Douglas B. Stoeser
Gregory N. Green
Laurie C. Morath
William D. Heran
Anna B. Wilson
David W. Moore
Bradley S. Van Gosen
2005
Wyoming Faults
version 1.0
vector digital data
U.S. Geological Survey Open-File Report
2005-1351
Denver, CO
U.S. Geological Survey
http://pubs.usgs.gov/of/2005/1351/
Douglas B. Stoeser
Gregory N. Green
Laurie C. Morath
William D. Heran
Anna B. Wilson
David W. Moore
Bradley S. Van Gosen
2005
Preliminary Integrated Geologic Map Databases for the United States
Central States: Montana, Wyoming, Colorado, New Mexico,
Kansas, Oklahoma, Texas, Missouri, Arkansas, and Louisiana.
version 1.0
map
U.S. Geological Survey Open-File Report
1351
Reston, VA
U.S. Geological Survey
http://pubs.usgs.gov/of/2005/1351/
WYfaults
This open-file report presents the results of the USGS Mineral Resources
Program activity to compile a national-scale geologic map database to support
national and regional level projects, including mineral resource and geo-
environmental assessments. The only comprehensive sources of regional- and
national-scale geologic maps are state geologic maps with scales ranging from
1:100,000 to 1:1,000,000. Digital versions of these state maps form the core
of what is presented here. Because no adequate geologic map exists for the
state of Alaska, it is being compiled in regional blocks that also form part
of this national database. It is expected that this series will completed by
approximately the end of 2007. These maps and databases are being released
in blocks of states or, in the case of Alaska, as compiled blocks of
1:250,000-scale quadrangles as chapters in this series. For Alaska, formal
maps as well as databases are being published here, whereas for the
conterminous U.S. only state databases and preview graphics are presented,
because published maps for most states already exist. For Alaska these
regional compilations will form the base for compiling a new geologic map of
the state. As documented in Chapter A, standards for the conterminous U.S.
are somewhat different than those for Alaska and Hawaii.
A primary goal of this work is to develop geologic map datasets with
standardized structure and attribution. The database design and standards are
documented in Chapter A of this series. The intent is that contiguous databases
can be merged seamlessly and without any additional effort. In addition to a
common database structure, the conterminous U.S. state databases
(the contiguous 48 states) have been fitted to a set of standard state
boundaries so that, when states are merged, they match without slivers or
overlap. No attempt has been made to reconcile differences in mapping across
state boundaries.
This database consists of five major Arc/Info GIS datasets for each state;
- one: geologic map with formations,
- two: faults (where present),
- three: dikes (where present),
- four: miscellaneous line features (where present),
- five: miscellaneous point features (where present).
en
2005
publication date
None planned
-111.055997
-104.054641
45.005489
40.996632
-111.055997-104.05464140.99663245.005489
none
geology
National Geologic Map Database Catalog themes, augmented
3100 - Vector
3110 - ESRI
3112 - export
1100 - Geology
1101 - General
none
USA
Wyoming
Augmented FIPS 10-4 and FIPS 6-4, version 1.0
US56 = Wyoming
none
This database is not meant to be used or displayed at any scale other
than 1:500,000.
Any hardcopies utilizing these data sets shall clearly indicate
their source. If the licensee has modified the data in any way
they are obligated to describe the types of modifications they
have performed on the hardcopy map. Licensee specifically agrees
not to misrepresent these data sets, nor to imply that changes they
made were approved by the U.S. Geological Survey.
Gregory N. Green
U.S. Geological Survey
mailing and physical address
MS 973, USGS, Denver Federal Center
Denver
CO
80225
USA
303-236-5390
ggreen@usgs.gov
State Geologic Map Compilation (SGMC) activity of the National Surveys and Analysis
projects of the US Geological Survey Mineral Resources Program.
Microsoft Windows XP Version 5.1 (Build 2600) Service Pack 3; ESRI ArcCatalog 9.3.1.3000
File Geodatabase Feature Class
The values of the attributes ROCKTYPE1 and ROCKTYPE2 were assigned based on the
information in the legends of the source maps (most of which are paper). The definitions of
these values are described in the draft document Geologic Map Classification version 6.1
(Johnson and others); available at the following website: http://geology.usgs.gov/dm )
All internal polygons were checked for closure with vendor software and on hard copy plots.
