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wsgs-info@wyo.gov M-F 8 am - 5 pm Mountain Time 20250101 ArcGIS Metadata 1.0 Wyoming State Geological Survey 307-745-2250 PO Box 1347 Laramie WY 82073 US wsgs-info@wyo.gov M-F 8 am - 5 pm Mountain Time None ArcGIS File Geodatabase withheld https://doi.org/10.15786/wyoscholar/10083 Saratoga 100k Bedrock Geologic Map 2025 Wyoming State Geological Survey Wyoming State Geological Survey Laramie, WY vector digital data Data Release 2025-27 Suggested citation: Wyoming State Geological Survey, 2025, Digital data for the geologic map of the Saratoga 30' x 60' quadrangle, Wyoming: Wyoming State Geological Survey Data Release 2025-27, scale 1:100,000, https://doi.org/10.15786/wyoscholar/10083. Original map publication: Sutherland, W.M., and Hausel, W.D., 2004, Preliminary geologic map of the Saratoga 30' x 60' quadrangle, Carbon and Albany counties, Wyoming: Wyoming State Geological Survey Open File Report 04-10, version 1.1, 36 p., 1 pl., scale 1:100,000. Geologic map of the Saratoga 30' x 60' Quadrangle, Carbon and Albany counties, Wyoming, Wyoming This digital database contains information used to publish the 1:100,000-scale geologic map of the Saratoga quadrangle, Wyoming. The bedrock geologic map of the Saratoga, Wyoming 1:100,000 quadrangle was developed to provide regional scale geologic mapping for city and county planning, industrial and mineral development, and general public use. This dataset is a conversion of previously published map data to conform to GeMS (Geologic Map Schema)--a standard format for the digital publication of geologic maps--and is GeMS Level 3 compliant. The objective of the data conversion is to reproduce the original published mapping with little to no added interpretation. Wyoming State Geological Survey Wyoming State Geological Survey 307-745-2250 PO Box 1347 Laramie WY 82073 US wsgs-info@wyo.gov M-F 8 am - 5 pm Mountain Time Saratoga Wyoming geoscientificInformation ISO 19115 Topic Category geology geologic map data 1:100000 geology geologic map data 1:100000 Saratoga Wyoming USE CONSTRAINTS: Users of these datasets are cautioned against using the data at scales different from those at which the maps were compiled. Using these data at a larger scale will not provide greater accuracy and is, in fact, a misuse of the data. --- The Wyoming State Geological Survey (WSGS) and State of Wyoming make no representation or warranty, expressed or implied, regarding the use, accuracy, or completeness of the data presented herein, or from a map printed from these data. The act of distribution shall not constitute such a warranty. The WSGS does not guarantee the digital data or any map printed from the data to be free of errors or inaccuracies. --- The WSGS and State of Wyoming disclaim any responsibility or liability for interpretations made from these digital data or from any map printed from these digital data, and for any decisions based on the digital data or printed maps. The WSGS and State of Wyoming retain and do not waive sovereign immunity. --- We request that credit be expressly given to the “Wyoming State Geological Survey” when citing information from this publication. USE CONSTRAINTS: Users of these datasets are cautioned against using the data at scales different from those at which the maps were compiled. Using these data at a larger scale will not provide greater accuracy and is, in fact, a misuse of the data. --- The Wyoming State Geological Survey (WSGS) and State of Wyoming make no representation or warranty, expressed or implied, regarding the use, accuracy, or completeness of the data presented herein, or from a map printed from these data. The act of distribution shall not constitute such a warranty. The WSGS does not guarantee the digital data or any map printed from the data to be free of errors or inaccuracies. --- The WSGS and State of Wyoming disclaim any responsibility or liability for interpretations made from these digital data or from any map printed from these digital data, and for any decisions based on the digital data or printed maps. The WSGS and State of Wyoming retain and do not waive sovereign immunity. --- We request that credit be expressly given to the “Wyoming State Geological Survey” when citing information from this publication. Geologic map of the Saratoga 30' x 60' Quadrangle, Carbon and Albany counties, Wyoming, Wyoming 2004 Wayne M. Sutherland W. Dan Hausel Wyoming State Geological Survey Laramie, WY map Open File Report 04-10 true -107.0160 -105.9930 41.5130 40.9869 publication date 2025-01-01 Saratoga_100k_BR_GeMS is a composite geodataset that conforms to GeMS (Geologic Map Schema)--a standard format for the digital publication of geologic maps", available at http://ngmdb.usgs.gov/Info/standards/GeMS/. Metadata records associated with each element within the geodataset contain more detailed descriptions of their purposes, constituent entities, and attributes.). An OPEN shapefile versions of the dataset is also available. It consists of shapefiles, DBF files, and delimited text files and retains all information in the native geodatabase, but some programming will likely be necessary to assemble these components into usable formats. These metadata were prepared with the aid of script GeMS_FGDCMetadata.py, version of 2/27/24. Confidence that a feature exists and confidence that a feature is correctly identified are described in per-feature attributes ExistenceConfidence and IdentityConfidence. Confidence that a feature exists and confidence that a feature is correctly identified are described in per-feature attributes ExistenceConfidence and IdentityConfidence. Map elements and topology were checked if needed. Dataset is considered complete for the information presented. Estimated accuracy of horizontal location is given on a per-feature basis by attribute LocationConfidenceMeters. Values are expected to be correct within a factor of 2. A LocationConfidenceMeters value of -9 or -9999 indicates that no value has been assigned. Estimated accuracy of horizontal location is given on a per-feature basis by attribute LocationConfidenceMeters. Values are expected to be correct within a factor of 2. A LocationConfidenceMeters value of -9 or -9999 indicates that no value has been assigned. In a GIS, digital datasets, nonspatial tables, and metadata were created and attributed in UTM Zone 13N NAD27, and reviewed to the USGS GeMS level 3 digital map standard. 2025-01-01 4850 12382 643 1604 1345 2395 467 152 2621 2395 DataSources Non-spatial table of sources of all spatial features, sources of some attributes of spatial features, and sources of some attributes of non-spatial table entries. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain Source Plain-text short description that identifies the data source. GeMS Unrepresentable domain Notes Additional information specific to a particular feature or table entry. GeMS Unrepresentable domain. Free text. Values of <null> or #null indicate no entry. URL Universal Resource Locator (URL) or Document Object Identifier (DOI), identifies a document on the World Wide Web. GeMS Unrepresentable domain DataSources_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. Glossary Non-spatial table that, for certain fields (including all Type fields, Confidence fields, and GeneralLithology), lists the terms that populate these fields, term definitions, and sources for definitions. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain Term Plain-language word for a concept. Values must be unique within database as a whole. GeMS Unrepresentable domain Definition Plain-language definition. GeMS Unrepresentable domain DefinitionSourceID Source of definition; foreign key to DataSources. GeMS DAS01 This study. This report AGI Glossary of Geology Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. This report GeMS U.S. Geological Survey National Cooperative Geologic Mapping Program, 2020, GeMS (Geologic Map Schema)—A standard format for the digital publication of geologic maps: U.S. Geological Survey Techniques and Methods, book 11, chap. B10, 74 p., https://doi.org//10.3133/tm11B10. This report FGDC-STD-013-2006 Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. This report Glossary_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. MiscellaneousMapInformation Properties of the map report as a whole. May include title, authorship, scale, geologic mapping credit, editing credit, cartography credit, date of approval, local magnetic declination, publication series and number, and base map information. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain MapProperty Name of map property. Examples include "Scale", "Authors and affiliations", "Magnetic declination". GeMS Unrepresentable domain. Free text. MapPropertyValue Value of map property. Examples = "1:24,000", "G.S. Smith1 and J. Doe2 1-Division of Geology, Some State, 2-Big University", "16.5 degrees" GeMS Unrepresentable domain. Free text. MiscellaneousMapInformation_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. GeoMaterialDict Non-spatial table that provides values of GeoMaterial, placed in a hierarchy, and their definitions. For further information, see Appendix A in GeMS documentation, available at http://ngmdb.usgs.gov/Info/standards/GeMS. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain HierarchyKey String that records hierarchical structure. Has form nn-nn-nn, nnn-nnn, or similar. Numeric, left-padded with zeros, dash-delimited. Each HierarchyKey fragment of each row MUST be the same length to allow text-based sorting of table entries. GeMS Unrepresentable domain GeoMaterial Categorization of map unit based on lithologic and genetic character, term selected from NGMDB standard term list defined in Appendix A of GeMS documentation, available at http://ngmdb.usgs.gov/Info/standards/GeMS.. GeMS Peat and muck Unconsolidated material, principally composed of plant remains, with lesser amounts of fine-grained clastic sediment. Deposited in water-saturated environment such as swamp, marsh, or bog. With lithification, such material becomes coal. GeMS Sand and gravel of unspecified origin Sediment composed mostly of sand and (or) gravel, formed by weathering and erosion of preexisting rocks or minerals; eroded particles or clasts are transported and deposited by gravity, air, water, or ice. GeMS Alluvial sediment, mostly fine-grained Unconsolidated material deposited by streams or other bodies of running water as sorted or semisorted sediment in streambed, or on its floodplain or delta, or as cone or fan at base of mountain slope. Sediment is mostly silt and clay but may also contain some sand and gravel. GeMS Mafic-composition lava flows Lateral, surficial outpourings of molten lava from vent or fissure; also, solidified bodies of rock that form when they cool. Low-silica parental magmas have low viscosity and tend to form extensive sheets that have generally low relief. Includes basaltic shield volcanoes, which may become very large (for example, in Hawaii). Composed of fine-grained, dark rocks, including basaltic. GeMS Sedimentary and extrusive igneous material Either (1) sedimentary rock and (or) unconsolidated material (sediment) and extrusive igneous material (volcanic rock and [or] sediment) or (2) volcanic rock and (or) sediment and such material after erosion and redeposition. GeMS Contact-metamorphic rock Altered rock that originated by local processes of thermal metamorphism, genetically related to intrusion and extrusion of magmas and taking place at or near contact with body of igneous rock. Metamorphic changes are effected by heat and fluids emanating from magma and by some deformation because of emplacement of igneous mass. GeMS Lacustrine sediment, mostly coarse-grained Mostly well-sorted and well-bedded material, generally sand and gravel sized, with lesser amounts of silt and clay, deposited in perennial to intermittent lakes. Much of sediment is derived from material eroded and transported by streams. Mostly deposits of lake-marginal beaches and deltas. GeMS "Made" or human-engineered land Modern, unconsolidated material known to have human-related origin. GeMS Evaporitic rock Sedimentary rock, composed primarily of minerals produced by evaporation of saline solution. Examples include gypsum, anhydrite, other diverse sulfates, halite (rock salt), primary dolomite, and rocks composed of various nitrates and borates. GeMS Air-fall tephra Fragments of volcanic rock and lava, of various sizes, carried into air by explosions and by hot gases in eruption columns or lava fountains; known as tephra. As tephra falls to ground, with increasing distance from volcano, average size of individual rock particles and thickness of resulting deposit decrease. Fine tephra deposited at some distance from volcano is known as volcanic ash. GeMS