The Idaho Topographic Map Explorer enables users to explore and download topographic maps sourced from the U.S. Geological Survey. The application uses data from the image web service: Idaho Digital Historical Topographic Maps Collection GeoService.

The ArcGIS Online US Geological Survey (USGS) topographic map collection now contains over 177,000 historical quadrangle maps dating from 1882 to 2006. The USGS Historical Topographic Map Explorer app brings these maps to life through an interface that guides users through the steps for exploring the map collection:Find a location of interest.View the maps.Compare the maps.Download and share the maps or open them in ArcGIS Desktop (ArcGIS Pro or ArcMap) where places will appear in their correct geographic location. Save the maps in an ArcGIS Online web map.

Finding the maps of interest is simple. Users can see a footprint of the map in the map view before they decide to add it to the display, and thumbnails of the maps are shown in pop-ups on the timeline. The timeline also helps users find maps because they can zoom and pan, and maps at select scales can be turned on or off by using the legend boxes to the left of the timeline. Once maps have been added to the display, users can reorder them by dragging them. Users can also download maps as zipped GeoTIFF images. Users can also share the current state of the app through a hyperlink or social media. This ArcWatch article guides you through each of these steps: https://www.esri.com/esri-news/arcwatch/1014/envisioning-the-past.Once signed in, users can create a web map with the current map view and any maps they have selected. The web map will open in ArcGIS Online. The title of the web map will be the same as the top map on the side panel of the app. All historical maps that were selected in the app will appear in the Contents section of the web map with the earliest at the top and the latest at the bottom. Turning the historical maps on and off or setting the transparency on the layers allows users to compare the historical maps over time. Also, the web map can be opened in ArcGIS Desktop (ArcGIS Pro or ArcMap) and used for exploration or data capture.Users can find out more about the USGS topograhic map collection and the app by clicking on the information button at the upper right. This opens a pop-up with information about the maps and app. The pop-up includes a useful link to a USGS web page that provides access to documents with keys explaining the symbols on historic and current USGS topographic maps. The pop-up also has a link to send Esri questions or comments about the map collection or the app.We have shared the updated app on GitHub, so users can download it and configure it to work with their own map collections.

Extreme temperatures can vary greatly across communities due to differences in land use, shade availability, proximity to water, and elevation. Spatially detailed estimates of temperature are difficult to find - often they are stations that are not regularly spaced or are from satellite observations, which estimate only the surface temperature, which can be quite different from air temperature. The PRISM Climate Group at the Oregon State University have developed an 800-meter resolution climatology of temperature for the United States that provides enough detail for intra-city temperature comparisons. It is created by a downscaling model, Parameter-elevation Regressions on Independent Slopes Model (PRISM).The 1991-2020 climate normal for maximum temperature for the month of July was downloaded and analyzed in ArcGIS Pro. Zonal Statistics provide min, max, and mean summaries for county and census tracts (2020 version) geometries. All temperatures were converted from degrees Celsius to Fahrenheit. Additionally, in each layer the mean of the maximum temperature analysis for the next order of geometry is provided (e.g., county data in the tracts layer), which allows comparison of the observed temperature to a larger geographic average. Data Source: https://www.prism.oregonstate.edu/normals/Citation: PRISM Climate Group, Oregon State University, https://prism.oregonstate.edu, data created 10 June 2022, accessed 10 June 2022

Multibeam, Singlebeam, and Sub-bottom Profile data are the main data outputs.

Use the American Viticultural Area (AVA) Map Explorer to view the boundaries of all established and proposed AVAs. The Map Explorer has information about each AVA, including its state and county, when it was established, what other AVAs it contains or is within, and a link to its codified official boundary description. You can even plot an address on the Map Explorer to see if that location is within an AVA. You can also download "shapefiles" for the various AVAs, which you can use with geographic information system (GIS) software.

