, R. Graymer and D. Bedford of USGS-Menlo Park, CA for their advice on metadata development and presentation. References Cited Fitzgibbon, T.T., 1991, ALACARTE installation and system manual (version 1.0): U.S. Geological Survey Open-File Report 91-587-B. 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- 587-A. Wentworth, C.M., and Fitzgibbon, T.T., 1991, ALACARTE user manual (version 1.0): U.S. Geological Survey Open-File Report 91-587-C. References Cited in FGDC-compliant Metadata files Anderson, O.J., and Jones, G.E., 1997, The digital geologic map of New Mexico: New Mexico Bureau of Mines and Geology Open-File Report 97-52, Scale 1:500000. Black, B.D., Hecker, S., Hylland, M.D., Christenson, G.E., and McDonald, G.N., 2003, Quaternary fault and fold database and map of Utah: Utah Geological Survey Open- File Report 98-521, Scale 1:500000. Dohrenwend, J.C., Schell, B.A., Menges, C.M., Moring, B.C., and McKittrick, M.A., 1996, Reconnaisance photogeologic map of young (Quaternary and late-Tertiary) faults in Nevada: Nevada Bureau of Mines and Geology Open-File Report 96-2, p. 9-1 to 9- 12. Fenneman, N.M., 1931, Physiography of western United States: McGraw-Hill, New York, 534 pp. Fenneman, N.M., 1946, Physical divisions of the United States: U.S. Geological Survey, Scale 1:7000000. Green, G.N., 1992, The digital geologic map of Colorado: U.S. Geological Survey Open- File Report 92-507, Scale 1:500000. Grubensky, M.J., and Bagby, W.C., 1990, Miocene calc-alkaline magmatism, calderas, and crustal extension in the Kofa and Castle Dome mountains, southwestern Arizona: Journal of Geophysical Research, v. 95, p. 19989-20003. Hintze, L.F., Willis, G.C., Laes, D.Y.M., Sprinkel, D.A., and Brown, K.D., 2000, Digital geologic map of Utah: Utah Geological Survey, 179DM (CD-ROM), Scale 1:500000. Hirschberg, D.M., and Pitts, G.S., 2000, Digital Geologic Map of Arizona: A Digital Database derived from the 1983 printing of the Wilson, Moore, and Cooper 1:500,000- scale map: Arizona Geological Survey Open-File Report 00-409, Scale 1:500000. Jachens, R.C., and Moring, B.C., 1996, Thickness of Cenozoic deposits and the isostatic residual gravity over basement: Nevada Bureau of Mines and Geology Open-File Report 96-2, p. 2-1 to 2-10. Jennings, C.W., 1994, Fault activity map of California and adjacent area, with locations and ages of recent volcanic eruptions: California Division of Mines and Geology Geologic Data Map no.6, Scale 1:750000. Johnson, B.R., and Raines G.L., 1995, Digital representation of the Idaho state geologic map: A contribution to the Interior Columbia River Basin Ecosystem Management Project: U.S. Geological Survey Open-File Report 95-690, Scale 1:500000. Long, K.R., DeYoung, J.H., and Ludington, S.D., 1998, Significant deposits of gold, silver, copper, lead, and zinc in the United States: U.S. Geological Survey Open-File Report 98-206B (diskette). Ludington, S., Cox, D.P., Leonard, K.W., and Moring, B.C., 1996, Ceozoic volcanic geology of Nevada: Nevada