This layer is being made accessible on this platform as part of a larger collaborative project under development by Arizona Water Company, University of Arizona Water Resources Research Center, Babbitt Center for Land and Water Policy, and Center for Geospatial Solutions. This visualization for Pinal County expresses 2022 Assured and Adequate Water data and was altered to display this information with the boundaries of Pinal County, Arizona.The main sources of data present in this map were taken from the following locations:Arizona Department of Water Resources (2022)https://gisdata2016-11-18t150447874z-azwater.opendata.arcgis.com/datasets/aaws-issued-determination/explore?location=34.152689%2C-112.003340%2C7.24University of Arizona (2008)https://repository.arizona.edu/handle/10150/188734

This map is being made accessible on this platform as part of a larger collaborative project under development by Arizona Water Company, University of Arizona Water Resources Research Center, Babbitt Center for Land and Water Policy, and Center for Geospatial Solutions. This visualization expresses 2019 population projections data from the Maricopa Association of Governments (MAG), Active Management Areas, and 2021 and 2022 Assured and Adequate Water Supply and Community Water Systems data. These shapefiles were altered to display this information within Pinal County, Arizona.The main sources of data present in this feature layer were taken from the following locations:Arizona Department of Water Resources (2021 and 2022): https://gisdata2016-11-18t150447874z-azwater.opendata.arcgis.com/search?q=AMAThe University of Arizona (2008):Arizona Counties ShapefileMaricopa Association of Governments population projections (2019):Socioeconomic Projections (azmag.gov)

Geospatial data about Pinal County, Arizona Subdivisions. Export to CAD, GIS, PDF, CSV and access via API.

This dataset consists of a shapefile representing 50 foot contour intervals for Santa Cruz County, Arizona. Datasets are also available for 100', 250', and 500' intervals. Each file covers an Arizona county or part of a county and as a collection covers the entire state. The data were created by processing hillshade TIF files derived from the U.S. Geological Survey National Elevation Dataset. The processing produced ESRI formatted coverages for each county or part of a county. The U.S. Geological Survey has developed a National Elevation Dataset (NED). The NED is a seamless mosaic of best-available elevation data. The 7.5-minute elevation data for the conterminous United States are the primary initial source data. In addition to the availability of complete 7.5-minute data, efficient processing methods were developed to filter production artifacts in the existing data, convert to the NAD83 datum, edge-match, and fill slivers of missing data at quadrangle seams. One of the effects of the NED processing steps is a much-improved base of elevation data for calculating slope and hydrologic derivatives. The specifications for the NED 1 arc second and 1/3 arc second data are - Geographic coordinate system, Horizontal datum of NAD83, except for AK which is NAD27, Vertical datum of NAVD88, except for AK which is NAVD29, Z units of meters.

This layer is being made accessible on this platform as part of a larger collaborative project under development by Arizona Water Company, University of Arizona Water Resources Research Center, Babbitt Center for Land and Water Policy, and Center for Geospatial Solutions. This visualization for Pinal County expresses 2021 U.S. Census places data and was altered so as to display this information both within and outside of the Pinal County boundaries. The Active Management Areas (AMA) within Arizona can also be viewed in this visualization.The main source of data present in this map was taken from the following location:U.S. Census Bureau (2021)https://www.census.gov/cgi-bin/geo/shapefiles/index.php

The Existing Land Use (EXLU) dataset represents land use in Maricopa and Pinal Counties, Arizona. This dataset was created as a joint effort of MAG and MAG member agency staff. This dataset serves as a land use inventory and is used for a variety of planning purposes including socioeconomic forecasting and air quality modeling. Because of the level of generalization involved in creating this dataset, land use boundaries may not be accurate representations of ground conditions if used at small scales. These data were developed primarily from assessor parcel data collected in January 2021 for Maricopa County and October 2020 for Pinal County.

This is one of a series of earth fissure maps prepared by the Arizona Geological Survey ( AZGS ) in accordance with Ariz. Rev. Stat. 27-152.01(3). AZGS collected location information from previously conducted earth fissure studies, reviewed available remote-sensing aerial and satellite imagery, and conducted surface site investigations throughout the study area. A reasonable effort was made to identify all earth fissures in the study area. Nonetheless, some fissures may remain unmapped as a result of one or more of the following: 1) existing fissures may have been masked by construction or agricultural activities; 2) incipient fissures may lack clear surface expression; 3) the surface expression of fissures changes constantly as new earth fissures develop and old earth fissures fill in. A blank area on the map does not guarantee earth fissures are not present. However, blank areas within the study area boundary have been investigated, and no surface evidence of fissures was found as of the date of map publication. Determining the presence or absence of a fissure at any specific site may require additional mapping and/or geotechnical analysis.

Geologic map of the Sacaton Moutains, Pinal County, Arizona.Two map sheets, map scale 1:24,000.

A paper copy of the Geologic Map of the Catalina Core Complex and San Pedro Trough (Dickinson, 1992) was scanned and digitized by U.S. Geological Survey staff and contractors at the Southwest Field Office (Tucson, AZ) in 2000-2001 for input into an ArcInfo geographic information system (GIS). The resulting geologic map database (in ArcInfo format) can be queried in many ways to produce a variety of geologic maps. Digital base map data files. (topography, roadways, towns, and hydrography) are not included: they may be obtained from a variety of commercial and government sources. Geologic map graphics and plot files that are provided in the Open-File Report are representations of the digital database and are not designed to be cartographic products.