Overshoots and undershoots have been deleted or corrected as appropriate.
Bodies of water are classified as water, and the geologic units underlying them are not included in
this coverage.
The geologic map was digitized from compilations ranging in scale from 1:1,000,000 to 1:100,000
and is an accurate representation of the source maps. It is intended to be used at scales
ranging from 1:1,000,000 to 1:500,000. Display at significantly larger scales may produce small
errors in locations of contacts or faults relative to features contained in other data sets.
Accuracy of Wyoming state boundary and those arcs intersecting it: The accuracy of the state
boundary arcs is based on the 1:100000 scale original data used to produce this boundary.
(Johnson, Bruce R. and Leveritch, Beth, 1998, 1:100,000 Scale State Boundaries of the
Conterminous United States: U.S. Geological Survey, unpublished
(see metadata file: st100kmeta.txt, Chapter A))
Those internal arcs intersecting the state boundary were extended or shortened as needed to
complete polygons, possibly creating a small amount of error.
Love, J.D.
Christiansen, A.C.
1985
Geologic map of Wyoming
map
5000000
paper
1985
publication date
Love and Christiansen (1985)
Original mapping and compilation
Green, G.N.
Drouillard, P.H.
1994
The Digital Geologic Map of Wyoming in ARC/INFO Format
map
500000
digital map
1994
publication date
WY001
Digital geologic map of Wyoming
Bruce R. Johnson
unpublished material
1:100,000 Scale State Boundaries of the Conterminous United States
vector digital data
100,000
online
199808
unknown
US001
Provided linework for state boundaries
Bruce R. Johnson
unpublished material
Geologic Map Unit Classification, ver. 6.1
document
online; http://geology.usgs.gov/dm
unknown
unknown
Johnson Lith Class 6.1
Classification scheme used for lithology.
The purpose of this standardization is to allow all SGMC covers to be
seamlessly joined without any additional effort to form regional or national
level digital maps. Note that for Alaska, the state is being compiled as blocks
of 1:250k quadrangles that will ultimately be used to compile a new state map.
Douglas Stoeser and Ric Wilson are co-coordinators for the overall SGMC effort,
with Stoeser coordinating work on the mainland states and Wilson coordinating
work for Alaska and Hawaii.
2003 - 2004
G.N. Green obtained the digital geologic map of Wyoming from the website:
http://pubs.usgs.gov/of/ofr-94-0425/
Re-projected the coverage into the following:
projection: Lambert Conformal Conic
units: meters
datum: NAD27
standard parallel 1: 33 0 0.000
standard parallel 2: 45 0 0.000
central meridian: -100 0 0.000
reference latitude: 0 0 0.000
false easting: 0.00000
false northing: 0.00000
All attributes were deleted except NAME.
(Note: Attributes associated with the generation of the coverages were not deleted.
PAT - shape, area, perimeter, coverage#, and coverage-id
AAT - shape, fnode#, tnode#, lnode#, rnode#, length, coverage#, and coverage-id)
The values from NAME where then calculated into a new field called orig_label.
20031210
The following attributes were exported from Filemaker as a comma delimited file
map_symbol1
map_symbol2
unit_link
reference_id
unit_age
rocktype1
rocktype2
The attributes were then loaded into INFO with the following structures:
item name: orig_label
width: 12
output: 12
type: c
item name: sgmc_label
width: 16
output: 16
type: c
item name: unit_link
width: 18
output: 18
type: c
item name: source
width: 6
output: 8
type: c
item name: unit_age
width: 60
output: 60
type: c
item name: rocktype1
width: 40
output: 40
type: c
item name: rocktype2
width: 40
output: 40
type: c
20031222
Once the .csv was loaded, it was joined in Arc/Info with the joinitem command.
orig_label as the related item.
2004818
Once the .pat file was correct, the .aat file was addressed. The following items were added
to the table:
item name: arc-code
width: 3
output: 3
type: i
item name: arc-para1
width: 3
output: 3
type: i
item name: arc-para2
width: 3
output: 3
type: i
item name: source
width: 6
output: 8
type: c
20031223
Arc-code was populated using the digital map source to tag the lines using the AAT line type
data dictionary.
Arc-para1 was populated when additional information was available such as upthrown side of
a fault or angle of thrusting on a fault.