Bureau of Mines and Geology Open-File Report 96-2, p. 5- 1 to 5-10. Luedke, R.G., 1993, Map showing distribution, composition, and age of early and middle Cenozoic volcanic centers in Arizona, New Mexico, and west Texas: U.S. Geological Survey Misc-Invest. Map 2291-A, Scale 1:1000000. Luedke, R.G., 1993, Map showing distribution, composition, and age of early and middle Cenozoic volcanic centers in Colorado and Utah: U.S. Geological Survey Misc-Invest. Map 2291-B, Scale 1:1000000. Luedke, R.G., and Smith, R.L., 1981, Map showing distribution, composition, and age of late Cenozoic volcanic centers in California and Nevada: U.S. Geological Survey Misc- Invest. Map 1091-C, Scale 1:1000000. Luedke, R.G., and Smith, R.L., 1982, Map showing distribution, composition, and age of late Cenozoic volcanic centers in Oregon and Washington: U.S. Geological Survey Misc-Invest. Map 1091-D, Scale 1:1000000. Machette, M.N., Personius, S.F., Kelson, K.I., Haller, K.M., and Dart, R.L., 1998, Map and database of Quaternary faults and folds in New Mexico: U.S. Geological Survey Open-File Report 98-521, Scale 1:750000. McCurry, M., 1982, The geology of a late Miocene silicic volcanic center in the Woods and Hackberry Mountains area of the eastern Mojave Desert, San Bernadino County, California: Mesozoic-Cenozoic tectonic evolution of the Colorado River region, California, Arizona, and Nevada (Anderson-Hamilton volume), Cordilleran Publishers, p. 433-440. Nakata, J.K., Wentworth, C.M., and Machette, M.N., 1982, Quaternary fault map of the Basin and Range and Rio Grande Rift province, western United States: U.S. Geological Survey Open-File Report 82-579, Scale 1:2500000. Pearthree, P.A., 1999, Quaternary fault data and map of Arizona: Arizona Geological Survey Open-File Report 98-24, Scale 1:750000. Saucedo, G.J., Bedford, D.R., Raines, G.L., Miller, R.J., and Wentworth, C.M., 2000, GIS data for the geologic map of California (version 2.0): California Department of Mines and Geology, 2000-007 (CD-ROM), Scale 1:750000. Stewart, J.H., Carlson, J.E., Raines, G.L., Connors, K.A., Moyer, L.A., and Miller, R.J., 2003, Spatial database for the geologic map of Nevada: U.S. Geological Survey Open- File Report 03-XXX, Scale 1:500000. Stewart, J.H., and 19 additional co-authors, 1998, Map showing Cenozoic tilt domains and associated structural features, western North America (Plate 1): Geological Society of America Special Paper 323, Scale 1:5000000. Thorson, J.P., 1971, Igneous petrology of the Oatman district, Mohave county, AZ: P. hD. Thesis, University of California Santa Barbara. Walker, G.W., and MacLeod, N.S., 1991, Geologic map of Oregon: U.S. Geological Survey, Scale 1:500000. Appendix. Geologic units from the digital state geologic maps used to develop Hydrogeologic units The following is a list of the geologic units for each state that have been categorized into one of nine "hydrogeologic" units. Please note that the hydrogeologic unit names used here are those designated for the digital