Glacial till, mostly silty Mostly unsorted and unstratified material, generally unconsolidated, deposited directly by and underneath or adjacent to glacier without subsequent reworking by meltwater. Consists of heterogeneous mixture of clay, silt, sand, gravel, and boulders, ranging widely in size and shape. Relatively loamy (silty) in texture. GeMS Volcaniclastic (fragmental) material Rock and unconsolidated material consisting of particles or clasts that were formed by volcanic explosion or aerial expulsion from volcanic vent. GeMS Marine sediment, mostly fine-grained Mostly clay- and silt-sized sediment, deposited in relatively deep, quiet water, far removed from areas where coarser grained clastic sediments are washed into marine environment. Includes sediment derived from marine organisms. GeMS Ultramafic intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at some depth beneath Earths surface, thereby cooling slowly enough for mineral crystals to grow large enough to be visible to naked eye. Composed almost entirely of mafic minerals (for example, hypersthene, augite, olivine). GeMS Fine-grained, intermediate-composition intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at shallow depth beneath Earths surface, thereby cooling quickly. Generally fine grained but may contain large mineral crystals (phenocrysts). Mostly found as tabular dikes or sills. Intermediate in color and in mineral composition (between felsic and mafic igneous rock). Includes andesitic rock. GeMS Glacial till, mostly sandy Mostly unsorted and unstratified material, generally unconsolidated, deposited directly by and underneath or adjacent to glacier without subsequent reworking by meltwater. Consists of heterogeneous mixture of clay, silt, sand, gravel, and boulders, ranging widely in size and shape. Relatively sandy in texture. GeMS Colluvium and other widespread mass-movement sediment Sediment formed by slow, relatively widespread, downslope transport of particles or clasts produced by weathering and breakdown of underlying rock, sediment, and (or) soil. Composed of poorly sorted and poorly stratified material that ranges in size from clay to boulders. GeMS Pyroclastic flows Hot ash, pumice, and rock fragments erupted from volcano or caldera. Material moves downslope commonly in chaotic flows; once deposited, hot fragments may compact under their own weight and weld together. GeMS Mass movement sediment Sediment formed by downslope transport of particles or clasts produced by weathering and breakdown of underlying rock, sediment, and (or) soil. Composed of poorly sorted and poorly stratified material that ranges in size from clay to boulders. Includes colluvial, landslide, talus, and rock-avalanche deposits. GeMS Water or ice Water or ice GeMS Sedimentary rock Consolidated material (rock) composed of particles transported and deposited by gravity, air, water, or ice, or accumulated by other natural agents operating at Earths surface, such as chemical precipitation or secretion by organisms. Does not here include sedimentary material directly deposited as result of volcanic activity. GeMS Igneous rock Rock and fragmental material that solidified from molten or partly molten material (magma). GeMS Fine-grained, mafic-composition intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at shallow depth beneath Earths surface, thereby cooling quickly. Generally fine grained but may contain large mineral crystals (phenocrysts). Mostly found as tabular dikes or sills. Composed mostly of dark-colored minerals. Includes basaltic rock. GeMS Ice-contact and ice-marginal sediment, mostly fine-grained Mostly silt- and clay-sized particles or clasts, with lesser amounts of sand and gravel, derived from rock or preexisting sediment that has been eroded and transported by glaciers. As glacier melted, material was deposited by running water essentially in contact with glacial ice or was transported and deposited by glacially fed streams. Includes sediment deposited into water bodies adjacent to glacier. GeMS Carbonate sediment Sediment formed by biotic or abiotic precipitation from aqueous solution of carbonates of calcium, magnesium, or iron (for example, limestone, dolomite). GeMS Mostly sandstone Mostly sandstone, interbedded with other sedimentary rocks that locally may include conglomerate and finer grained clastic rocks (mudstone), carbonates, and (or) coal. GeMS Dolomite Carbonate sedimentary rock, consisting chiefly of dolomite. Although dolostone is the proper analog to limestone, it has not often been applied to dolomitic units. GeMS Meta-volcaniclastic rock Rock derived from preexisting volcaniclastic rocks by essentially solid-state, mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Composed of deformed but recognizable particles or clasts of volcanic explosive material. GeMS Alluvial sediment, mostly coarse-grained Unconsolidated material deposited by streams or other bodies of running water as sorted or semisorted sediment in streambed, or on its floodplain or delta, or as cone or fan at base of mountain slope. Sediment is mostly sand, gravel, and coarser material but may also contain some silt and clay. GeMS Coastal zone sediment Mud and sand, with lesser amounts of gravel, deposited on beaches, on barrier islands, or in nearshore-marine, deltaic, or various low-energy shoreline (mud flat, tidal flat, sabka, algal flat) environments. GeMS Meta-ultramafic rock Rock derived from preexisting ultramafic rocks by essentially solid-state, mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Composed mostly of magnesium-bearing minerals (for example, serpentine, talc, magnesite). GeMS Chert Sedimentary rock, composed chiefly of microcrystalline or cryptocrystalline quartz. GeMS Ice-contact and ice-marginal sediment Mostly sand-, silt-, and gravel-sized particles or clasts derived from rock or preexisting sediment that has been eroded and transported by glaciers. As glacier melted, material was deposited by running water essentially in contact with glacial ice or was transported and deposited by glacially fed streams. Includes sediment deposited into water bodies adjacent to glacier. GeMS Lacustrine sediment Mostly well-sorted and well-bedded material that ranges in grain size from clay to gravel, deposited in perennial to intermittent lakes. Much of sediment is derived from material eroded and transported by streams. Includes deposits of lake-marginal beaches and deltas. GeMS Rock Various rock types, not differentiated. GeMS Alluvial sediment Unconsolidated material deposited by streams or other bodies of running water as sorted or semisorted sediment in streambed, or on its floodplain or delta, or as cone or fan at base of mountain slope. Grain size varies from clay to gravel. GeMS Schist and gneiss, of sedimentary-rock origin Foliated rock derived from preexisting sedimentary rocks by essentially solid-state mineralogical, chemical, or structural changes in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Includes schist (characterized by such strong foliation or alignment of minerals that it readily splits into flakes or slabs) and gneiss (characterized by alternating, irregular bands of different mineral composition). Mostly formed from fine-grained material such as mudstone. GeMS Meta-mafic rock Rock derived from preexisting mafic rocks by essentially solid-state, mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Composed mostly of iron- and magnesium-bearing, dark-colored and (or) green minerals. Includes greenstone, amphibolite, and metagabbro. GeMS Mostly mudstone Mostly mudstone, interbedded with other sedimentary rocks that locally may include coarser grained clastic rocks (sandstone, conglomerate), carbonates, and (or) coal. GeMS Intermediate-composition lava flows Lateral, surficial outpourings of molten lava from vent or fissure; also, solidified bodies of rock that form when they cool. Parental magma commonly erupts from stratovolcanoes as thick lava flows. Includes rocks that are, in color and in mineral composition, intermediate between felsic and mafic rocks (for example, andesite). GeMS Playa sediment Fine-grained clastic sediment and evaporitic salts, deposited in ephemeral lakes in centers of undrained basins. Includes material deposited in playas, mud flats, salt flats, and adjacent saline marshes. Generally interbedded with eolian sand and with lacustrine sediment deposited during wetter climatic periods; commonly intertongues upslope with sediment deposited by alluvial fans. GeMS Mudstone Sedimentary rock, composed predominantly of particles or clasts derived by erosion and weathering of preexisting rock; consists mostly of mud (that is, silt- and clay-sized particles). Includes shale and siltstone. GeMS Intrusive igneous rock Rock that solidified from molten or partly molten material (magma) below Earths surface. GeMS Sandstone and mudstone Sandstone and mudstone (including shale and siltstone), in approximately equal (or unspecified) proportions. GeMS Lacustrine sediment, mostly fine-grained Mostly well-sorted and well-bedded material, generally silt and clay sized, with lesser amounts of sand, deposited in perennial to intermittent lakes. GeMS Residual material Unconsolidated material, developed in place by weathering of underlying rock or sediment. Usually forms relatively thin surface layer that conceals unweathered or partly altered source material. Material from which soils are formed. GeMS Intermediate-composition pyroclastic flows Hot ash, pumice, and rock fragments erupted from volcano. Material moves downslope commonly in chaotic flows; once deposited, hot fragments may compact under their own weight and weld together. Parental magma commonly erupts from stratovolcanoes as thick lava flows but also can generate strong explosive eruptions to form pyroclastic flows. Includes rocks that are, in color and mineral composition, intermediate between felsic and mafic rocks (for example, andesite). GeMS Coarse-grained, mafic-composition intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at some depth beneath Earths surface, thereby cooling slowly enough for mineral crystals to grow large enough to be visible to naked eye. Composed mostly of feldspar and dark-colored minerals. Includes gabbroic rock. GeMS Coal and lignite Organic-rich sedimentary rock, formed from compaction and alteration of plant remains. Coal is consolidated, harder, black rock. Lignite is semiconsolidated, brown to black, earthy material that may contain large particles of recognizable plant parts and tends to crack upon drying. GeMS Felsic-composition pyroclastic flows Hot ash, pumice, and rock fragments erupted from volcano or caldera. Material moves downslope commonly in chaotic flows; once deposited, hot fragments may compact under their own weight and weld together. Because of their high-silica content and resulting high viscosity, parental magmas tend to erupt explosively. Includes rhyolite, dacite, trachyte, latite; rocks are commonly light-colored. GeMS Deformation-related metamorphic rock Rock derived from preexisting rocks by essentially solid-state mineralogical, chemical, or structural changes in response to strong deformation, commonly in association with marked changes in temperature, pressure, and (or) chemical environment. Generally forms in narrow, planar zones of local deformation (for example, along faults); characterized by foliation or alignment of mineral grains. Includes mylonite and cataclasite. GeMS Unmapped area Unmapped area GeMS Coastal zone sediment, mostly coarse-grained Mostly sand, silt, and gravel, deposited on beaches, in dunes, and in shallow-marine and related alluvial environments. GeMS Metasedimentary rock Rock derived from preexisting sedimentary rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. GeMS Rock and sediment Various rocks and sediment, not differentiated. GeMS Medium and high-grade regional metamorphic rock, of unspecified origin Rock derived from preexisting rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to relatively intense regional changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Origin of preexisting rock is mixed (for example, igneous and sedimentary) or is not known. Includes amphibolite, granulite, schist, and gneiss. GeMS Metaigneous rock Rock derived from preexisting igneous rocks and altered by essentially solid-state, mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, shear stress, and (or) chemical environment, generally at depth in Earths crust. GeMS Iron-rich sedimentary rock Sedimentary rock, in which at least half (by volume) of observed minerals are iron bearing (hematite, magnetite, limonite group minerals, siderite, iron sulfides). GeMS Fine-grained intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at shallow depth beneath Earths surface, thereby cooling quickly. Generally