UNITED STATES DEPARTMENT OF THE INTERIOR
                           GEOLOGICAL SURVEY


       Digital geologic map of the Roswell Resource Area, New Mexico

                                  By

                 Edward J. LaRock and Samuel L. Moore



                            Open-File Report

                     OF-92-0328-A Discussion (paper copy)
                     OF-92-0328-B Database (diskette)
                     OF-92-0328-C Command Files (diskette)

                                   1992

This report is preliminary and has not been reviewed for conformity
with U.S. Geological Survey (USGS) editorial standard nor with the
North American stratigraphic codes.  Any use of trade, product, or
firm names is for descriptive purposes only and does not imply
endorsement by the USGS. Although these data have been used by the
USGS and have been successfully imported into data base programs, no
warranty, expressed or implied, is made by the USGS as to how
successfully or accurately the data can be imported into any specific
application software running on any specific hardware platform.  The
fact of distribution shall not constitute any such warranty, and no
responsibility is assumed by the USGS in connection therewith. 




U.S. Geological Survey 
Denver, Colorado


This geologic map was prepared for a report on the mineral and energy
resource potential of the Roswell Resource Area that is managed by the
Bureau of Land Management (Bartsch-Winkler, 1992).  Geologic map
information was compiled, modified, and digitized at 1:500,000 scale
from the New Mexico Highway Geologic Map (New Mexico Geological
Society, 1982).  Geologic data was transferred onto a 1:500,000-scale
stable greenline base with a Lambert Conformal Conic projection and
digitized from the greenline base using GSMAP 6 (Selner and Taylor,
1989).  The digital line data was then transferred to ARC/INFO * via
GSMARC 1.0 (Green and Selner, 1988).  Geologic polygons were built
using ARC 5.0 to produce the final color geologic map for publication.
Geologic data was modified from the New Mexico Highway Geologic Map
(New Mexico Geological Society,1982) according to the following: 

	Quaternary gravels in Carrizozo Valley were remapped as
Quaternary and Tertiary intermountain gravels.  Tertiary intrusive
dikes contained in the Tertiary volcanic flows of the Sierra Blanca
area on the southwest part of the Roswell area were omitted for
simplicity. Near the west  edge of the Tertiary volcanic flows, a
Tertiary intrusive stock and an outcrop of associated Cretaceous
sedimentary rocks were deleted, because they were not located during
fieldwork by Moore.  Subdivided Cretaceous units on the New Mexico
Highway Geologic Map have been modified to include two units -- KTru,
that includes the Pajarito Shale, Mesa Rica Sandstone, and Tucumcari
Shale; and Kmmd, that includes the Redondo Sandstone, and the
Mesaverde, Mancos, and Dakota Formations.  In the northeastern corner
of the Roswell geologic map, Ku represents only the Dakota Sandstone,
and in the Ruidoso-Capitan area, Ku represents the undifferentiated
Dakota, Mancos, and Mesaverde Formations. The San Andres Formation and
the Glorieta Sandstone (Psg) crops out in the northwestern corner of
the Roswell Resource Area.  Abo, Hueco, Yeso, and Bursum Formations
are undivided (Pu).  The Bonito Fault in Lincoln County was not
extended into the Capitan intrusive as indicated on the New Mexico
Highway Geologic Map, and the southwestern extent of the Sixmile
Buckle was omitted owing to lack of surface evidence.  Most minor
faults were deleted for simplicity, but a small fault cutting the
Santa Rosa Sandstone was added along U.S. Highway 84 west of Santa
Rosa. 
	This database was developed on a MicroVAX computer system
using VMS 5.4 * and ARC/INFO 5.0 software.  The ASCII files were then
copied to the DOS diskettes included in this report. To use these
diskettes, the user must have the capability of transferring them to
an ARC/INFO system.  The ASCII files included in the two enclosed
diskettes can be used to print color versions of the Roswell geologic
map using the ARC/INFO software package. Patterned (black-and-white)
versions of the map can be created by modification of the RBLM.AML, 
RBLM.KEY, and RBLM.LIN files using ARC/INFO procedures, with
instructions included in the RBLM.AML file (see below). 
	
* Any use of trade, product, or firm names is for descriptive purposes 
  only and does not imply endorsement by the U.S. Government.




	Digital geologic map information is contained on two diskettes in 
the following ASCII files:

Database diskette  (USGS Open File 92-0328-B):	
ARC/INFO "export" files:
  RBLM.E00      The Roswell BLM Resource Area geologic map data base (ASCII).
  SINK.E00      An auxiliary data base that creates the sinkhole near 
                   Santa Rosa.
	