Arc/Info coverage- swlithologyc. See the pamphlet describing the scientific content of OFR 03-294 for more details on each of the nine units. Each hydrogeologic unit is also shown in map form on sheets 2 through 10 in the digital plotfiles. Hydrogeologic unit defined in the Corresponding description in OFR03-294 Arc/Info digital coverage- swlithologyc and map sheet number in the digital plotfiles --------------------------------------- -------------------------------------------------- Uncosolidated alluvial deposits Unconsoldated alluvial deposits (sheet 2) Older basin fill (sandstone,conglomerate) Older basin- fill deposits, coarse to fine- grained (Sheet 3) Older basin fill (mudstone,evaporite) Older basin- fill deposits, fine-grained (Sheet 4) Cenozoic basalt Cenozoic basaltic rocks (sheet 5) Cenozoic and Mesozoic non-basaltic Cenozoic andesite, dacite, and rhyolitic, volcanic rocks or Cenozoic non-basaltic rocks (Sheet 6) Crystalline rocks (metamorphic,plutonic) Crystalline rocks (Sheet 7) Pre-Cenozoic rocks (sandstone, Siliceous sedimentary rocks, coarse-grained rocks (Sheet 8) conglomerate) Pre-Cenozoic rocks (chert,siltstone Siliceous sedimentary rocks, fine-grained (Sheet 9) mudstone) or Pre-Cenozoic (chert, siltstone,mudstone,evaporite) Cenozoic and Pre-Cenozoic carbonate Carbonate rocks (Sheet 10) rocks or Pre-Cenozoic carbonate rocks Arizona geologic map units Hydrogeologic unit (Hirschberg and Pitts, 2000) (this publication) --------------------------------- ------------------------ Qy, Q, Qo Unconsolidated alluvial deposits Tsy, Tsm, Tsv, Tss, Tso Older basin fill (sandstone,conglomerate) QTb, Tby, Tb Cenozoic basalt Tvy, Tv, Kv, Jv, QTv Cenozoic and Mesozoic non-basaltic volcanic rocks Kmv, Ks, KJs, Jm, Js, Jy, Trcs, Pre-Cenozoic rocks (sandstone, Jgc, Jsv conglomerate) Trc, Trm, Ys Pre-Cenozoic rocks (chert,siltstone, mudstone) Pz, P, PP, MC Cenozoic and pre-Cenozoic carbonate rocks Ti, Tg, TKgm, TKg, Jg, Trv, Mzo, Crystalline rocks (metamorphic,plutonic) MzPz, Yd, Yg, YXg, Xg, Xm, Xms, Xmv, Xq California geologic map units Hydrogeologic unit (Saucedo and others, 2000) (this publication) --------------------------------- ------------------------ Q, Qg, Qls, Qs Unconsolidated alluvial deposits Tc, QPc Older basin fill (sandstone,conglomerate) Qrv, Qv, Qv?, Tv Cenozoic basalt Qrvp, Qvp, Qvp?, Tvp Cenozoic and Mesozoic non-basaltic volcanic rocks E, E-Ep, Ep, K, K?, KJf, KJfm, Ku, Pre-Cenozoic rocks (sandstone, Ku?, Ku-Ep, M, M?, Mc, O, Oc, P conglomerate) Oc?, Pm, TK, Ec J, J?, Kl, Kl?, Tr Pre-Cenozoic rocks (chert,siltstone, mudstone) C, Ca, D, ls, Pz, SO Cenozoic and pre-Cenozoic carbonate rocks gb, gr, grCz, gr-m, grMz, grMz?, grpC, Crystalline rocks (metamorphic,plutonic) grpC?, grPz, KJfs, m, MtKJfs, mv, Mzv, pC, pCc, Pzv, sch, Ti, um, grCz? Colorado geologic map units Hydrogeologic unit NOTE: this is only a partial list (this publication) (Green, 1992) --------------------------------- ------------------------ Qa, Qg, Qe, Qgo, Qeo, Qd, QTa, Tgv, Unconsolidated