fine grained but may contain large mineral crystals (phenocrysts). Mostly found as tabular dikes or sills. GeMS Glacial till, mostly clayey Mostly unsorted and unstratified material, generally unconsolidated, deposited directly by and underneath or adjacent to glacier without subsequent reworking by meltwater. Consists of heterogeneous mixture of clay, silt, sand, gravel, and boulders, ranging widely in size and shape. Relatively clayey in texture. GeMS Meta-felsic and intermediate rock Rock derived from preexisting felsic and intermediate-composition rocks by essentially solid-state, mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Composed mostly of light-colored minerals; relatively enriched in silica. Includes metagranite, metadiorite, and meta-andesite. GeMS Quartzite Rock derived from preexisting quartz-rich sedimentary rocks (commonly sandstone) and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, shear stress, and (or) chemical environment, generally at depth in Earths crust. GeMS Coarse-grained, intermediate-composition intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at some depth beneath Earths surface, thereby cooling slowly enough for mineral crystals to grow large enough to be visible to naked eye. Intermediate in color and in mineral composition (between felsic and mafic igneous rock). Includes dioritic rock. GeMS Lower-grade metamorphic rock, of unspecified origin Rock derived from preexisting rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to relatively mild regional changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Origin of preexisting rock is mixed (for example, igneous and sedimentary) or is not known. Includes slate and phyllite. GeMS Exotic-composition intrusive igneous rock Rock that solidified from molten or partly molten material (magma) below Earths surface that has exotic mineralogical, textural, or field setting characteristics. Typically dark colored with abundant phenocrysts. Includes kimberlite, lamprophyre, lamproite, and foiditic rocks. GeMS Glacial till Mostly unsorted and unstratified material, generally unconsolidated, deposited directly by and underneath or adjacent to glacier without subsequent reworking by meltwater. Consists of heterogeneous mixture of clay, silt, sand, gravel, and boulders, ranging widely in size and shape. GeMS Sediment Unconsolidated material (sediment) composed of particles deposited by gravity, air, water, or ice, or as accumulated by other natural agents operating at Earths surface such as chemical precipitation or secretion by organisms. Does not include sedimentary material directly deposited as a result of volcanic activity. GeMS Eolian sediment Silt- and sand-sized sediment, deposited by wind. GeMS Meta-carbonate rock Rock derived from preexisting carbonate sedimentary rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Characterized by recrystallization of carbonate minerals in source rock. Includes marble (for which preexisting rock was dominantly limestone or other rock composed of calcite), dolomitic marble, meta-dolostone, and meta-dolomite (for which preexisting rock contained appreciable amount of magnesium). GeMS Coarse-grained intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at some depth beneath Earths surface, thereby cooling slowly enough for mineral crystals to grow large enough to be visible to naked eye. GeMS Marine sediment, mostly coarse-grained Mud, sand, and gravel eroded from rocks and sediment on land, transported by streams, and deposited in marine deltas and basins. Mostly siliceous in composition. GeMS Carbonate rock Sedimentary rock, consisting chiefly of carbonate minerals such as limestone or dolomite. GeMS Limestone Carbonate sedimentary rock, consisting chiefly of calcite. GeMS Volcanic mass flow Volcanic deposits formed by mass movement (for example, debris avalanches, debris flows, lahar deposits), in many cases triggered by volcanic eruption. Debris avalanches that occur on volcanoes clearly without eruptive trigger may be classified as sedimentary (for example, as Debris flows, landslides, and other localized mass-movement sediment). GeMS Regional metamorphic rock, of unspecified origin Rock derived from preexisting rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked regional changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Origin of preexisting rock is mixed (for example, igneous and sedimentary) or is not known. GeMS Felsic-composition lava flows Lateral, surficial outpourings of molten lava from vent or fissure; also, solidified bodies of rock that form when they cool. Because of their high silica content and resulting high viscosity, parental magmas tend to erupt explosively, and so these deposits are uncommon. Includes fine-grained, light-colored rock with rhyolitic, dacitic, trachytic, and latitic composition. GeMS Slate and phyllite, of sedimentary-rock origin Fine-grained rock derived from preexisting sedimentary rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Includes phyllite and slate (compact, fine-grained rock that possesses strong cleavage and, hence, can be split into slabs and thin plates). Mostly formed from fine-grained material such as mudstone. GeMS Fine-grained, felsic-composition intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at shallow depth beneath Earths surface, thereby cooling quickly. Generally fine grained but may contain large mineral crystals (phenocrysts). Mostly found as tabular dikes or sills. Composed mostly of light-colored minerals. Includes rhyolitic, dacitic, trachytic, and latitic rock. GeMS Sandstone Sedimentary rock, composed predominantly of particles or clasts derived by erosion and weathering of preexisting rock; consists mostly of sand-sized particles, with or without fine-grained matrix of silt or clay. GeMS Mostly carbonate rock Mostly carbonate rock, interbedded with other sedimentary rock types. GeMS Clastic sedimentary rock Sedimentary rock, composed predominantly of particles or clasts derived by erosion, weathering, or mass-wasting of preexisting rock and deposited by gravity, air, water, or ice. GeMS Other materials Other materials GeMS Intermediate-composition air-fall tephra Fragments of volcanic rock and lava, of various sizes, carried into the air by explosions and by hot gases in eruption columns or lava fountains; known as tephra. As tephra falls to ground, with increasing distance from volcano, average size of individual rock particles and thickness of resulting deposit decrease. Parental magma commonly erupts from stratovolcanoes as thick lava flows but also can generate strong explosive eruptions to form pyroclastic flows. Includes rocks that are, in color and mineral composition, intermediate between felsic and mafic rocks (for example, andesite). GeMS Felsic-composition air-fall tephra Fragments of volcanic rock and lava, of various sizes, carried into air by explosions and by hot gases in eruption columns or lava fountains; known as tephra. As tephra falls to ground, with increasing distance from volcano, average size of individual rock particles and thickness of resulting deposit decrease. Because of their high silica content and resulting high viscosity, felsic-composition magmas tend to erupt explosively, readily forming pumice and volcanic ash. Composed of light-colored rocks (for example, rhyolite, dacite, trachyte, latite). GeMS Extrusive igneous material Molten material that was erupted onto Earths surface, fusing into rock or remaining as unconsolidated particles. Includes pyroclastic flows, air-fall tephra, lava flows, and volcanic mass flows. GeMS Metamorphic rock Rock derived from preexisting rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. GeMS Clastic sediment Sediment formed by weathering and erosion of preexisting rocks or minerals; eroded particles or clasts are transported and deposited by gravity, air, water, or ice. GeMS Debris flows, landslides, and other localized mass-movement sediment Sediment formed by relatively localized, downslope transport of particles or clasts produced by weathering and breakdown of underlying rock, sediment, and (or) soil. Composed of poorly sorted and poorly stratified material that ranges in size from clay to boulders. Speed of downslope transport ranges from rapid to imperceptible. GeMS Lava flows Lateral, surficial outpourings of molten lava from vent or fissure; also, solidified bodies of rock that form when they cool. Composed generally of fine-grained, dark-colored rocks (for example, basalt), which tend to form extensive sheets that have generally low relief, except in vent areas where cinder cones or shield volcanoes may form. Includes basaltic shield volcanoes, which may become very large (for example, Hawaii). GeMS Igneous and metamorphic rock Consists of coarse-grained intrusive igneous rock and generally medium- to high-grade metamorphic rock. GeMS Dune sand Mostly sand-sized sediment, deposited by wind. Typically characterized by various dune landforms. GeMS Marine sediment Mud and sand, deposited in various marine environments. May originate from erosion of rocks and sediment or may be derived from marine organisms (of carbonate or siliceous composition). GeMS Coastal zone sediment, mostly fine-grained Mostly clay and silt, deposited in lagoons, tidal flats, backbarriers, and coastal marshes. GeMS Conglomerate Sedimentary rock, composed predominantly of particles or clasts derived by erosion and weathering of preexisting rock; contains more than 30 percent gravel-sized clasts. GeMS Mafic-composition air-fall tephra Fragments of volcanic rock and lava, of various sizes, carried into the air by explosions and by hot gases in eruption columns or lava fountains; known as tephra. As tephra falls to ground, with increasing distance from volcano, average size of individual rock particles and thickness of resulting deposit decrease. Because of their low silica content and resulting low viscosity, parental magmas tend to erupt gently as lava flows, and so these deposits are uncommon. Includes basalt; rocks are commonly dark-colored. GeMS Sedimentary material An aggregation of particles deposited by gravity, air, water, or ice, or as accumulated by other natural agents operating at Earths surface such as chemical precipitation or secretion by organisms. May include unconsolidated material (sediment) and (or) sedimentary rock. Does not include sedimentary material directly deposited as a result of volcanic activity. GeMS Ice-contact and ice-marginal sediment, mostly coarse-grained Mostly sand- and gravel-sized particles or clasts, with lesser amounts of silt and clay, derived from rock or preexisting sediment that has been eroded and transported by glaciers. As glacier melted, material was deposited by running water essentially in contact with glacial ice or was transported and deposited by glacially fed streams. Includes sediment deposited into water bodies adjacent to glacier. GeMS Loess Silty sediment, deposited by wind, commonly near glacial margin. GeMS Coarse-grained, felsic-composition intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at some depth beneath Earths surface, thereby cooling slowly enough for mineral crystals to grow large enough to be visible to naked eye. Composed mostly of light-colored minerals (for example, feldspar, quartz). Includes granitic, syenitic, and monzonitic rock. GeMS Mafic-composition pyroclastic flows Hot ash, pumice, and rock fragments erupted from volcano. Material moves downslope commonly in chaotic flows; once deposited, hot fragments may compact under their own weight and weld together. Because of their low silica content and resulting low viscosity, parental magmas tend to erupt gently as lava flows rather than more forcefully as pyroclastic flows. Includes basalt; rocks are commonly dark-colored. GeMS Silt and clay of unspecified origin Sediment composed mostly of silt and (or) clay, formed by weathering and erosion of preexisting rocks or minerals; eroded particles or clasts are transported and deposited by gravity, air, water, or ice. GeMS IndentedName Name with addition of leading spaces to help show rank within a hierarchical list. GeMS Unrepresentable domain Definition Plain-language definition. GeMS Unrepresentable domain DescriptionOfMapUnits Non-spatial table that captures content of the Description of Map Units (or equivalent List of Map Units and associated pamphlet text) included in a traditional paper geologic map. Has an internal hierarchy expressed by attribute HierarchyKey GeMS OBJECTID Internal feature number ESRI Unrepresentable domain MapUnit Short plain-text identifier of the map unit. Foreign key to DescriptionOfMapUnits table. GeMS Xvs mafic schist and gneiss in the Medicine Bow Mountains This study. Pfs Forelle Limestone and Satanka Shale (Permian) This study. Xsh Slaughterhouse Formation