Arc-para2 is a scratch field that is used mostly in Alaska.
Source was populated with code that designates the source used for the linework; typically
the paper map.
20031222
Dataset was downloaded from ngmdb.usgs.gov/Prodesc/proddesc_78094.htm for use in the Green River Basin Water Plan II (http://waterplan.state.wy.us).
Modifications made for the basin plans are not in this statewide dataset, but in each individual basin fault dataset.Jan 2008
Vector
SimpleFALSE0FALSEFALSE
North American Datum of 1983
Geodetic Reference System 80
6378137.000000
298.257222
GCS_North_American_1983Decimal degrees0.0000000.000000
Explicit elevation coordinate included with horizontal coordinates0.000100
source
reference to the source used
Doug Stoeser
WY001
n/a
Green, G.N., and Drouillard, P.H., 1994, The Digital Geologic Map of Wyoming in ARC/INFO
Format: U.S. Geological Survey Open-File Report 94-0425, 10 p.;
online at http://pubs.usgs.gov/of/1994/ofr-94-0425/
Sequential unique whole numbers that are automatically generated.
ShapeGeometry000
HU_10_DSFIDOID400Internal feature number.EsriSequential unique whole numbers that are automatically generated.ShapeHU_10_NAMEString8000Feature geometry.ESRICoordinates defining the features.FID_WY_fauFID_WY_fauInteger10100HU_10_NAMEHU_10_MODString2000HU_10_MODHU_10_TYPEString100HU_10_TYPEHU_12_DSString1200HU_12_DSHU_12_NAMEString8000HU_12_NAMEHU_12_MODString2000HU_12_MODHU_12_TYPEString100HU_12_TYPEMETA_IDString400META_IDSTATESString2000STATESSOURCEString600SOURCEFNODE_Integer10100Length of feature in internal units.ESRIPositive real numbers that are automatically generated.FNODE_TNODE_Integer10100FID_BoundaFID_BoundaInteger10100TNODE_LPOLY_Integer10100LPOLY_RPOLY_Integer10100RPOLY_LENGTHSingle1300LENGTHWYFAULTS_DInteger10100WYFAULTS_DWYFAULTS_1Integer10100
WY_faults_BRB
Polygon attribute table for the Wyoming geologic coverage.
ESRI
Feature Class0
WYFAULTS_1ARC_CODESmallInteger550ARC_CODEARC_PARA1SmallInteger550ARC_PARA1ARC_PARA2SmallInteger550ARC_PARA2HUC_8String800HUC_8HUC_10String1000HUC_10HUC_12String1200HUC_12ACRESDouble1900ACRESNCONTRB_ADouble1900NCONTRB_AHU_10_GNISString2300HU_10_GNISHU_12_GNISString2300HU_12_GNISHU_10_DSString1000Shape_LengShape_LengDouble1900
wy_geol.aat
Arc attribute table for Wyoming geologic coverage.
ESRI
arc-code
Unique identifier for the line feature
AAT data dictionary, Appendix H
1
contact, location certain
n/a
4
normal fault, location certain
n/a
7
shoreline or riverbank
n/a
8
Internal contact or phase change; (not drawn)
n/a
15
Ice contact (glacier limit)
n/a
52
normal fault, concealed
n/a
101
Thrust fault, direction of motion undefined, location certain
n/a
104
thrust fault, direction of motion undefined, location concealed
n/a
105
Thrust fault, reactivated with normal motion, location certain
n/a
108
Thrust fault, reactivated with normal motion, location approximate
n/a
124
state boundary
n/a
arc-para1
Used for "decorated" lines where additional information is needed.
AAT data dictionary n/a
0
no additional information
n/a
1
for normal faults, upthrown side is to the right
n/a
arc-para2
"Scratch" field used mostly in Alaska.
AAT data dictionary
0
no additional information
n/a
source
A coded reference citation indicating source material used.