ADMMR map collection: Monitor Mine on Regional Geology and Index Map of Central Pinal County, Arizona; 1 in. to 6 miles; 10 x 12 in.

Plan submitted by: WBeard on 10/21/2021 USER DESCRIPTION: The areas of Arizona City/Eloy and South Casa Grande have a greater community of interest being in the same district as Marana (CD 6 on map) than with Yuma. The population balance is created by adjusting the amount of the City of Tucson within CD 7 on this map. USER PLAN OBJECTIVE: The area east of Tohono reservation in Pinal County (ELoy/S Casa Grande/AZ City) have more in common with Marana than with Yuma. Population balanced in City of Tucson. Maintains more communities of interest and doesn't affect VRA requirements.

This is one of a series of earth fissure maps prepared by the ArizonaGeological Survey ( AZGS ) in accordance with Ariz. Rev. Stat. 27-152.01(3). AZGS collected location information from previouslyconducted earth fissure studies, reviewed available remote-sensingaerial and satellite imagery, and conducted surface siteinvestigations throughout the study area. A reasonable effort wasmade to identify all earth fissures in the study area. Nonetheless,some fissures may remain unmapped as a result of one or more ofthe following:1) existing fissures may have been masked by construction oragricultural activities;2) incipient fissures may lack clear surface expression;3) the surface expression of fissures changes constantly as newearth fissures develop and old earth fissures fill in.A blank area on the map does not guarantee earth fissures are notpresent. However, blank areas within the study area boundaryhave been investigated, and no surface evidence of fissures wasfound as of the date of map publication. Determining the presenceor absence of a fissure at any specific site may require additionalmapping and/or geotechnical analysis.

no abstract provided

Link to the ScienceBase Item Summary page for the item described by this metadata record. Service Protocol: Link to the ScienceBase Item Summary page for the item described by this metadata record. Application Profile: Web Browser. Link Function: information

This is one of a series of earth fissure maps prepared by the Arizona Geological Survey ( AZGS ) in accordance with Ariz. Rev. Stat. 27-152.01(3). AZGS collected location information from previously conducted earth fissure studies, reviewed available remote-sensing aerial and satellite imagery, and conducted surface site investigations throughout the study area. A reasonable effort was made to identify all earth fissures in the study area. Nonetheless, some fissures may remain unmapped as a result of one or more of the following: 1) existing fissures may have been masked by construction or agricultural activities; 2) incipient fissures may lack clear surface expression; 3) the surface expression of fissures changes constantly as new earth fissures develop and old earth fissures fill in. A blank area on the map does not guarantee earth fissures are not present. However, blank areas within the study area boundary have been investigated, and no surface evidence of fissures was found as of the date of map publication. Determining the presence or absence of a fissure at any specific site may require additional mapping and/or geotechnical analysis.

no abstract provided

Basemap datasets comprise six of the seven FGDC themes of geospatial data that are used by most GIS applications (Note the seventh framework theme, orthographic imagery, is packaged in a separate NFIP Metadata Profile): cadastral, geodetic control, governmental unit, transportation, general structures, hydrography (water areas and lines). These data include an encoding of the geographic extent of the features and a minimal number of attributes needed to identify and describe the features. (Source: Circular A16, p. 13)

This record is maintained in the National Geologic Map Database (NGMDB). The NGMDB is a Congressionally mandated national archive of geoscience maps, reports, and stratigraphic information, developed according to standards defined by the cooperators, i.e., the USGS and the Association of American State Geologists (AASG). Included in this system is a comprehensive set of publication citations, stratigraphic nomenclature, downloadable content, unpublished source information, and guidance on standards development. The NGMDB contains information on more than 90,000 maps and related geoscience reports published from the early 1800s to the present day, by more than 630 agencies, universities, associations, and private companies. For more information, please see http://ngmdb.usgs.gov/.

The Ninetysix Hills of Pinal County, Arizona, consist of a series of low hills and pedimentsituated about half way between the towns of Florence and Catalina, and are about 70 km (45 mi.) northof Tucson (see figure 1). The low spine of hills is underlain by at least four separate granitic plutons. Theolder pluton, a coarse-grained K-feldspar megacrystic granite exposed in the south, is intruded by amedium-grained granite to granodiorite. Both of these units are locally foliated, but have mineralogic andtextural characteristics that suggest they do not belong to the regional suite of 1.65 to 1.7 Ga-old granites,but are younger. The quartz-porphyritic Teacup granodiorite (Krieger, 1974a, 1974b, Bradfish, 1979)comprises most of the northern part of the Ninetysix Hills, and is mapped to the north in the GraybackQuadrangle (Cornwall and Krieger, 1975) and North Butte Quadrangle (Spencer and Richard, 1997). TheTeacup granodiorite appears to be intruded by a younger, medium- to coarse-grained, slightlyperaluminous granite that forms the central part of the range.

This layer is being made accessible on this platform as part of a larger collaborative project under development by Arizona Water Company, University of Arizona Water Resources Research Center, Babbitt Center for Land and Water Policy, and Center for Geospatial Solutions. This visualization for Pinal County expresses 2021 Community Water Systems (CWS) data within Pinal County, Arizona. The CWS shapefile was altered to display this information with the boundaries of Pinal County, Arizona.

The main sources of data present in this feature layer were taken from the following locations:Arizona Department of Water Resources (2022)https://gisdata2016-11-18t150447874z-azwater.opendata.arcgis.com/search?q=CWSThe University of Arizona (2008)https://repository.arizona.edu/handle/10150/188734These shapefiles were altered.