This study. Xcg Gabbro This study. Xka Keystone quartz-diorite agmatite This study. Xmg (DLG) Magnolia Formation (2,451 ± 9 Ma) This study. Qt Terrace deposits This study. Twdr Wind R iver Formation (Eocene) This study. Ku Cretaceous units, undivided This study. Xsu Ultramafic rocks, undifferentiated This study. Xg Granite and quartz monzonite and related intrusive rocks (1,600–1,800 Ma) This study. Xvp Pelitic schist in the Medicine Bow Mountains This study. Xv Metavolcanic and metasedimentary rocks (1,778.4 ± 1.7 Ma) This study. Xsq Sugarloaf Quartzite This study. Xq Quartz veins of unknown age This study. Xgr Rambler Granite (1,770 ± 3.4 Ma) This study. Xh Heart Formation This study. Xap Aplite gneiss This study. Xlb Border phase This study. Xgi Gaps Intrusion, in the central Medicine Bow Mountains (1,900–2,150 Ma) This study. Xvq Quartz-plagioclase gneiss in the Medicine Bow Mountains This study. Qls Landslide debris This study. Wsl Spring Lake Granodiorite (2,710 ± 10 Ma) This study. Qu Quaternary deposits of all types com bined where not mapped individually (Pleistocene) This study. Kmv Mesaverde Formation (Upper Cretaceous) This study. Xdl Deep Lake Group, undivided This study. Xcq (DLG) Cascade Quartzite (>2,092 ± 9 Ma) This study. Wcp Conical Peak Quartzite This study. Kmr Mowry Shale (Upper Cretaceous) This study. Xgd Granite dikes This study. Xeo Olivine gabbro This study. Xcq (SPG) Cascade Quartzite (>2,092 ± 9 Ma) This study. Xsi Singer Peak Formation This study. Wog Red-pink orthogneiss (2,683 ± 6 Ma) This study. Xlu Olivine magnetite gabbro-norite This study. Xbr Baggot Rocks Granite (2,429 ± 4 Ma) This study. IPf Fountain Formation (Pennsylvanian) This study. IPMu Amsden Formation (Pennsylvanian) and Madison Limestone (Mississippian), undivided This study. Xgf Small felsic intrusive This study. Wjc Jack Creek Quartzite This study. Xqa Quartz-andesine gneiss in the Medicine Bow Mountains This study. Kft Frontier Formation, and Mowry and Thermopolis Shales, undivided (Upper Cretaceous) This study. Xqb Quartz-biotite schist in the Medicine Bow Mountains This study. Xvg Amphibole gneiss in the Medicine Bow Mountains This study. Xs Mafic intrusive rocks (~1,800 Ma) This study. Xrv Mafic metavolcanic rocks of the Green Mountain Formation This study. Xt Towner Greenstone This study. Xz Encampment River Granodiorite (1,779 ± 5 Ma) This study. Kmb Medicine Bow Formation ation (Upper Cretaceous) This study. Xll Layered unit This study. Xf French Slate This study. Xlt Troctolite This study. Qpm Middle Pinedale glacial deposits This study. Xep Peridotite This study. Xls Lookout Schist This study. Tbp Browns Park Form ation (Miocene) This study. Xlg Gabbro-norite This study. Xgs Sierra Madre Granite (1,744–1,763 Ma) This study. Kfl Fox Hills Sandstone and Lewis Shale, undivided (Upper Cretaceous) This study. Xrm Metagraywacke of the Green Mountain Formation This study. Xvm Marble in the Medicine Bow Mountains This study. Xnr Anorthositic This study. Xlm Magnetite This study. QTg Upland gravels (Pleistocene (?) and Pliocene) This study. Xca Amphibolite This study. Xvf Felsic gneiss This study. Xp Pegmatite (1,510–1,763 Ma) This study. Xn Mafic intrusive rocks (1,700–2,300 Ma) This study. Wsm Silver Lake Metavolcanics (2,680 ± 18 Ma) This study. Qgp Pre-W isconsin glacial deposits (Pleistocene) This study. Wgn Quartzo-feldspathic gneiss This study. Xrf Felsic metavolcanic rocks of the Green Mountain Formation, 1,792 ± 15 Ma This study. Yp Pegmatite (1,514 ± 36 Ma) This study. Qtp Terraces with polygonal ground This study. Xhd Headquarters Formation This study. Wbq Bow Quartzite This study. Kf Frontier Formation (Upper Cretaceous) This study. Qle Loess This study. KJ Cretaceous and Jurassic units, undivided This study. Kcv Cloverly Formation (Lower Cretaceous) This study. Xva mylonitic biotite augen gneiss in the Medicine Bow Mountains This study. Xki Keystone quartz-diorite interlayered with adjacent rock types This study. Xno Olivine gabbro This study. Qtgo1 Middle Fork Little Laramie River glacial outwash This study. Xvx Mixed gneiss This study. Xso Olivine gabbro This study. Xnu Ultramafic rocks This study. Xsa Amphibolite This study. Twr White River Formation (Oligocene) This study. Xnd Diabasic rocks This study. Xcl Campbell Lake Formation and Lindsey Quartzite This study. Wbg Biotite gneiss This study. Xln Norite This study. Qpu Upper Pinedale glacial deposits This study. TRPcs Chinle and Chugwater Formations (Triassic), and Satanka Shale (Permian), undivided This study. MzPz Mesozoic and Paleozoic units, undivided This study. Xco Olivine gabbro This study. Xrk Rock Knoll Formation This study. Qtgo North Fork Little Laramie River glacial outwash This study. Xnf Nash Fork Formation This study. Qbs Block stream This study. Xsb Metabasalt This study. Xvr Vagner Formation This study. PIPc Casper Formation (Permian and Pennsylvanian) This study. Kmc Thermopolis Shale including Muddy Sandstone Member and Cloverly Formation, undivided (Lower Cretaceous) This study. Xsd Diabase This study. Qb Boulder field, Kennaday Peak and adjacent areas This study. Xbg Granite and quartz monzonite This study. TRPu Jelm and Chugwater Formations (Triassic), and Goose Egg Formation, Forelle Limestone, and Satanka Shale (Permian), undivided This study. Xge Granite dike This study. Xb Bottle Creek Formation This study. Xrc Chemical metasedimentary rocks of the Green Mountain Formation This study. Xvb migmatitic biotite schist and gneiss in the Medicine Bow Mountains This study. Xms Metasedimentary rocks This study. Th Hanna Form ation (Paleocene) This study. TRjc Jelm and Chugwater Formations, undivided (Triassic) This study. Xsx Metapyroxenite This study. Xvd Metasedimentary rocks, Sierra Madre This study. Qpl Lower Pinedale glacial deposits This study. Ks Steele Shale (Upper Cretaceous) This study. Wkp Kyanite Pegmatite This study. Xcp Copperton Formation This study. Qngt Neoglacial till (Holocene) This study. Qpg Pediment gravels This study. Xmg (SPG) Magnolia Formation (2,451 ± 9 Ma) This study. Xc Mullen Creek layered m afic com plex (1,777.6 ± 2.1 Ma) This study. Kn Niobrara Formation (Upper Cretaceous) This study. Ys Sherman Granite (1,433 ± 1.5 Ma) This study. Xgl Luxullianite (1,699 ± 40 Ma) This study. Wcm Colberg Metavolcanics This study. Qg Glacial deposits, undifferentiated This study. Xlo Olivine gabbro This study. Qbl Bull Lak e glacial deposits (Pleistocene) This study. Xsp Metaperidotite This study. TRPg Goose Egg Formation (Triassic and Permian) This study. Xe Elkhorn Mountain gabbro This study. Kt Thermopolis Shale (Lower Cretaceous) This study. Xna Amphibolite This study. Xk Keystone quartz-diorite (1,784.7± 1.9 Ma) This study. Tc Coalmont Formation (Eocene and Paleocene) This study. Xlr Magnetite gabbro-norite This study. Xsg Gabbro and metagabbro This study. Kfm Frontier Formation and Mowry Shale, undivided (Upper Cretaceous) This study. Xng Gabbroic rocks This study. Xgw White quartz monzonite (1,627 ± 4 Ma) This study. Xvh South Holroyd gneiss This study. Xlc Cyclic succession This study. Jms Morrison and Sundance Formations, undivided (Jurassic) This study. Yd Dike This study. QTu Quaternary and/or Tertiary deposits, undifferentiated This study. Xqc Quartz-biotite-andesine gneiss in the Medicine Bow Mountains This study. Wbp Bridger Peak Quartzite This study. Wvm Vulcan Mountain Metavolcanics This study. Xgh Horse Creek foliated granodiorite (1,777 ± 4 Ma) This study. Xrx Mixed metavolcanic and metasedimentary rocks of the Green Mountain Formation This study. Xvc Mafic metavolcanic rocks This study. Qc Colluvium This study. Qal Alluvium This study. Xmp Medicine Peak Quartzite This study. Name Name of map unit, as shown in boldface in traditional DMU, e.g., "Shnabkaib Member". Identifies unit within its hierarchical context. GeMS Unrepresentable domain FullName Name of map unit including identification of containing higher rank unit(s), e.g., "Shnabkaib Member of Moenkopi Formation". GeMS Unrepresentable domain Age Age of map unit as shown in Description of Map Units. Examples of values are "late Holocene", "Pliocene and Miocene", "Lower Cretaceous". GeMS Unrepresentable domain Description Free-format text description of map unit. Commonly structured according to one or more accepted traditions (e.g., lithology, thickness, color, weathering and outcrop characteristics, distinguishing features, genesis, age constraints) and terse. GeMS Unrepresentable domain HierarchyKey String that records hierarchical structure. Has form nn-nn-nn, nnn-nnn, or similar. Numeric, left-padded with zeros, dash-delimited. Each HierarchyKey fragment of each row MUST be the same length to allow text-based sorting of table entries. GeMS Unrepresentable domain ParagraphStyle Token that identifies formatting of paragraph(s) within traditional Description of Map Units that correspond to this table entry. GeMS DMUHeading3 Paragraph style for third order heading. Times New Roman, Regular, 10 pt, 12 pt leading, all caps, centered, 12 pt space before. U.S. Geological Survey National Cooperative Geologic Mapping Program, 2020, GeMS (Geologic Map Schema)—A standard format for the digital publication of geologic maps: U.S. Geological Survey Techniques and Methods, book 11, chap. B10, 74 p., https://doi.org//10.3133/tm11B10. DMUHeading4 Paragraph style for fourth order heading. U.S. Geological Survey National Cooperative Geologic Mapping Program, 2020, GeMS (Geologic Map Schema)—A standard format for the digital publication of geologic maps: U.S. Geological Survey Techniques and Methods, book 11, chap. B10, 74 p., https://doi.org//10.3133/tm11B10. DMUUnit1 Paragraph style for formatted description of first-rank map unit. Times New Roman, Regular, 10 pt, 12 pt leading, left justified, 66 pt left indent, –20 pt 1st line indent, 3 pt space before. U.S. Geological Survey National Cooperative Geologic Mapping Program, 2020, GeMS (Geologic Map Schema)—A standard format for the digital publication of geologic maps: U.S. Geological Survey Techniques and Methods, book 11, chap. B10, 74 p., https://doi.org//10.3133/tm11B10. DMUHeading1 Paragraph style for first order heading. Times New Roman, Bold, 12 pt, 12 pt leading, all caps, centered. U.S. Geological Survey National Cooperative Geologic Mapping Program, 2020, GeMS (Geologic Map Schema)—A standard format for the digital publication of geologic maps: U.S. Geological Survey Techniques and Methods, book 11, chap. B10, 74 p., https://doi.org//10.3133/tm11B10. DMUHeading2 Paragraph style for second order heading. Times New Roman, Bold, 10 pt, 12 pt leading, all caps, centered, 12 pt space before. U.S. Geological Survey National Cooperative Geologic Mapping Program, 2020, GeMS (Geologic Map Schema)—A standard format for the digital publication of geologic maps: U.S. Geological Survey Techniques and Methods, book 11, chap. B10, 74 p., https://doi.org//10.3133/tm11B10. DMUUnit2 Paragraph style for formatted description of second-rank map unit. Times New Roman, Regular, 10 pt, 12 pt leading, left justified, 66 pt left indent, –10 pt 1st line indent, 3 pt space before. U.S. Geological Survey National Cooperative Geologic Mapping Program, 2020, GeMS (Geologic Map Schema)—A standard format for the digital publication of geologic maps: U.S. Geological Survey Techniques and Methods, book 11, chap. B10, 74 p., https://doi.org//10.3133/tm11B10. Label Plain-text equivalent of the desired annotation for a feature: for example "14 Ma", or "^c" which (when used with the FGDC GeoAge font) results in the geologic map-unit label TRc (with TR run together to make the Triassic symbol). GeMS Unrepresentable domain Symbol Reference to a point marker, line symbol, or area-fill symbol that is used on the map graphic to denote the feature: perhaps a star for a K-Ar age locality, or a heavy black line for a fault. GeMS Unrepresentable domain AreaFillRGB {Red, Green, Blue} tuples that specify the suggested color (e.g., "255,255,255", "124,005,255") of area fill for symbolizing MapUnit. Each color value is an integer between 0 and 255, values are zero-padded to a length of 3 digits, and values are separated by commas with no space: NNN,NNN,NNN. GeMS Unrepresentable domain AreaFillPatternDescription Text description (e.g., "random small red dashes") provided as a convenience for users who must recreate symbolization. GeMS Unrepresentable domain DescriptionSourceID Source of map-unit description; foreign key to table Datasources. GeMS DAS01 This study. This report GeoMaterial Categorization of map unit based on lithologic and genetic character, term selected from NGMDB standard term list defined in Appendix A of GeMS documentation, available at http://ngmdb.usgs.gov/Info/standards/GeMS.. GeMS Igneous rock Rock and fragmental material that solidified from molten or partly molten