AAT data dictionary
WY001
n/a
Green, G.N., and Drouillard, P.H., 1994, The Digital Geologic Map of Wyoming in ARC/INFO
Format: U.S. Geological Survey Open-File Report 94-0425, 10 p.;
online at http://pubs.usgs.gov/of/1994/ofr-94-0425/
US001
n/a
Johnson, Bruce R. and Leveritch, Beth, 1998, 1:100,000 Scale State Boundaries of the
Conterminous United States: U.S. Geological Survey, unpublished (see metadata file:
st100kmeta.txt, Chapter A)
Coding for polygon attributes:
NAME: FEATURE:
orig_label unmodified map unit symbols from source cover
sgmc_label orig_label modified for standard geologic age symbols and an
integer code added for province
unit_link sgmc_label and a state code identifier
source reference to source of data
unit_age geologic age
rocktype1 predominant lithology
rocktype2 second most predominant lithology
Coding for arc attributes:
NAME: FEATURE:
arc-code unique integer identifier
arc-para1 used where additional information is needed
arc-para2 scratch field
source reference to source of data
Coding for point attributes:
NAME: FEATURE:
point_feature name of feature on map
source reference to source of data
Coding for dikes (special arcs) attributes:
NAME: FEATURE:
orig_label unmodified map unit symbols from source cover
sgmc_label orig_label modified for standard geologic age symbols and an
integer code added for province
arc-code unique integer identifier
dike_lith general lithology
dike_age geologic age
source reference to source of data
ARC-CODE DESCRIPTION
CONTACTS
1 contact, location certain
2 contact, location approximate
3 contact, location inferred, queried
51 contact, concealed
18 Internal contact
19 Internal contact having tics on right from origin
8 Internal contact or phase change; no symbol (not drawn)
9 Boundary of altered zone or hornfels; no symbol (not drawn)
130 Pinch out; where unit is too narrow to map as a polygon on the source map
and has been represented as a line
FAULTS - GENERAL
30 Fault, sense of displacement unknown or undefined, location certain
31 Fault, sense of displacement unknown or undefined, location approximate
32 Fault, sense of displacement unknown or undefined, location inferred or
queried
100 Fault, sense of displacement unknown or undefined, concealed
NORMAL FAULTS
4 Normal fault, location certain, digitized with upthrown side on the right (code
of 1 added to ARC-PARA1 where U/D is designated in source)
5 Normal fault, location approximate, digitized with upthrown side on the right
(code of 1 added to ARC-PARA1 where U/D is designated in source)
6 Normal fault, location inferred, queried, digitized with upthrown side on the
right (code of 1 added to ARC-PARA1 where U/D is designated in source)
71 Normal fault, location certain, having right lateral oblique slip.
72 Normal fault, location approx., having right lateral oblique slip.
73 Normal fault, location certain, having left lateral oblique slip.
74 Normal fault, location approx., having left lateral oblique slip.
75 Normal fault, location inferred, queried, having left lateral oblique slip.
76 Normal fault, location inferred, queried, having right lateral oblique slip.
52 Normal fault, concealed
55 Normal fault, having right lateral oblique slip, concealed
56 Normal fault, having left lateral oblique slip, concealed.
THRUST FAULTS
10 Thrust fault, location certain, teeth on right from origin (angle of thrusting
added to ARC-PARA1 where designated in source)
11 Thrust fault, location approximate, teeth on right from origin (angle of
thrusting added to ARC-PARA1 where designated in source)
12 Thrust fault, location inferred, queried, teeth on right from origin (angle of
thrusting added to ARC-PARA1 where designated in source)
16 Thrust fault, having left lateral oblique slip (angle of thrusting added to ARCPARA1
where designated in source)
17 Thrust fault, having right lateral oblique slip (angle of thrusting added to
ARC-PARA1 where designated in source)
53 Thrust fault, concealed
101 Thrust fault, direction of motion undefined (i.e. teeth not shown), location
certain
102 Thrust fault, direction of motion undefined (i.e. teeth not shown), location
approximate
103 Thrust fault, direction of motion undefined (i.e. teeth not shown), location
inferred
104 Thrust fault, direction of motion undefined (i.e. teeth no shown), location
concealed
105 Thrust fault, reactivated with normal motion, location certain
106 Thrust fault, reactivated with normal motion, location approximate
107 Thrust fault, reactivated with normal motion, location inferred
108 Thrust fault, reactivated with normal motion, location approximate
DETACHMENT FAULTS
109 Detachment fault, location certain
110 Detachment fault, location approximate
111 Detachment fault, location inferred
112 Detachment fault, location concealed
HIGH-ANGLE FAULTS
35 High-angle reverse fault, location certain, teeth on right from origin (angle of
thrusting added to ARC-PARA1 where designated in source)
36 High-angle reverse fault, location approximate, teeth on right from origin
(angle of thrusting added to ARC-PARA1 where designated in source)
37 High-angle reverse fault, location inferred, teeth on right from origin (angle of
thrusting added to ARC-PARA1 where designated in source)