"Commands" diskette  (USGS Open File 92-0328-C):
  AAAREAD.1ST   Text file that contains this Open-File 92-0328-A document.
  UNITS.MAP     Text file that contains the geologic explanation of map units.
  LOAD.AML      ARC/INFO commands that can be used to automatically rebuild 
                   the database from ASCII.
  RBLM.AML      ARCPLOT commands that create a plot file from the data bases 
                   that can be directed to a variety of plotters. (Modify 
                   this file according to contained instructions for sites 
                   using pin plotters rather than electrostatic plotters, 
                   and to obtain patterns rather than colors.)
  RBLM.KEY      The ARCPLOT RBLM.AML keyshade file that assigns colors or
                   patterns to the map explanation.
  RBLM.LIN      The ARCPLOT RBLM.AML keyline file that assigns colors or
                   patterns to the geologic line types in the map explanation,
                   such as faults and dikes.
  CCA_LIN.E00   The palette of line types (ARC/INFO lineset file) for an
                   electrostatic plotter.
  CCA_SHD.E00   The palette of colors (ARC/INFO shadeset file) for an 
                   electrostatic plotter.  
  FONT003.E00   The ARCPLOT geologic symbols font file for RBLM.
  RBLM.COL      ARC COLOR plottable output file for an electrostatic plotter.
                   This output file (the Roswell geologic map) can be printed
                   without recreating the database.
	

References cited:

Bartsch-Winkler, Susan, ed., 1992, Mineral and energy resources of the BLM 
      Roswell Resource Area, east-central New Mexico:  U.S. Geological Survey
      Open-file report 92-0261, 153 p. 40 figs., 22 tables, 14 maps, 1 appendix.

Green, G.N., and Selner, G.I., 1988, GSMARC --A program and procedure to 
      convert GSMAP data bases into ARC/INFO coverages; GSDARC --A counterpart
      program for GSDRAW data bases and an ARC/INFO procedure to topologically
      structure resultant data:  U.S. Geological Survey Open-File Report 
      88-0430-A, 16 p., and Open-File Report 88-0430-B, 1 program diskette.

New Mexico Geological Society (in cooperation with New Mexico Bureau of Mines 
      and Mineral Resources), 1982, New Mexico Highway Geologic Map, scale 
      1:1,000,000, including representative columnar sections and cross 
      sections, 1 sheet.

Selner, G.I., and Taylor, R.B., 1989, GSDRAW and GSMAP system version 6.0 
      --Graphic programs and utility programs for the IBM-PC and compatible 
      microcomputers to assist compilation and publication of geologic maps 
      and illustrations:  U.S. Geological Survey Open-File Report 89-0373-A, 
      156 p., and Open-File Report 89-0373-B, 1 program diskette.




LIST OF MAP UNITS:

Qal     Alluvium and gravel, colluvium, loess, dune, pediment, and terrace
           deposits (Quaternary)

Qb      Basalt flows (Quaternary)

Qt      High-terrace gravel and pediment deposits (Quaternary)--
           Pleistocene Gatuna Formation (Pecos River valley) and Blackwater 
           Draw, Double	Lakes,and Tahoka Formations (Llano Estacado)

QTg     Intermountain gravel of northern Tularosa Valley 
           (Quaternary and Tertiary)

To      Ogallala Formation (Tertiary)

Tis     Alkalic intrusive stocks and laccoliths (Tertiary)

Tv      Volcanic flows, Sierra Blanca Igneous Complex, and dike swarms
           (Tertiary)

TKc     Cub Mountain Formation (Tertiary and Cretaceous)

Kmmd    Mesaverde Formation, Mancos Shale, and Dakota(?) 	
           Sandstone (Cretaceous)

KTRu    Cretaceous and Triassic, undifferentiated-- includes Pajarito Shale,
           Mesa Rica Sandstone, and Tucumcari Shale (Cretaceous) and Redonda
           Formation (Triassic), undifferentiated; east of long 104 degrees 15'
           W. and north of lat 34 degrees N.

Jm      Morrison Formation (Jurassic)

Je      Exeter Sandstone (Jurassic)

Jme     Morrison Formation and Exeter Sandstone, undivided--east of long
           105 degrees W. and north of lat 34 degrees 45' N.
 
TRc     Chinle Formation (Triassic)

TRs     Santa Rosa Sandstone (Triassic)

TRcs    Chinle Formation and Santa Rosa Sandstone, undivided

Mzu     Mesozoic rocks--Cretaceous, Jurassic, and Triassic rocks, undivided, 
           on downthrown side of Bonita Fault on the Canadian River

Pds     Dewey Lake, Rustler, and Salado Formations (Permian)
           --southernmost Pecos River valley

Pa      Artesia Group (Permian)--includes Tansill, Yates, Seven Rivers, Queen,
           and Grayburg Formations

Psg     San Andres Formation and Glorieta Sandstone (Permian)
           --San Andres includes Fourmile Draw, Bonney Canyon, and Rio Bonito
           Members

Pu      Permian, undivided--includes Yeso and Abo Formations, Hueco Limestone,
           and Bursum(?) Formation (Permian), undivided

Pu      Pennsylvanian rocks, undivided--west of long 106 degrees W

MCu     Mississippian through Cambrian rocks, undivided
           --west of long 106 degrees W

pCu     Precambrian rocks, undivided--west of long 106 degrees W

-----   Contact

=====   Fault--Dashed where approximately located; dotted where concealed. Bar
               and ball on downthrown side where relative movement known