material (magma). GeMS Sand and gravel of unspecified origin Sediment composed mostly of sand and (or) gravel, formed by weathering and erosion of preexisting rocks or minerals; eroded particles or clasts are transported and deposited by gravity, air, water, or ice. GeMS Meta-volcaniclastic rock Rock derived from preexisting volcaniclastic rocks by essentially solid-state, mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. Composed of deformed but recognizable particles or clasts of volcanic explosive material. GeMS Sandstone Sedimentary rock, composed predominantly of particles or clasts derived by erosion and weathering of preexisting rock; consists mostly of sand-sized particles, with or without fine-grained matrix of silt or clay. GeMS Metasedimentary rock Rock derived from preexisting sedimentary rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. GeMS Clastic sedimentary rock Sedimentary rock, composed predominantly of particles or clasts derived by erosion, weathering, or mass-wasting of preexisting rock and deposited by gravity, air, water, or ice. GeMS Alluvial sediment Unconsolidated material deposited by streams or other bodies of running water as sorted or semisorted sediment in streambed, or on its floodplain or delta, or as cone or fan at base of mountain slope. Grain size varies from clay to gravel. GeMS Mudstone Sedimentary rock, composed predominantly of particles or clasts derived by erosion and weathering of preexisting rock; consists mostly of mud (that is, silt- and clay-sized particles). Includes shale and siltstone. GeMS Metamorphic rock Rock derived from preexisting rocks and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, deformation, and (or) chemical environment, generally at depth in Earths crust. GeMS Quartzite Rock derived from preexisting quartz-rich sedimentary rocks (commonly sandstone) and altered by essentially solid-state mineralogical, chemical, or structural changes, in response to marked changes in temperature, pressure, shear stress, and (or) chemical environment, generally at depth in Earths crust. GeMS Debris flows, landslides, and other localized mass-movement sediment Sediment formed by relatively localized, downslope transport of particles or clasts produced by weathering and breakdown of underlying rock, sediment, and (or) soil. Composed of poorly sorted and poorly stratified material that ranges in size from clay to boulders. Speed of downslope transport ranges from rapid to imperceptible. GeMS Intrusive igneous rock Rock that solidified from molten or partly molten material (magma) below Earths surface. GeMS Sandstone and mudstone Sandstone and mudstone (including shale and siltstone), in approximately equal (or unspecified) proportions. GeMS Igneous and metamorphic rock Consists of coarse-grained intrusive igneous rock and generally medium- to high-grade metamorphic rock. GeMS Glacial till Mostly unsorted and unstratified material, generally unconsolidated, deposited directly by and underneath or adjacent to glacier without subsequent reworking by meltwater. Consists of heterogeneous mixture of clay, silt, sand, gravel, and boulders, ranging widely in size and shape. GeMS Colluvium and other widespread mass-movement sediment Sediment formed by slow, relatively widespread, downslope transport of particles or clasts produced by weathering and breakdown of underlying rock, sediment, and (or) soil. Composed of poorly sorted and poorly stratified material that ranges in size from clay to boulders. GeMS Sedimentary material An aggregation of particles deposited by gravity, air, water, or ice, or as accumulated by other natural agents operating at Earths surface such as chemical precipitation or secretion by organisms. May include unconsolidated material (sediment) and (or) sedimentary rock. Does not include sedimentary material directly deposited as a result of volcanic activity. GeMS Loess Silty sediment, deposited by wind, commonly near glacial margin. GeMS Coarse-grained, felsic-composition intrusive igneous rock Rock that solidified from molten or partly molten material (magma) at some depth beneath Earths surface, thereby cooling slowly enough for mineral crystals to grow large enough to be visible to naked eye. Composed mostly of light-colored minerals (for example, feldspar, quartz). Includes granitic, syenitic, and monzonitic rock. GeMS Sedimentary rock Consolidated material (rock) composed of particles transported and deposited by gravity, air, water, or ice, or accumulated by other natural agents operating at Earths surface, such as chemical precipitation or secretion by organisms. Does not here include sedimentary material directly deposited as result of volcanic activity. GeMS GeoMaterialConfidence Describes appropriateness of GeoMaterial term for describing the map unit. GeMS High The term and definition adequately characterize the overall lithologic nature of rocks and sediments in the map unit. Regarding the subjective term "adequately characterize", we refer to context and objectives of this classification as described in the GeMS documentation. GeMS documentation DescriptionOfMapUnits_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. MapUnitPolys Polygons that record distribution of map units (including water, snowfields, glaciers, and unmapped area) on the particular map horizon. In the original file geodatabase, this dataset is found within the GeologicMap feature dataset. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain Shape_Length Internal feature length, double ESRI Unrepresentable domain Shape_Area Internal feature area, double ESRI Unrepresentable domain MapUnit Short plain-text identifier of the map unit. Foreign key to DescriptionOfMapUnits table. GeMS Xvs mafic schist and gneiss in the Medicine Bow Mountains This study. Pfs Forelle Limestone and Satanka Shale (Permian) This study. Xsh Slaughterhouse Formation This study. Xcg Gabbro This study. Xka Keystone quartz-diorite agmatite This study. Xmg (DLG) Magnolia Formation (2,451 ± 9 Ma) This study. Qt Terrace deposits This study. Twdr Wind R iver Formation (Eocene) This study. Ku Cretaceous units, undivided This study. Xsu Ultramafic rocks, undifferentiated This study. Xg Granite and quartz monzonite and related intrusive rocks (1,600–1,800 Ma) This study. Xvp Pelitic schist in the Medicine Bow Mountains This study. Xv Metavolcanic and metasedimentary rocks (1,778.4 ± 1.7 Ma) This study. Xsq Sugarloaf Quartzite This study. Xgr Rambler Granite (1,770 ± 3.4 Ma) This study. Xh Heart Formation This study. Xlb Border phase This study. Xap Aplite gneiss This study. Xgi Gaps Intrusion, in the central Medicine Bow Mountains (1,900–2,150 Ma) This study. Xvq Quartz-plagioclase gneiss in the Medicine Bow Mountains This study. Qls Landslide debris This study. Wsl Spring Lake Granodiorite (2,710 ± 10 Ma) This study. Qu Quaternary deposits of all types com bined where not mapped individually (Pleistocene) This study. Kmv Mesaverde Formation (Upper Cretaceous) This study. Xdl Deep Lake Group, undivided This study. Xcq (DLG) Cascade Quartzite (>2,092 ± 9 Ma) This study. Wcp Conical Peak Quartzite This study. Kmr Mowry Shale (Upper Cretaceous) This study. Xeo Olivine gabbro This study. Xcq (SPG) Cascade Quartzite (>2,092 ± 9 Ma) This study. Wog Red-pink orthogneiss (2,683 ± 6 Ma) This study. Xsi Singer Peak Formation This study. Xlu Olivine magnetite gabbro-norite This study. Xbr Baggot Rocks Granite (2,429 ± 4 Ma) This study. IPf Fountain Formation (Pennsylvanian) This study. Xgf Small felsic intrusive This study. IPMu Amsden Formation (Pennsylvanian) and Madison Limestone (Mississippian), undivided This study. Wjc Jack Creek Quartzite This study. Xqa Quartz-andesine gneiss in the Medicine Bow Mountains This study. Kft Frontier Formation, and Mowry and Thermopolis Shales, undivided (Upper Cretaceous) This study. Xqb Quartz-biotite schist in the Medicine Bow Mountains This study. Xvg Amphibole gneiss in the Medicine Bow Mountains This study. Xs Mafic intrusive rocks (~1,800 Ma) This study. Xrv Mafic metavolcanic rocks of the Green Mountain Formation This study. Xt Towner Greenstone This study. Xz Encampment River Granodiorite (1,779 ± 5 Ma) This study. Kmb Medicine Bow Formation ation (Upper Cretaceous) This study. Xll Layered unit This study. Xf French Slate This study. Xlt Troctolite This study. Qpm Middle Pinedale glacial deposits This study. Xep Peridotite This study. Xls Lookout Schist This study. Tbp Browns Park Form ation (Miocene) This study. Xlg Gabbro-norite This study. Xgs Sierra Madre Granite (1,744–1,763 Ma) This study. Xrm Metagraywacke of the Green Mountain Formation This study. Kfl Fox Hills Sandstone and Lewis Shale, undivided (Upper Cretaceous) This study. Xvm Marble in the Medicine Bow Mountains This study. Xnr Anorthositic This study. Xlm Magnetite This study. QTg Upland gravels (Pleistocene (?) and Pliocene) This study. Xca Amphibolite This study. Xvf Felsic gneiss This study. Xp Pegmatite (1,510–1,763 Ma) This study. Xn Mafic intrusive rocks (1,700–2,300 Ma) This study. Wsm Silver Lake Metavolcanics (2,680 ± 18 Ma) This study. Qgp Pre-W isconsin glacial deposits (Pleistocene) This study. Wgn Quartzo-feldspathic gneiss This study. Xrf Felsic metavolcanic rocks of the Green Mountain Formation, 1,792 ± 15 Ma This study. Yp Pegmatite (1,514 ± 36 Ma) This study. Qtp Terraces with polygonal ground This study. Xhd Headquarters Formation This study. Wbq Bow Quartzite This study. Kf Frontier Formation (Upper Cretaceous) This study. Qle Loess This study. KJ Cretaceous and Jurassic units, undivided This study. Kcv Cloverly Formation (Lower Cretaceous) This study. Xva mylonitic biotite augen gneiss in the Medicine Bow Mountains This study. Xki Keystone quartz-diorite interlayered with adjacent rock types This study. Xno Olivine gabbro This study. Xvx Mixed gneiss This study. Qtgo1 Middle Fork Little Laramie River glacial outwash This study. Xso Olivine gabbro This study. Xnu Ultramafic rocks This study. Xsa Amphibolite This study. Twr White River Formation (Oligocene) This study. Xnd Diabasic rocks This study. Xcl Campbell Lake Formation and Lindsey Quartzite This study. Wbg Biotite gneiss This study. Xln Norite This study. Qpu Upper Pinedale glacial deposits This study. MzPz Mesozoic and Paleozoic units, undivided This study. Xrk Rock Knoll Formation This study. Xco Olivine gabbro This study. TRPcs Chinle and Chugwater Formations (Triassic), and Satanka Shale (Permian), undivided This study. Qtgo North Fork Little Laramie River glacial outwash This study. Xnf Nash Fork Formation This study. Qbs Block stream This study. Xsb Metabasalt This study. Xvr Vagner Formation This study. PIPc Casper Formation (Permian and Pennsylvanian) This study. Kmc Thermopolis Shale including Muddy Sandstone Member and Cloverly Formation, undivided (Lower Cretaceous) This study. Xsd Diabase This study. Qb Boulder field, Kennaday Peak and adjacent areas This study. Xbg Granite and quartz monzonite This study. TRPu Jelm and Chugwater Formations (Triassic), and Goose Egg Formation, Forelle Limestone, and Satanka Shale (Permian), undivided This study. Xb Bottle Creek Formation This study. Xge Granite dike This study. Xrc Chemical metasedimentary rocks of the Green Mountain Formation This study. Xvb migmatitic biotite schist and gneiss in the Medicine Bow Mountains This study. Xms Metasedimentary rocks This study. Th Hanna Form ation (Paleocene) This study. TRjc Jelm and Chugwater Formations, undivided (Triassic) This study. Xvd Metasedimentary rocks, Sierra Madre This study. Xsx Metapyroxenite This study. Qpl Lower Pinedale glacial deposits This study. Ks Steele Shale (Upper Cretaceous) This study. Wkp Kyanite Pegmatite This study. Xcp Copperton Formation This study. Qngt Neoglacial till (Holocene) This study. Qpg Pediment gravels This study. Xmg (SPG) Magnolia Formation (2,451 ± 9 Ma) This study. Xc Mullen Creek layered m afic com plex (1,777.6 ± 2.1 Ma) This study. Kn Niobrara Formation (Upper Cretaceous) This study. Ys Sherman Granite (1,433 ± 1.5 Ma) This study. Xgl Luxullianite (1,699 ± 40 Ma) This study. Wcm Colberg Metavolcanics This study. Qg Glacial deposits, undifferentiated This study. Xlo Olivine gabbro This study. Qbl Bull Lak e glacial deposits (Pleistocene) This study. Xsp Metaperidotite This study. TRPg Goose Egg Formation (Triassic and Permian) This study. Xe Elkhorn Mountain gabbro This study. Xna Amphibolite This study. Kt Thermopolis Shale (Lower Cretaceous) This study. Xk Keystone quartz-diorite (1,784.7± 1.9 Ma) This study. Tc Coalmont Formation (Eocene and Paleocene) This study. Xlr Magnetite gabbro-norite This study. Xsg Gabbro and metagabbro This study. Kfm Frontier Formation and Mowry Shale, undivided (Upper Cretaceous) This study. Xng Gabbroic rocks This study. Xgw White quartz monzonite (1,627 ± 4 Ma) This study. Xvh South Holroyd gneiss This study. Xlc Cyclic succession This study. Yd Dike This study. Jms Morrison and Sundance Formations, undivided (Jurassic) This study. QTu Quaternary and/or Tertiary deposits, undifferentiated This study. Wbp Bridger Peak Quartzite This study. Wvm Vulcan Mountain Metavolcanics This study. Xqc Quartz-biotite-andesine gneiss in the Medicine Bow Mountains This study. Xgh Horse Creek foliated granodiorite (1,777 ± 4 Ma) This study. Xrx Mixed metavolcanic and metasedimentary rocks of the Green Mountain Formation This study. Xvc Mafic metavolcanic rocks This study. Qc Colluvium This study. Qal Alluvium This study. Xmp Medicine Peak Quartzite This study. IdentityConfidence Confidence that feature is correctly identified. GeMS certain Identity of a feature can be determined using relevant observations and scientific judgment; therefore, one can be reasonably confident in the credibility of this interpretation. Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. questionable Identity of a feature cannot be determined using relevant observations and scientific judgment; therefore, one cannot be reasonably confident in the credibility of this interpretation. For example, IdentityConfidence = questionable is appropriate when a geologist reasons "I can see some kind of planar feature that separates map units in this outcrop, but I cannot be certain if it is a contact or a fault." Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. Label Plain-text equivalent of the desired annotation for a feature: for example "14 Ma", or "^c" which (when used with the FGDC GeoAge font) results in the geologic map-unit label TRc (with TR run together to make the Triassic symbol). GeMS Unrepresentable domain Symbol Reference to a point marker, line symbol, or area-fill symbol that is used on the map graphic to denote the feature: perhaps a star for a K-Ar age locality, or a heavy black line for a fault. GeMS Unrepresentable domain DataSourceID Source of data; foreign key to table DataSources. GeMS DAS01 This study. This report Notes Additional information specific to a particular feature or table entry. GeMS Unrepresentable domain. Free text. Values of <null> or #null indicate no entry. MapUnitPolys_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. ContactsAndFaults Contacts between map units, faults that bound map units, and associated dangling faults. Includes concealed faults and contacts, waterlines, snowfield and glacier boundaries, and map boundary. In the original file geodatabase, this dataset is found within the GeologicMap feature dataset. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain Shape_Length Internal feature length, double ESRI Unrepresentable domain Type Classifier that specifies what kind of geologic feature is represented by a database element: that a certain line within feature class ContactsAndFaults is a contact, or thrust fault, or water boundary; or that a point in GeochronPoints represents a K-Ar date. GeMS normal fault A fault in which the hanging wall has moved downward relative to the footwall. The angle of the fault is usually 45-90°, and in most cases close to 60°. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. strike-slip fault, right-lateral offset A fault on which the movement is parallel to the fault's strike. The displacement of the far block is to the right when viewed from either side. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. fault A discrete surface or zone of discrete surfaces separating two rock masses across which one mass has slid past the other. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. contact A plane or irregular surface between two types or ages of rock; examples are faults, intrusive borders, bedding planes separating distinct strata, and unconformities. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. thrust fault A fault with a dip of 45° or less over much of its extent, on which the hanging wall has moved upward relative to the footwall. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. map boundary Line defining a spatial border around the mapped area. This study. IsConcealed Flag for contacts and faults covered by overlying map unit. GeMS Unrepresentable domain LocationConfidenceMeters Estimated half-width in meters of positional uncertainty envelope; position is relative to other features in database. GeMS Positive real number. Value of -9, -99, or -999 indicates value is unknown. ExistenceConfidence Confidence that feature exists. GeMS certain Identity of a feature can be determined using relevant observations and scientific judgment; therefore, one can be reasonably confident in the credibility of this interpretation. Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. IdentityConfidence Confidence that feature is correctly identified. GeMS certain Identity of a feature can be determined using relevant observations and scientific judgment; therefore, one can be reasonably confident in the credibility of this interpretation. Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. Label Plain-text equivalent of the desired annotation for a feature: for example "14 Ma", or "^c" which (when used with the FGDC GeoAge font) results in the geologic map-unit label TRc (with TR run together to make the Triassic symbol). GeMS Unrepresentable domain Symbol Reference to a point marker, line symbol, or area-fill symbol that is used on the map graphic to denote the feature: perhaps a star for a K-Ar age locality, or a heavy black line for a fault. GeMS Unrepresentable domain DataSourceID Source of data; foreign key to table DataSources. GeMS DAS01 This study. This report Notes Additional information specific to a particular feature or table entry. GeMS Unrepresentable domain. Free text. Values of <null> or #null indicate no entry. ContactsAndFaults_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. GeologicLines Lines that represent dikes, coal seams, ash beds, fold hinge-surface traces, isograds, and other linear features. All have these properties: (A) They do not participate in map-unit topology. (B) They correspond to features that exist within the Earth and may be concealed beneath younger, covering, material. (C) They are located with an accuracy that likely can be estimated. In the original file geodatabase, this dataset is found within the GeologicMap feature dataset. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain Shape_Length Internal feature length, double ESRI Unrepresentable domain Type Classifier that specifies what kind of geologic feature is represented by a database element: that a certain line within feature class ContactsAndFaults is a contact, or thrust fault, or water boundary; or that a point in GeochronPoints represents a K-Ar date. GeMS breccia A coarse-grained clastic rock, composed of angular broken rock fragments held together by a mineral cement or in a fine-grained matrix; it differs from conglomerate in that the fragments have sharp edges and unworn corners. Breccia may originate as a result of sedimentary processes such as talus accumulation (sedimentary breccia); igneous processes, esp. explosive (igneous breccia, volcanic breccia); disturbance during sedimentation (intraclastic breccia); collapse of rock material (solution breccia, collapse breccia); or tectonic processes (fault breccia). Etymol: Italian, "broken stones, rubble". Syn: rubblerock. Cf: conglomerate. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. anticline A fold, generally convex upward, whose core contains the stratigraphically older rocks. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. overturned syncline A fold of which the core contains the stratigraphically younger rocks; it is usually concave upward, whose top surface is now tilted past 90°. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. overturned anticline A fold, generally convex upward, whose core contains the stratigraphically older rocks, whose top surface is now tilted past 90°. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. syncline A fold of which the core contains the stratigraphically younger rocks; it is generally concave upward. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. shear A deformation resulting from stresses that cause or tend to cause contiguous parts of a body to slide relatively to each other in a direction parallel to their plane of contact. It is the mode of failure of a body or mass whereby the portion of the mass on one side of a plane or surface slides past the portion on the opposite side. In geological literature the term refers almost invariably to strain rather than to stress. It is also used to refer to surfaces and zones of failure by shear, and to surfaces along which differential movement has taken place. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. IsConcealed Flag for contacts and faults covered by overlying map unit. GeMS Unrepresentable domain LocationConfidenceMeters Estimated half-width in meters of positional uncertainty envelope; position is relative to other features in database. GeMS Positive real number. Value of -9, -99, or -999 indicates value is unknown. ExistenceConfidence Confidence that feature exists. GeMS certain Identity of a feature can be determined using relevant observations and scientific judgment; therefore, one can be reasonably confident in the credibility of this interpretation. Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. IdentityConfidence Confidence that feature is correctly identified. GeMS certain Identity of a feature can be determined using relevant observations and scientific judgment; therefore, one can be reasonably confident in the credibility of this interpretation. Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. Symbol Reference to a point marker, line symbol, or area-fill symbol that is used on the map graphic to denote the feature: perhaps a star for a K-Ar age locality, or a heavy black line for a fault. GeMS Unrepresentable domain Label Plain-text equivalent of the desired annotation for a feature: for example "14 Ma", or "^c" which (when used with the FGDC GeoAge font) results in the geologic map-unit label TRc (with TR run together to make the Triassic symbol). GeMS Unrepresentable domain DataSourceID Source of data; foreign key to table DataSources. GeMS DAS01 This study. This report Notes Additional information specific to a particular feature or table entry. GeMS Unrepresentable domain. Free text. Values of <null> or #null indicate no entry. GeologicLines_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. CartographicLines Lines (e.g., cross-section lines) that have no real-world physical existence, such that LocationConfidenceMeters, ExistenceConfidence, and IdentityConfidence attributes are meaningless, and that are never shown as concealed beneath a covering unit. In the original file geodatabase, this dataset is found within the GeologicMap feature dataset. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain Shape_Length Internal feature length, double ESRI Unrepresentable domain Type Classifier that specifies what kind of geologic feature is represented by a database element: that a certain line within feature class ContactsAndFaults is a contact, or thrust fault, or water boundary; or that a point in GeochronPoints represents a K-Ar date. GeMS leader A line that connects annotation to a feature. This study. Symbol Reference to a point marker, line symbol, or area-fill symbol that is used on the map graphic to denote the feature: perhaps a star for a K-Ar age locality, or a heavy black line for a fault. GeMS Unrepresentable domain Label Plain-text equivalent of the desired annotation for a feature: for example "14 Ma", or "^c" which (when used with the FGDC GeoAge font) results in the geologic map-unit label TRc (with TR run together to make the Triassic symbol). GeMS Unrepresentable domain DataSourceID Source of data; foreign key to table DataSources. GeMS DAS01 This study. This report Notes Additional information specific to a particular feature or table entry. GeMS Unrepresentable domain. Free text. Values of <null> or #null indicate no entry. CartographicLines_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. MapUnitLines Lines that record distribution of map units of narrow, linear extent on the particular map horizon. In the original file geodatabase, this dataset is found within the GeologicMap feature dataset. