A digital orthophoto is a georeferenced image prepared from aerial imagery, or other remotely-sensed data in which the displacement within the image due to sensor orientation and terrain relief has been removed. Orthophotos combine the characteristics of an image with the geometric qualities of a map. Orthoimages show ground features such as roads, buildings, and streams in their proper positions, without the distortion characteristic of unrectified aerial imagery. Digital orthoimages produced and used within the Forest Service are developed from imagery acquired through various national and regional image acquisition programs. The resulting orthoimages, also known as orthomaps, can be directly applied in remote sensing, GIS and mapping applications. They serve a variety of purposes, from interim maps to references for earth science investigations and analysis. Because of the orthographic property, an orthoimage can be used like a map for measurement of distances, angles, and areas with scale being constant everywhere. Also, they can be used as map layers in GIS or other computer-based manipulation, overlaying, and analysis. An orthoimage differs from a map in a manner of depiction of detail; on a map only selected detail is shown by conventional symbols, whereas on an orthoimage all details appear just as in original aerial or satellite imagery.

A digital orthophoto is a georeferenced image prepared from aerial imagery, or other remotely-sensed data in which the displacement within the image due to sensor orientation and terrain relief has been removed. Orthophotos combine the characteristics of an image with the geometric qualities of a map. Orthoimages show ground features such as roads, buildings, and streams in their proper positions, without the distortion characteristic of unrectified aerial imagery. Digital orthoimages produced and used within the Forest Service are developed from imagery acquired through various national and regional image acquisition programs. The resulting orthoimages, also known as orthomaps, can be directly applied in remote sensing, GIS and mapping applications. They serve a variety of purposes, from interim maps to references for earth science investigations and analysis. Because of the orthographic property, an orthoimage can be used like a map for measurement of distances, angles, and areas with scale being constant everywhere. Also, they can be used as map layers in GIS or other computer-based manipulation, overlaying, and analysis. An orthoimage differs from a map in a manner of depiction of detail; on a map only selected detail is shown by conventional symbols, whereas on an orthoimage all details appear just as in original aerial or satellite imagery.This record was taken from the USDA Enterprise Data Inventory that feeds into the https://data.gov catalog. Data for this record includes the following resources: ISO-19139 metadata ArcGIS Hub Dataset ArcGIS GeoServiceFor complete information, please visit https://data.gov.

This data set is a digital soil survey and generally is the most detailed level of soil geographic data developed by the National Cooperative Soil Survey. The information was prepared by digitizing maps, by compiling information onto a planimetric correct base and digitizing, or by revising digitized maps using remotely sensed and other information. This data set consists of georeferenced digital map data and computerized attribute data. The map data are in a soil survey area extent format and include a detailed, field verified inventory of soils and miscellaneous areas that normally occur in a repeatable pattern on the landscape and that can be cartographically shown at the scale mapped. A special soil features layer (point and line features) is optional. This layer displays the location of features too small to delineate at the mapping scale, but they are large enough and contrasting enough to significantly influence use and management. The soil map units are linked to attributes in the National Soil Information System relational database, which gives the proportionate extent of the component soils and their properties.

A digital orthophoto is a georeferenced image prepared from aerial imagery, or other remotely-sensed data in which the displacement within the image due to sensor orientation and terrain relief has been removed. Orthophotos combine the characteristics of an image with the geometric qualities of a map. Orthoimages show ground features such as roads, buildings, and streams in their proper positions, without the distortion characteristic of unrectified aerial imagery. Digital orthoimages produced and used within the Forest Service are developed from imagery acquired through various national and regional image acquisition programs. The resulting orthoimages, also known as orthomaps, can be directly applied in remote sensing, GIS and mapping applications. They serve a variety of purposes, from interim maps to references for earth science investigations and analysis. Because of the orthographic property, an orthoimage can be used like a map for measurement of distances, angles, and areas with scale being constant everywhere. Also, they can be used as map layers in GIS or other computer-based manipulation, overlaying, and analysis. An orthoimage differs from a map in a manner of depiction of detail; on a map only selected detail is shown by conventional symbols, whereas on an orthoimage all details appear just as in original aerial or satellite imagery.This record was taken from the USDA Enterprise Data Inventory that feeds into the https://data.gov catalog. Data for this record includes the following resources: ISO-19139 metadata ArcGIS Hub Dataset ArcGIS GeoServiceFor complete information, please visit https://data.gov.