The Mapping Ocean Wealth data viewer is a live online resource for sharing understanding of the value of marine and coastal ecosystems to people. It includes global maps, regionally-specific studies, reference data, and a number of “apps” providing key data analytics. Maps and apps can be opened according to key themes or geographies. The navigator the left of the maps enables you to add or remove any additional map layers as you explore. Information keys explain how the maps were made and provide additional links. Further information and resources can be found on Oceanwealth.org

• Recreation and Tourism App - Explore the value of healthy ecosystems to the tourism industry
• Natural Coastal Protection App - Discover the coastal protection benefits of coral reefs around the world
• Blue Carbon App - View Mangrove Carbon Storage
• Coral Reef Fisheries App - Learn about the status of coral reef fisheries
• Regional Planning
• Mangrove Restoration

Note: this web map is a component of the Okeanos Explorer Live Operations Map - Instant App. Please visit that app when viewing this map.This web map provides near real-time information about NOAA Ship Okeanos Explorer’s current position and meteorological readings. The map also displays the compiled ship track for the current expedition and a suite of multibeam bathymetric products, including: near-real-time bathymetric grids from Okeanos Explorer, bathymetry from past Okeanos Explorer expeditions, and all bathymetry within NCEI archives. Please reference the included layers (below) for more in-depth layer descriptions. Data collected by NOAA Ship Okeanos Explorer are accessible through the NOAA Ocean Exploration Data Atlas. Multibeam sonar data visualized within this map are accessible through NCEI's Bathymetric Data Viewer. More information regarding Okeanos Explorer operations can be found here.

About the dataLand use land cover (LULC) maps are an increasingly important tool for decision-makers in many industry sectors and developing nations around the world. The information provided by these maps helps inform policy and land management decisions by better understanding and quantifying the impacts of earth processes and human activity.ArcGIS Living Atlas of the World provides a detailed, accurate, and timely LULC map of the world. The data is the result of a three-way collaboration among Esri, Impact Observatory, and Microsoft. For more information about the data, see Sentinel-2 10m Land Use/Land Cover Time Series.About the appOne of the foremost capabilities of this app is the dynamic change analysis. The app provides dynamic visual and statistical change by comparing annual slices of the Sentinel-2 10m Land Use/Land Cover data as you explore the map.Overview of capabilities:Visual change analysis with either 'Step Mode' or 'Swipe Mode'Dynamic statistical change analysis by year, map extent, and classFilter by selected land cover classRegional class statistics summarized by administrative boundariesImagery mode for visual investigation and validation of land coverSelect imagery renderings (e.g. SWIR to visualize forest burn scars)Data download for offline use

The purpose of this dashboard is to empower community members, organizations, and other stakeholders through shared access to neighborhood-level data. The tool allows the user to view and interact with maps and reports showing data for the following Atlanta-specific geographies:City of AtlantaCity Council DistrictNeighborhood Planning Units (NPUs)Neighborhood Statistical Areas (NSAs)

The tool includes both an interactive map and report interface. The map interface enables the comparison between geographic areas within the city based on a drop-down selection of 300+ indicators across and array of categories. The report portion of the tool enables a closer look at a chosen geographic area (selected using the map) and can be tailored to the user’s specific topic of interest with pre-formatted report types, including but not limited to:

Employment EducationTransportationCrime & SafetyPoverty

Data sources:

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Atlanta Police Department, COBRA, 2012 & 2016

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Atlanta Fire Department, Emergency Call Records, 2012 & 2016

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City of Atlanta Planning Department, New Building Permits, 2013 & 2016

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U.S. Census Bureau, Decennial Census, 2000

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U.S. Census Bureau, American Community Survey (ACS), 5-year estimates, 2011-15

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U.S. Census Bureau, Longitudinal-Employer Household Dynamics (LEHD), 2002 & 2015

USGS Historical Topographic Map Explorer

COTREX Trails and Trailheads Added in February 2019, the Colorado Trail System, now titled the Colorado Trail Explorer (COTREX), endeavors to map every trail in the state of Colorado. Currently there are nearly 40,000 miles of trails mapped. Trails come from a variety of sources (USFS, BLM, local parks & recreation departments, local governments) and are compiled by CPW contractor Natural Atlas. Responsibility for accuracy of the data rests with the source.