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain Shape_Length Internal feature length, double ESRI Unrepresentable domain MapUnit Short plain-text identifier of the map unit. Foreign key to DescriptionOfMapUnits table. GeMS Xvg Amphibole gneiss in the Medicine Bow Mountains This study. Xnd Diabasic rocks This study. Yd Dike This study. Xs Mafic intrusive rocks (~1,800 Ma) This study. Wkp Kyanite Pegmatite This study. Xp Pegmatite (1,510–1,763 Ma) This study. Yp Pegmatite (1,514 ± 36 Ma) This study. Xn Mafic intrusive rocks (1,700–2,300 Ma) This study. Xq Quartz veins of unknown age This study. Xgd Granite dikes This study. Xg Granite and quartz monzonite and related intrusive rocks (1,600–1,800 Ma) This study. Xna Amphibolite This study. IsConcealed Flag for contacts and faults covered by overlying map unit. GeMS Unrepresentable domain LocationConfidenceMeters Estimated half-width in meters of positional uncertainty envelope; position is relative to other features in database. GeMS Positive real number. Value of -9, -99, or -999 indicates value is unknown. ExistenceConfidence Confidence that feature exists. GeMS certain Identity of a feature can be determined using relevant observations and scientific judgment; therefore, one can be reasonably confident in the credibility of this interpretation. Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. IdentityConfidence Confidence that feature is correctly identified. GeMS certain Identity of a feature can be determined using relevant observations and scientific judgment; therefore, one can be reasonably confident in the credibility of this interpretation. Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. Label Plain-text equivalent of the desired annotation for a feature: for example "14 Ma", or "^c" which (when used with the FGDC GeoAge font) results in the geologic map-unit label TRc (with TR run together to make the Triassic symbol). GeMS Unrepresentable domain Symbol Reference to a point marker, line symbol, or area-fill symbol that is used on the map graphic to denote the feature: perhaps a star for a K-Ar age locality, or a heavy black line for a fault. GeMS Unrepresentable domain PlotAtScale At what scale (or larger) should this observation or analysis be plotted? At smaller scales, it should not be plotted. Useful to prevent crowding of display at small scales and to display progressively more data at larger and larger scales. Value is scale denominator. GeMS Positive real number. DataSourceID Source of data; foreign key to table DataSources. GeMS DAS01 This study. This report Notes Additional information specific to a particular feature or table entry. GeMS Unrepresentable domain. Free text. Values of <null> or #null indicate no entry. MapUnitLines_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. OrientationPoints Point structure data (e.g., bedding attitudes, foliation attitudes, slip vectors measured at a point, etc.), one point per measurement. Multiple measurements at a single station (e.g., bedding and cleavage) should have the same StationsID. In the original file geodatabase, this dataset is found within the GeologicMap feature dataset. GeMS OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain Type Classifier that specifies what kind of geologic feature is represented by a database element: that a certain line within feature class ContactsAndFaults is a contact, or thrust fault, or water boundary; or that a point in GeochronPoints represents a K-Ar date. GeMS lineation A general, nongeneric term for a locally linear structure or fabric in a rock, e.g. flow lines, scratches, striae, slickensides or slickenfibers on a single surface; linear arrangements of components in sediments; or axes of folds. Lineation in metamorphic rocks includes aligned rod-shaped and/or elongate minerals grains, crenulation fold axes, and the lines of intersection between bedding and cleavage or any two sets of oriented surfaces (O'Leary et al., 1976; El-Etr, 1976). Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. vertical bedding Vertical or near vertical bedding. This study. vertical foliation Vertical metamorphic or tectonic foliation. This study. overturned bedding Bedding that has been tilted beyond the perpendicular. Sequence of strata thus appears reversed. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. inclined bedding (a) An inclusive term for bedding inclined to the principal surface of deposition. (b) Bedding laid down with primary or initial dip (Dennis, 1967, p.12). Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. foliation A general term for a planar arrangement of textural or structural features in any type of rock, esp. the locally planar fabric in a rock defined by a fissility, a preferred orientation of crystal planes in mineral grains, a preferred orientation of inequant grain shapes, or from compositional banding. In igneous rocks, planar parallelism of flaky or tabular minerals and mineral aggregates, slabby xenoliths, or flattened vesicles as well as compositional layering. In metamorphic rocks, planar parallelism of flaky minerals and compositional layering. Neuendorf, K.K.E., Mehl, J.P., Jr., and Jackson, J.A., eds., 2005, Glossary of geology (5th ed.): Alexandria, Va., American Geological Institute, 779 p. Azimuth Strike or trend, measured in degrees clockwise from geographic North. Use right-hand rule (dip is to right of azimuth direction). Horizontal planar features may have any azimuth. GeMS 0 360 degrees (angular measure) Inclination Dip or plunge, measured in degrees down from horizontal. Negative values allowed when specifying vectors (not axes) that point above the horizon, e.g., paleocurrents. Types defined as horizontal (e.g., horizontal bedding) shall have Inclination=0. GeMS -90 90 degrees (angular measure) Symbol Reference to a point marker, line symbol, or area-fill symbol that is used on the map graphic to denote the feature: perhaps a star for a K-Ar age locality, or a heavy black line for a fault. GeMS Unrepresentable domain Label Plain-text equivalent of the desired annotation for a feature: for example "14 Ma", or "^c" which (when used with the FGDC GeoAge font) results in the geologic map-unit label TRc (with TR run together to make the Triassic symbol). GeMS Unrepresentable domain LocationConfidenceMeters Estimated half-width in meters of positional uncertainty envelope; position is relative to other features in database. GeMS Positive real number. Value of -9, -99, or -999 indicates value is unknown. IdentityConfidence Confidence that feature is correctly identified. GeMS certain Identity of a feature can be determined using relevant observations and scientific judgment; therefore, one can be reasonably confident in the credibility of this interpretation. Federal Geographic Data Committee [prepared for the Federal Geographic Data Committee by the U.S. Geological Survey], 2006, FGDC Digital Cartographic Standard for Geologic Map Symbolization: Reston, Va., Federal Geographic Data Committee Document Number FGDC-STD-013-2006, 290 p., 2 plates. OrientationConfidenceDegrees Estimated angular precision of combined azimuth AND inclination measurements, in degrees. GeMS Positive real number. Value of -9, -99, or -999 indicates value is unknown. PlotAtScale At what scale (or larger) should this observation or analysis be plotted? At smaller scales, it should not be plotted. Useful to prevent crowding of display at small scales and to display progressively more data at larger and larger scales. Value is scale denominator. GeMS Positive real number. StationsID Foreign key to Stations point feature class. GeMS Unrepresentable domain MapUnit Short plain-text identifier of the map unit. Foreign key to DescriptionOfMapUnits table. GeMS Xvs mafic schist and gneiss in the Medicine Bow Mountains This study. Xsh Slaughterhouse Formation This study. Xcg Gabbro This study. Xmg (DLG) Magnolia Formation (2,451 ± 9 Ma) This study. Qt Terrace deposits This study. Twdr Wind R iver Formation (Eocene) This study. Xg Granite and quartz monzonite and related intrusive rocks (1,600–1,800 Ma) This study. Xvp Pelitic schist in the Medicine Bow Mountains This study. Xv Metavolcanic and metasedimentary rocks (1,778.4 ± 1.7 Ma) This study. Xsq Sugarloaf Quartzite This study. Xh Heart Formation This study. Xvq Quartz-plagioclase gneiss in the Medicine Bow Mountains This study. Qls Landslide debris This study. Wsl Spring Lake Granodiorite (2,710 ± 10 Ma) This study. Qu Quaternary deposits of all types com bined where not mapped individually (Pleistocene) This study. Kmv Mesaverde Formation (Upper Cretaceous) This study. Xdl Deep Lake Group, undivided This study. Xcq (DLG) Cascade Quartzite (>2,092 ± 9 Ma) This study. Kmr Mowry Shale (Upper Cretaceous) This study. Wog Red-pink orthogneiss (2,683 ± 6 Ma) This study. Xcq (SPG) Cascade Quartzite (>2,092 ± 9 Ma) This study. Xsi Singer Peak Formation This study. Xbr Baggot Rocks Granite (2,429 ± 4 Ma) This study. IPf Fountain Formation (Pennsylvanian) This study. Xgf Small felsic intrusive This study. Xqa Quartz-andesine gneiss in the Medicine Bow Mountains This study. Xqb Quartz-biotite schist in the Medicine Bow Mountains This study. Xvg Amphibole gneiss in the Medicine Bow Mountains This study. Xs Mafic intrusive rocks (~1,800 Ma) This study. Xrv Mafic metavolcanic rocks of the Green Mountain Formation This study. Xt Towner Greenstone This study. Xvc Mafic metavolcanic rocks This study. Xz Encampment River Granodiorite (1,779 ± 5 Ma) This study. Kmb Medicine Bow Formation ation (Upper Cretaceous) This study. Xf French Slate This study. Xls Lookout Schist This study. Tbp Browns Park Form ation (Miocene) This study. Xgs Sierra Madre Granite (1,744–1,763 Ma) This study. Xrm Metagraywacke of the Green Mountain Formation This study. Kfl Fox Hills Sandstone and Lewis Shale, undivided (Upper Cretaceous) This study. Xlm Magnetite This study. Xvf Felsic gneiss This study. Xn Mafic intrusive rocks (1,700–2,300 Ma) This study. Wsm Silver Lake Metavolcanics (2,680 ± 18 Ma) This study. Wgn Quartzo-feldspathic gneiss This study. Xrf Felsic metavolcanic rocks of the Green Mountain Formation, 1,792 ± 15 Ma This study. Xhd Headquarters Formation This study. Wbq Bow Quartzite This study. Kf Frontier Formation (Upper Cretaceous) This study. Kcv Cloverly Formation (Lower Cretaceous) This study. Xva mylonitic biotite augen gneiss in the Medicine Bow Mountains This study. Xno Olivine gabbro This study. Xvx Mixed gneiss This study. Xnu Ultramafic rocks This study. Xcl Campbell Lake Formation and Lindsey Quartzite This study. Wbg Biotite gneiss This study. Xrk Rock Knoll Formation This study. Xnf Nash Fork Formation This study. Xvr Vagner Formation This study. PIPc Casper Formation (Permian and Pennsylvanian) This study. Xsd Diabase This study. TRPu Jelm and Chugwater Formations (Triassic), and Goose Egg Formation, Forelle Limestone, and Satanka Shale (Permian), undivided This study. Xb Bottle Creek Formation This study. Xvb migmatitic biotite schist and gneiss in the Medicine Bow Mountains This study. Xms Metasedimentary rocks This study. Th Hanna Form ation (Paleocene) This study. TRjc Jelm and Chugwater Formations, undivided (Triassic) This study. Ks Steele Shale (Upper Cretaceous) This study. Xcp Copperton Formation This study. Xmg (SPG) Magnolia Formation (2,451 ± 9 Ma) This study. Xc Mullen Creek layered m afic com plex (1,777.6 ± 2.1 Ma) This study. Kn Niobrara Formation (Upper Cretaceous) This study. Ys Sherman Granite (1,433 ± 1.5 Ma) This study. Wcm Colberg Metavolcanics This study. Qg Glacial deposits, undifferentiated This study. Xe Elkhorn Mountain gabbro This study. Xk Keystone quartz-diorite (1,784.7± 1.9 Ma) This study. Xsg Gabbro and metagabbro This study. Xng Gabbroic rocks This study. Xgw White quartz monzonite (1,627 ± 4 Ma) This study. Xvh South Holroyd gneiss This study. Xqc Quartz-biotite-andesine gneiss in the Medicine Bow Mountains This study. Wbp Bridger Peak Quartzite This study. Wvm Vulcan Mountain Metavolcanics This study. QTu Quaternary and/or Tertiary deposits, undifferentiated This study. Xgh Horse Creek foliated granodiorite (1,777 ± 4 Ma) This study. Xrx Mixed metavolcanic and metasedimentary rocks of the Green Mountain Formation This study. Wcp Conical Peak Quartzite This study. Qc Colluvium This study. Qal Alluvium This study. Xmp Medicine Peak Quartzite This study. LocationSourceID Source of location; foreign key to table DataSources. GeMS DAS01 This study. This report OrientationSourceID Source of orientation data; foreign key to table DataSources. GeMS DAS01 This study. This report Notes Additional information specific to a particular feature or table entry. GeMS Unrepresentable domain. Free text. Values of <null> or #null indicate no entry. OrientationPoints_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. CartographicPoints Points that represent independently placed line symbols, such as fault and fold decorations. Wyoming State Geological Survey OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain Type Classifier that specifies what kind of geologic feature is represented by a database element: that a certain line within feature class ContactsAndFaults is a contact, or thrust fault, or water boundary; or that a