alluvial deposits Qdo, Ql QTsa, To, Ta, Twr, Th, Tcu, Tpc, Ts, Older basin fill (sandstone,conglomerate) Te, Tos, Tsp, Td Qb, Tbb, Tbbi Cenozoic basalt Tlp, Tbr, Tbrt, Taf, Tial, Tpl, Tiql, Tmi Cenozoic non-basaltic volcanic rocks TKr, TKa, Kvt, Kpcl, Kpg, KJde, KJdm, Pre-Cenozoic rocks (sandstone, @Ps, &m, &mb, &b, Do conglomerate) Km, &mbe Pre-Cenozoic rocks (chert,siltstone, mudstone,evaporite) MDO, Or Pre-Cenozoic carbonate rocks YXg, Xg, Yg, Xq, Xfh, Xm, Xb, TKi Crystalline rocks (metamorphic,plutonic) Idaho geologic map units Hydrogeologic unit (Johnson and Raines, 1995) (this publication) --------------------------------- ------------------------ Qa, Qpa, Qg, Qpg, Qpug, Qpmg, Qplg, Unconsolidated alluvial deposits Qpc, Qpt, Qd, Qpd, Qw, Qrw, Qpw, Qs, QTg, QTs, Qp?g, Qpmd Td, Tpd, Tmd, Ted, TKg Older basin fill (sandstone,conglomerate) Qrb, Qpub, Qpm, QTb, Tpb, Tmb, Tm3b, Cenozoic basalt Tm2b, Tm1b, Qpu?b, Tm?b, Qpu1b, Qpu2b, Qpu3b, Qpu4b, Zib Qpuf, Qpu3f, Qpu2f, Qpu1f, Qpmf, Cenozoic non-basaltic volcanic rocks Qpm1f, QTf, Tpf, Tmf, Tpv, Tov, Tev, Qplf, Qpm?f, Qpmb, Qpu?f, Qpm2f Jw, J, J1, TR, TRv, PZu, PPc, Ps, Mc, Pre-Cenozoic rocks (sandstone, SOc, Zn, Zs, Z1s, Y4n, Y, Y4s, Y3s, conglomerate) Y2s,Y1s,TrPv, Jwm, Y?s, Ys, Z?s, Y?nm, PNs,PPNc, Pv Kl, Ju, TRu, P, PPs, Dc, DSc, Cc, Cmn, Pre-Cenozoic rocks (chert,siltstone, Y2n, Y1n, Y4m, Y?n, Y1nm, Y2nm, mudstone) PPNs Ku, TRuw, TRl, PM, M, Ms, MD, PZl, D, Cenozoic and pre-Cenozoic carbonate rocks DS, DO, S, SO, O, Ou, Ol, OCc, C, Cun, Z2s, Y3n, Y3nm, PNM Ti, Tmi, Ki, KJi, JTRi, pKi, Zi, PCi, P2, Crystalline rocks (metamorphic,plutonic) OC, Y, Y2m, PC, PC3, PC2, PC1, X, Km, mig, Ki?, Kif, Kii, Kim, PCim, pKim, PZm, Tei, OCm Nevada geologic map units Hydrogeologic unit (Stewart and others, 2003) (this publication) --------------------------------- ------------------------ Qa, Qls, Qm, QToa, Qp, Qmi Unconsolidated alluvial deposits Tbg, Tbr, Ts1, Ts3, Tts Older basin fill (sandstone,conglomerate) QTs Older basin fill (mudstone,evaporite) QTb, Tb, Tba, Tob Cenozoic basalt QTa, QTr, Ta1, Ta2, Ta3, Tr1, Tr2, Cenozoic non-basaltic volcanic rocks Tr3, TRk, TRPv, Trt, Tt1, Tt2, Tt3, TRPvs Ch, Css, CZq, Jd, JPu, JTRa, Jv, PPa, Pre-Cenozoic rocks (sandstone, TKs, Se conglomerate) Csc, Tr, CZs, DCsv, Dsl, Dt, JTRs, Ks, Pre-Cenozoic rocks (chert,siltstone, MDmc, MDs, Msv, Os, Osv, Ot, PMh, mudstone) Psc, PZsp, Ss, TRch, TRPd, Ct, JTRsv, Ds TRc, TRPs, PPcd, Pc, PMc, PPc, Pc, Cenozoic and pre-Cenozoic carbonate rocks Mc, Dc, DCc, Sc, Oc, OCc, Cc, SOc, Pcd, Ths, TKsu, Ts2, Ml, St, TRmt Jgb, TJgr, Tgr, MZgr, Kgr, KJd, Jgr, Crystalline rocks (metamorphic,plutonic) KJim, Ygr, Xm, Oct, Ti, TRgr, Tmi, Tri, Zqs, Zw, TRlgr New Mexico geologic map units Hydrogeologic unit (Anderson and Jones, 1997) (this publication) --------------------------------- ------------------------ Qa, Ql, Qe, Qeg, Qd, Qp, ds, Qe/Qp, Unconsolidated alluvial deposits Qe/Qa, Qpl, Playa, Qe/Qpl Qoa, QTa, QTp, QTg, QTsf, QTs, Tfl, Older