Plan submitted by: Schaumloffel on 10/21/2021 USER DESCRIPTION: In this version based off LD Test Map Version 6.1, southern parts of Arizona are replicated from the LD0033 map (Districts 16 through 23, minus 22). Districts 9 and 10 were also rotated to have a vertical boundary. Finally, San Tan Valley was united in District 15, and Gold Canyon and an eastern portion of Apache Junction were moved into District 7. USER PLAN OBJECTIVE: N/A

Plan submitted by: CCArizona on 10/7/2021 USER DESCRIPTION: This is the map submission of the Yavapai-Apache Nation, focused only on Legislative District 6. Please see the comments submitted by letter from Chairman Jon Huey. USER PLAN OBJECTIVE: This is the submission of the Yavapai-Apache Nation to the IRC in the Grid Maps phase of the redistricting process. This map is exclusively focused on Legislative District 6, which would include the Yavapai-Apache Nation, as well as 9 other federally recognized tribes. This map would preserve an opportunity district for Native American voters in north and eastern Arizona. The other districts in the map have been population balanced for submission but do not reflect the intent of the the Yavapai-Apache Nation.

Plan submitted by: AriBradshaw on 10/17/2021 USER DESCRIPTION: N/A USER PLAN OBJECTIVE: Dear public, commission, and mapping team:

This map follows many of the comments received at the latest IRC meeting in addition to a few parameters we feel must be followed to the best of the IRC's ability. The numbers we have used in this map are arbitrary and can be aligned closer with the current IRC numbers. Each district is equal in population.

The Phoenix-Mesa metro area holds 2/3 of the population. It holds that it should have 2/3 of the congressional districts without marginalizing the voices of rural counties.

Tucson can largely fit within one congressional district. Its suburbs can be split and its exurbs can be included into an "East Pima" district alongside a rural district.

We want to honor as best as possible the Latino coalition's map for a Phoenix district.

We have created two rural districts. CD1 combines the Colorado River counties with the Flagstaff-Prescott corridor. We exclude North Coconino and Mohave counties into CD2 as their towns of Fredonia and Colorado City are beyond the Grand Canyon and share more in common with the Mormon settlements of Apache and Navajo counties. The Kaibab reservation gets to have a voice alongside many other natives. CD1 combines the river natives with the Canyon natives and the Southern natives. The IRC made it clear that they wanted the Yuma natives and Tohono natives to be in the same district and so we have accomplished such with minimal compromise.

The East Valley is split into two districts. The far east includes San Tan Valley, Apache Junction, and much of the far east and south of the urban area. The other district includes all of Tempe south of the river alongside Ahwatukee and large portions of Mesa.

There exists a Northeast Valley district that consists of the rapidly changing downtown Phoenix, Uptown, Arcadia, Scottsdale, Fountain Hills, and the Salt River and Fort Mohave Natives. New River, Anthem, Cave Creek, and Carefree are included as well due to their community of interest with Northeast Phoenix and Scottsdale.

The Latino district is largely the same as that submitted by the coalition. We have traded a portion of downtown Phoenix that has much more in common with Arcadia and Uptown than it does with South Phoenix for more of Southwest Phoenix.

District 4 is a suburban and exurban district that covers most of Pinal county in addition to Buckeye, Goodyear, and Avondale. The borders lie across from retirement communities such as Sun City. The only major area of compromise on this entire map is found in this area and it is fixable with some effort - the town of Coolidge, AZ.

This map contains four competitive districts. By trading some blocks between District 5 and District 4 near Glendale, we can create five competitive districts.

This map contains a total of three minority-majority districts (CD3, 4, and 7) with one district at 50.95% non-hispanic white (CD2). By trading land between CD2 and CD3, we can achieve a total of four minority-majority districts.

Abraham and I highly urge the committee and mapping team to consider this map and its choice to leave Maricopan interests out of Rural districts and to consolidate Tucson into one district with its exurbs in another and its suburbs split.

Thank you so much for your time and dedication to the State of Arizona and all of its people. God Bless.

Plan submitted by: redistrictadmin on 10/26/2021 USER DESCRIPTION: In this version based off LD Test Map Version 8.0, LD Test Map Version 9.1 looks to move Flowing Wells into District 20. All of Red Rock and Vail are moved into District 17, while Tucson Estates, Oracle, Sane Manuel, and Mammoth move into District 16. The Davis-Monthan Air Base is moved into District 21, and Quail Creek Country Club, Amado, Tubac, and the eastern half of Santa Cruz County are moved into District 19. Finally, all of Coolidge is united in District 16, and District 7 moves further west into Apache Junction. USER PLAN OBJECTIVE: N/A