point in GeochronPoints represents a K-Ar date. GeMS line decoration Locations where line symbols (e.g., ball and bar, question mark) are independently placed on the map for better display. This study. Symbol Reference to a point marker, line symbol, or area-fill symbol that is used on the map graphic to denote the feature: perhaps a star for a K-Ar age locality, or a heavy black line for a fault. GeMS Unrepresentable domain Rotation Cartographic rotation, measured in degrees clockwise. Wyoming State Geological Survey Unrepresentable domain Label Plain-text equivalent of the desired annotation for a feature: for example "14 Ma", or "^c" which (when used with the FGDC GeoAge font) results in the geologic map-unit label TRc (with TR run together to make the Triassic symbol). GeMS Unrepresentable domain LocationConfidenceMeters Estimated half-width in meters of positional uncertainty envelope; position is relative to other features in database. GeMS Positive real number. Value of -9, -99, or -999 indicates value is unknown. PlotAtScale At what scale (or larger) should this observation or analysis be plotted? At smaller scales, it should not be plotted. Useful to prevent crowding of display at small scales and to display progressively more data at larger and larger scales. Value is scale denominator. GeMS Positive real number. StationsID Foreign key to Stations point feature class. GeMS Unrepresentable domain MapUnit Short plain-text identifier of the map unit. Foreign key to DescriptionOfMapUnits table. GeMS Xqb Quartz-biotite schist in the Medicine Bow Mountains This study. Xvg Amphibole gneiss in the Medicine Bow Mountains This study. Ks Steele Shale (Upper Cretaceous) This study. Xs Mafic intrusive rocks (~1,800 Ma) This study. Xsh Slaughterhouse Formation This study. Xt Towner Greenstone This study. Xmg (DLG) Magnolia Formation (2,451 ± 9 Ma) This study. Xcp Copperton Formation This study. Xva mylonitic biotite augen gneiss in the Medicine Bow Mountains This study. Qt Terrace deposits This study. Qpg Pediment gravels This study. Xg Granite and quartz monzonite and related intrusive rocks (1,600–1,800 Ma) This study. Xc Mullen Creek layered m afic com plex (1,777.6 ± 2.1 Ma) This study. Kn Niobrara Formation (Upper Cretaceous) This study. Ys Sherman Granite (1,433 ± 1.5 Ma) This study. Xsa Amphibolite This study. Twr White River Formation (Oligocene) This study. Xvp Pelitic schist in the Medicine Bow Mountains This study. Qpm Middle Pinedale glacial deposits This study. Xls Lookout Schist This study. Tbp Browns Park Form ation (Miocene) This study. Xv Metavolcanic and metasedimentary rocks (1,778.4 ± 1.7 Ma) This study. Xsq Sugarloaf Quartzite This study. Xcl Campbell Lake Formation and Lindsey Quartzite This study. Wcm Colberg Metavolcanics This study. Xgs Sierra Madre Granite (1,744–1,763 Ma) This study. Qg Glacial deposits, undifferentiated This study. Xh Heart Formation This study. Kfl Fox Hills Sandstone and Lewis Shale, undivided (Upper Cretaceous) This study. Qpu Upper Pinedale glacial deposits This study. Xrk Rock Knoll Formation This study. MzPz Mesozoic and Paleozoic units, undivided This study. Qls Landslide debris This study. Qu Quaternary deposits of all types com bined where not mapped individually (Pleistocene) This study. Qtgo North Fork Little Laramie River glacial outwash This study. Xnf Nash Fork Formation This study. Kmv Mesaverde Formation (Upper Cretaceous) This study. Xlm Magnetite This study. Xk Keystone quartz-diorite (1,784.7± 1.9 Ma) This study. PIPc Casper Formation (Permian and Pennsylvanian) This study. Xvr Vagner Formation This study. Tc Coalmont Formation (Eocene and Paleocene) This study. Xcq (DLG) Cascade Quartzite (>2,092 ± 9 Ma) This study. Xn Mafic intrusive rocks (1,700–2,300 Ma) This study. Qc Colluvium This study. Wcp Conical Peak Quartzite This study. Wsm Silver Lake Metavolcanics (2,680 ± 18 Ma) This study. Kmr Mowry Shale (Upper Cretaceous) This study. Qb Boulder field, Kennaday Peak and adjacent areas This study. Xcq (SPG) Cascade Quartzite (>2,092 ± 9 Ma) This study. TRPu Jelm and Chugwater Formations (Triassic), and Goose Egg Formation, Forelle Limestone, and Satanka Shale (Permian), undivided This study. Wog Red-pink orthogneiss (2,683 ± 6 Ma) This study. Wbq Bow Quartzite This study. Xvb migmatitic biotite schist and gneiss in the Medicine Bow Mountains This study. Xqc Quartz-biotite-andesine gneiss in the Medicine Bow Mountains This study. Wgn Quartzo-feldspathic gneiss This study. QTu Quaternary and/or Tertiary deposits, undifferentiated This study. Wbp Bridger Peak Quartzite This study. Th Hanna Form ation (Paleocene) This study. Xms Metasedimentary rocks This study. IPf Fountain Formation (Pennsylvanian) This study. Xgh Horse Creek foliated granodiorite (1,777 ± 4 Ma) This study. Xrx Mixed metavolcanic and metasedimentary rocks of the Green Mountain Formation This study. Xvc Mafic metavolcanic rocks This study. Xhd Headquarters Formation This study. Xsg Gabbro and metagabbro This study. Qal Alluvium This study. Xmp Medicine Peak Quartzite This study. LocationSourceID Source of location; foreign key to table DataSources. GeMS DAS01 This study. This report DataSourceID Source of data; foreign key to table DataSources. GeMS DAS01 This study. This report Notes Additional information specific to a particular feature or table entry. GeMS Unrepresentable domain. Free text. Values of <null> or #null indicate no entry. CartographicPoints_ID Primary key. GeMS Arbitrary string. Values should be unique within this database. MapUnitLinesAnno ArcGIS annotation feature class ESRI OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain FeatureID Value controls placement or representation of annotation ESRI Unrepresentable domain ZOrder Value controls placement or representation of annotation ESRI Unrepresentable domain AnnotationClassID Value controls placement or representation of annotation ESRI Unrepresentable domain Element Value controls placement or representation of annotation ESRI Unrepresentable domain SymbolID Value controls placement or representation of annotation ESRI Unrepresentable domain Status Value controls placement or representation of annotation ESRI Unrepresentable domain TextString Value controls placement or representation of annotation ESRI Unrepresentable domain FontName Value controls placement or representation of annotation ESRI Unrepresentable domain FontStyle Value controls placement or representation of annotation ESRI Unrepresentable domain FontSize Value controls placement or representation of annotation ESRI Unrepresentable domain Underline Value controls placement or representation of annotation ESRI Unrepresentable domain VerticalAlignment Value controls placement or representation of annotation ESRI Unrepresentable domain HorizontalAlignment Value controls placement or representation of annotation ESRI Unrepresentable domain XOffset Value controls placement or representation of annotation ESRI Unrepresentable domain YOffset Value controls placement or representation of annotation ESRI Unrepresentable domain Angle Value controls placement or representation of annotation ESRI Unrepresentable domain FontLeading Value controls placement or representation of annotation ESRI Unrepresentable domain WordSpacing Value controls placement or representation of annotation ESRI Unrepresentable domain CharacterWidth Value controls placement or representation of annotation ESRI Unrepresentable domain CharacterSpacing Value controls placement or representation of annotation ESRI Unrepresentable domain FlipAngle Value controls placement or representation of annotation ESRI Unrepresentable domain Override BLOB field that stores feature-specific overrides to the cartographic representation rules. ESRI Unrepresentable domain Shape_Length Internal feature length, double ESRI Unrepresentable domain Shape_Area Internal feature area, double ESRI Unrepresentable domain MapUnitPolysAnno Annotation layer for MapUnitPolys. Wyoming State Geological Survey OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain FeatureID Value controls placement or representation of annotation ESRI Unrepresentable domain ZOrder Value controls placement or representation of annotation ESRI Unrepresentable domain AnnotationClassID Value controls placement or representation of annotation ESRI Unrepresentable domain Element Value controls placement or representation of annotation ESRI Unrepresentable domain SymbolID Value controls placement or representation of annotation ESRI Unrepresentable domain Status Value controls placement or representation of annotation ESRI Unrepresentable domain TextString Value controls placement or representation of annotation ESRI Unrepresentable domain FontName Value controls placement or representation of annotation ESRI Unrepresentable domain FontStyle Value controls placement or representation of annotation ESRI Unrepresentable domain FontSize Value controls placement or representation of annotation ESRI Unrepresentable domain Underline Value controls placement or representation of annotation ESRI Unrepresentable domain VerticalAlignment Value controls placement or representation of annotation ESRI Unrepresentable domain HorizontalAlignment Value controls placement or representation of annotation ESRI Unrepresentable domain XOffset Value controls placement or representation of annotation ESRI Unrepresentable domain YOffset Value controls placement or representation of annotation ESRI Unrepresentable domain Angle Value controls placement or representation of annotation ESRI Unrepresentable domain FontLeading Value controls placement or representation of annotation ESRI Unrepresentable domain WordSpacing Value controls placement or representation of annotation ESRI Unrepresentable domain CharacterWidth Value controls placement or representation of annotation ESRI Unrepresentable domain CharacterSpacing Value controls placement or representation of annotation ESRI Unrepresentable domain FlipAngle Value controls placement or representation of annotation ESRI Unrepresentable domain Override BLOB field that stores feature-specific overrides to the cartographic representation rules. ESRI Unrepresentable domain Shape_Length Internal feature length, double ESRI Unrepresentable domain Shape_Area Internal feature area, double ESRI Unrepresentable domain OrientationPointsAnno Annotation layer for OrientationPoints. Wyoming State Geological Survey OBJECTID Internal feature number ESRI Unrepresentable domain Shape Internal geometry object ESRI Unrepresentable domain FeatureID Value controls placement or representation of annotation ESRI Unrepresentable domain ZOrder Value controls placement or representation of annotation ESRI Unrepresentable domain AnnotationClassID Value controls placement or representation of annotation ESRI Unrepresentable domain Element Value controls placement or representation of annotation ESRI Unrepresentable domain SymbolID Value controls placement or representation of annotation ESRI Unrepresentable domain Status Value controls placement or representation of annotation ESRI Unrepresentable domain TextString Value controls placement or representation of annotation ESRI Unrepresentable domain FontName Value controls placement or representation of annotation ESRI Unrepresentable domain FontStyle Value controls placement or representation of annotation ESRI Unrepresentable domain FontSize Value controls placement or representation of annotation ESRI Unrepresentable domain Underline Value controls placement or representation of annotation ESRI Unrepresentable domain VerticalAlignment Value controls placement or representation of annotation ESRI Unrepresentable domain HorizontalAlignment Value controls placement or representation of annotation ESRI Unrepresentable domain XOffset Value controls placement or representation of annotation ESRI Unrepresentable domain YOffset Value controls placement or representation of annotation ESRI Unrepresentable domain Angle Value controls placement or representation of annotation ESRI Unrepresentable domain FontLeading Value controls placement or representation of annotation ESRI Unrepresentable domain WordSpacing Value controls placement or representation of annotation ESRI Unrepresentable domain CharacterWidth Value controls placement or representation of annotation ESRI Unrepresentable domain CharacterSpacing Value controls placement or representation of annotation ESRI Unrepresentable domain FlipAngle Value controls placement or representation of annotation ESRI Unrepresentable domain Override BLOB field that stores feature-specific overrides to the cartographic representation rules. ESRI Unrepresentable domain Shape_Length Internal feature length, double ESRI Unrepresentable domain Shape_Area Internal feature area, double ESRI Unrepresentable domain