54 High-angle reverse fault, concealed
RIGHT-LEFT LATERAL FAULTS
113 Strike slip fault, motion unknown, location certain
114 Strike slip fault, motion unknown, location approximate
115 Strike slip fault, motion unknown, location inferred
116 Strike slip fault, motion unknown, location concealed
87 Right lateral fault, location certain
88 Right lateral fault, location approximate
89 Right lateral fault, location inferred, queried.
57 Right lateral fault, concealed
90 Left lateral fault, location certain.
91 Left lateral fault, location approximate.
92 Left lateral fault, location inferred, queried
58 Left lateral fault, concealed
SHEAR ZONES & FISSURES
94 Shear zone, certain
95 Shear zone, approximate
96 Shear zone, inferred
59 Shear zone, concealed
69 Fissures
140 Mylonite zone, certain
145 Microbreccia zone, certain
SYNCLINES
61 Syncline, no plunge, certain
62 Syncline, no plunge, location approximate
63 Syncline, no plunge, inferred, queried
21 Syncline, location certain, digitized in direction of plunge; ARC-PARA1
equals angle of plunge, 0 is no plunge, 1 is plunge of unknown dip.
22 Syncline, location approx., digitized in direction of plunge; ARC-PARA1
equals angle of plunge, 0 is no plunge, 1 is plunge of unknown dip.
23 Syncline, location inferred, queried, digitized in direction of plunge; ARCPARA1
equals angle of plunge, 0 is no plunge, 1 is plunge of unknown
dip.
41 Syncline, overturned, location certain, digitized in direction of plunge; ARCPARA1
equals angle of plunge, 0 is no plunge, 1 is plunge of unknown
dip.
42 Syncline, overturned, location approximate, digitized in direction of plunge;
ARC-PARA1 equals angle of plunge, 0 is no plunge, 1 is plunge of
unknown dip.
43 Syncline, overturned, location inferred, queried, digitized in direction of
plunge; ARC-PARA1 equals angle of plunge, 0 is no plunge, 1 is plunge
of unknown dip.
81 Syncline, inverted, location certain; ARC-PARA1 equals angle of plunge, 0 is
no plunge, 1 is plunge of unknown dip.
82 Syncline, inverted, location approximate; ARC-PARA1 equals angle of
plunge, 0 is no plunge, 1 is plunge of unknown dip.
83 Syncline, inverted, location inferred, queried; ARC-PARA1 equals angle of
plunge, 0 is no plunge, 1 is plunge of unknown dip.
126 Syncline, concealed
ANTICLINES
24 Anticline, location certain, digitized in direction of plunge; ARC-PARA1
equals angle of plunge, 0 is no plunge, 1 is plunge of unknown dip.
25 Anticline, location approx., digitized in direction of plunge; ARC-PARA1
equals angle of plunge, 0 is no plunge, 1 is plunge of unknown dip.
26 Anticline, location inferred, queried, digitized in direction of plunge; ARCPARA1
equals angle of plunge, 0 is no plunge, 1 is plunge of unknown
dip.
84 Anticline, inverted, location certain; ARC-PARA1 equals angle of plunge, 0 is
no plunge, 1 is plunge of unknown dip.
85 Anticline, inverted, location approximate; ARC-PARA1 equals angle of
plunge, 0 is no plunge, 1 is plunge of unknown dip.
86 Anticline, inverted, location inferred, queried; ARC-PARA1 equals angle of
plunge, 0 is no plunge, 1 is plunge of unknown dip.
44 Anticline, overturned, location certain, digitized in direction of plunge; ARCPARA1
equals angle of plunge, 0 is no plunge, 1 is plunge of unknown
dip.
45 Anticline, overturned, location approximate, digitized in direction of plunge;
ARC-PARA1 equals angle of plunge, 0 is no plunge, 1 is plunge of
unknown dip.
46 Anticline, overturned, location inferred, queried, digitized in direction of
plunge; ARC-PARA1 equals angle of plunge, 0 is no plunge, 1 is plunge
of unknown dip.