basin fill (sandstone,conglomerate) Tsf, To, Tlp, Tc, Tps, Tsj, Tn, Toa, Tpc, TKr, TKpr, TKa, Qp/QTs, Qa/QTs, Qa/QTsf, Qe/QTsf, Qp/QTsf, Ql/QTs, Qe/QTs, Qba/To, Qe/Tnb, Qp/Tsf, Qoa/To QTt, Tus Older basin fill (mudstone,evaporite) Qb, Qv, Qbo, QTbl, Tnb, Tpb, Tuau, Cenozoic basalt Tual, Thb, Tmb Qr, Qvr, Qbt, Tos, Tnr, Tnv, Tv, Tlv, Cenozoic non-basaltic volcanic rocks Turp, Tlrp, Turf, Tlrf, Tla, TKav, Ka, Tuv Ku, Kmc, KTv, K, Kpc, Kg, Kmg, Kpg, Pre-Cenozoic rocks (sandstone, Kth, Kma, Kdr, Kd, Kdg, Kl, J, Jm, conglomerate) Jmsu, Jz, Jze, Je, Jsr, @, Pz, &, Pqm, Pr, Pbc, Pcc, Pbrc, Pg, Pa, Pau, Pal, Pys, Pct, Pb, P&sc, P&, &s, &ps, M, MD, M_, D, SO, SOC, O_, Y, Ys, Pqr, Kcc, Pay, Kvt, &lc Kkf, Kls, Kpn, Kmv, Kch, Klv, Kpl, Pre-Cenozoic rocks (chert,siltstone, Kms, Kph, Kmm, Kmr, Km, Kmu, Kml, mudstone) Kdm, Kgc, Kc, Kgg, Kgr, Kbm, @r, @b, @t, @g, @s, @cu, @m, Psl, Pc, Pat, Pco, @rp, @c Knf, Kmf, Kgh, Pty, Pgq, Pcp, Pdm, Psa, Cenozoic and pre-Cenozoic carbonate rocks Psg, Pvp, Ph, &m, &me, Mk, Psr, Py Tif, Ti, Tui, Tuim, Tli, TKi, Ki, O_p, Yi, Crystalline rocks (metamorphic,plutonic) Yp, YXp, X, Xms, Xm, Xp, Xmo, Xmu, Zi Oregon geologic map units Hydrogeologic unit (Walker and MacLeod, 1991) (this publication) --------------------------------- ------------------------ Qal, Qd, Qls, Qma, Qmp, Qgs, Qf, Qg, Unconsolidated alluvial deposits Qgf, Qt, QTg, QTst, Ql, QTs, Qs, Qpl, Tlf Ts, Tmsm, Tcss, Tn, Tsfj, Tm, Tms, Ty, Older basin fill (sandstone,conglomerate) Tt, Tmst, Tvq, Ta, Tsd, Tco, Ttvm, Tss, Tmss, Tmsc, Tsm, Tfc, Tfee, Tyq QTba, Tc, Tcw, Tcg, Tpb, Ttv, Tsr, Tim, Cenozoic basalt Ti, Tig, Qba, QTp, QTmv, QTa, Trb, Tmv, Tfe, Tbaa, Tub, Tfeb, QTib, Tib, Qyb, Qlb, Qb, QTps, QTvm, QTb, Tob, Tstv, Tvm, Tp, Tps, Tb, Tcs, Tcp, Tci, Tba, Tbas, Tsff, Tca, Tvi, Tc? Qa, Tsv, Tut, QTvs, Tvs, Tat, Trh, Twt, Cenozoic non-basaltic volcanic rocks Tts, Tr, Tsf, Tas, Tct Kc, KJds, KJm, Tu, Tus, Tsm, Tfc, Tfcc, Pre-Cenozoic rocks (sandstone, Ks, Js, JTRsv, Jub, TRsv, TRs, TRv, conglomerate) TrPzs, Jub, TRPv, Jv Jop, Jss, Js, Jm, cm, cs, TRPzm, TRPzs, Pre-Cenozoic rocks (chert,siltstone, JTRs, mr, Psv, KJdv, Ju, TRPzu mudstone) TRPzsn, Pzs Cenozoic and pre-Cenozoic carbonate rocks bc, mc, Tia, KJg, KJgu, JTRgd, Qrd, Thi, Crystalline rocks (metamorphic,plutonic) TRPzsv, Pzsv, KJi, Jc, TRPzg Utah geologic map units Hydrogeologic unit (Hintze and others, 2000) (this publication) --------------------------------- ------------------------ Qa, Qe, Qg, Qls, QT, Ql, Qs, Qao, Unconsolidated alluvial deposits playa T1, T2, T3, T4, T5, TK Older basin fill (sandstone,conglomerate) Qm Older basin fill (mudstone,evaporite) Qb, Tpb Cenozoic basalt Qr, Tma, Tmb, Tmr, Tmv, Tov, Tpr, Tvu Cenozoic non-basaltic volcanic rocks JTr, K1, K2, K3, P1, Jg Pre-Cenozoic rocks (sandstone, conglomerate) J1, J2, M3, Tr1, Tr2 Pre-Cenozoic rocks (chert,siltstone, mudstone) C2, C3, D, M1, M2, O, P, P2, PeP, S, PP Pre-Cenozoic carbonate rocks Cf, Ji, PCi, PCm, PCs, Ti, C1 Crystalline rocks (metamorphic,plutonic)