64 Anticline, certain, no plunge.
65 Anticline, approx., no plunge.
66 Anticline, inferred, queried, no plunge.
127 Anticline, concealed
MONOCLINES
117 Monocline, location certain
118 Monocline, location approximate
119 Monocline, location inferred
120 Monocline, location concealed
DIKES & SILLS
50 Dike or sills, unspecified, drawn in heavy red line.
121 Dike or sill , mafic
122 Dike or sill, felsic
123 Dike or sill, lamprophyre
ISOGRADS
160 Subchlorite to chlorite
161 Chlorite to biotite
162 Biotite to garnet
163 Garnet to staurolite
164 Staurolite to sillimanite
165 Sillimanite to sillimanite + orthoclase
OTHER LINE TYPES
93 Lineament
7 Shoreline or riverbank
14 Caldera or crater rim
28 Caldera or crater rim, inferred, concealed
15 Ice contact (glacier limit)
13 Moraine or till margin (scour) on bedrock
0 Hidden lines
99 Bounding line (neatline) of coverage
124 State Boundary
125 International Boundary
ESRI
U.S. Geological Survey Information Services
mailing and physical address
U.S. Geological Survey
507 National Center
Reston
Virginia
20192
USA
1-888-ASK-USGS
or
1-703-648-5953
http://www.usgs.gov/contact/
USGS OFR 2005-1351
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.
This data base GIS is not meant to be used or displayed at any scale other than 1:500,000.
ARC/INFO export
8.3
Geologic units and structural features
gzip and tar
http://pubs.usgs.gov/of/2005/1351
none
20101025
20041020
U.S. Geological Survey
Gregory N. Green
mailing and physical address
MS 973, USGS, Denver Federal Center
Denver
CO
80225
USA
1-303-236-5390
ggreen@usgs.gov
FGDC Content Standards for Digital Geospatial Metadata
FGDC-STD-001-1998
enlocal time
2013092409465300FALSE20171220100811002017122010081100Intersect "WY_faults #;Boundary_BRB #" P:\Basin_Plans\Bear_River_Basin\preliminary\Tomas_BRB_Work.gdb\Geology\WY_faults_BRB ALL # INPUTWY_faults_BRB002file://\\WRDS-MORS\Auxstor\Maps\WSGS_GIS_GW-Files\Bear\Shapefiles\WY_faults_BRB.shpLocal Area Network-111.047026-110.63554240.99720142.60289410.000GeographicGCS_North_American_1983Angular Unit: Degree (0.017453)<GeographicCoordinateSystem xsi:type='typens:GeographicCoordinateSystem' xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance' xmlns:xs='http://www.w3.org/2001/XMLSchema' xmlns:typens='http://www.esri.com/schemas/ArcGIS/10.3'><WKT>GEOGCS["GCS_North_American_1983",DATUM["D_North_American_1983",SPHEROID["GRS_1980",6378137.0,298.257222101]],PRIMEM["Greenwich",0.0],UNIT["Degree",0.0174532925199433],AUTHORITY["EPSG",4269]]</WKT><XOrigin>-400</XOrigin><YOrigin>-400</YOrigin><XYScale>11258999068426.238</XYScale><ZOrigin>-100000</ZOrigin><ZScale>10000</ZScale><MOrigin>-100000</MOrigin><MScale>10000</MScale><XYTolerance>8.9831528411952133e-009</XYTolerance><ZTolerance>0.001</ZTolerance><MTolerance>0.001</MTolerance><HighPrecision>true</HighPrecision><LeftLongitude>-180</LeftLongitude><WKID>4269</WKID><LatestWKID>4269</LatestWKID></GeographicCoordinateSystem>1.0FGDC CSDGM MetadataMicrosoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.3.1.4959WY_faults_BRB-111.055997-104.05464145.00548940.9966321-111.055997-104.05464145.00548940.99663211-111.047026-110.63554242.60289440.997201ISO 19115 Geographic Information - MetadataDIS_ESRI1.0dataset002file://\\BRACHIOSAURUS\Projects\Basin_Plans\StatewideData.gdbLocal Area NetworkFile Geodatabase Feature ClassShapefile0.000GCS_North_American_1983EPSG8.6.2020171220