CPW Trail Segments Recognizing that an all-inclusive, spatially-aware model of trails Colorado State Park is a useful management tool and a valuable public resource this geodatabase is designed to accomplish three objectives. 1. Inventorying all designated trails Colorado Parks & Wildlife maintain in Colorado State associate each trail segment with 38 applicable attributes. (length, width, surface, difficulty, etc.)

1. Determine and track if the following 11 uses are permitted on each trail segment: 1:Hiking, 2:Biking, 3: Equestrian 4:Pets, 5:Snowshoeing. 6: Cross Country Skiing, 7: Snowmobiling, 8: Grooming, 9: OHV 10: Other Power Driven Mobility Devices (OPDMD), 11:Wheelchair friendliness (Not ADA accessibility)

2. Model Colorado State Park Trail system in a spatially aware three dimensional space and associate each trail segment to 38 attributes that can be used to producing a set of standardized trail maps for public and internal use.

Contained within the 1st Edition (1906) of the Atlas of Canada is a map that shows the routes followed by the principal explorers from 1497 up to 1905. Each route is marked as a red line on the map, giving the name of the explorer or company, and when that person travelled along the route. The map also provides the dates of the founding principal forts and trading posts of the French, Hudson's Bay and North West Companies.

Credit report of Xplorer Llc contains unique and detailed export import market intelligence with it's phone, email, Linkedin and details of each import and export shipment like product, quantity, price, buyer, supplier names, country and date of shipment.

Credit report of Xplorer contains unique and detailed export import market intelligence with it's phone, email, Linkedin and details of each import and export shipment like product, quantity, price, buyer, supplier names, country and date of shipment.

This raster dataset corresponds to the year 1947, with data obtained from the USGS Earth Explorer, an online collection of aerial photography. This image is a mosaic of the following photo frames: 1EJA000010017, 1EJA000010019, 1EJA000010024, 1EJA000010025, 1EJA000010027, 1EJA000010066, 1EJA000010067, 1EJA000010102, 1EJA000010103, 1EJA000010106, 1EJA000020081, 1EJA000020082,Some images were clipped to fit into the Roseville City limit.

Access the Data:

Access the REST Service from https://ags.roseville.ca.us/arcgis/rest/services/PublicServices/. View the data in our Historical Imagery Collection.Add data to ArcMap or ArcPro by clicking on “View Metadata” and selecting “Open in ArcGIS Desktop”.

The Flood Plan Explorer is an online map-based system designed to hold measures associated with the Flood Risk Management Plans. The measures can contain both text and spatial data. Measures can be updated throughout the year and exported for reporting and analysis purposes.

The regional flooding and shoreline overtopping analysis maps provided in the ART Bay Shoreline Flood Explorer website capture permanent and temporary flooding impacts from sea level rise scenarios from 0- to 108-inches above MHHW (mean higher high water) and storm surge events from the 1-year to the 100-year storm surge. The process used to develop the maps included discussions with key stakeholders in each county, who reviewed the preliminary maps and provided on-the-ground verification and supplemental data to improve the accuracy of the maps. The maps and information produced through this effort can inform adaptation planning, assist in managing climate change risks, and help identify trigger points for implementing adaptation strategies to address sea level rise and flooding hazards, at both local and regional scales. The Flood Explorer maps were produced using the latest LiDAR topographic data sets, water level outputs from the FEMA San Francisco Bay Area Coastal Study (which relied in hydrodynamic modeling using MIKE21) and the San Francisco Tidal Datums Study. The 2010/2011 LIDAR applied (collected by USGS and NOAA at a 1-m resolution) was further refined through the stakeholder review process and integration of additional elevation data where available. The Flood Explorer also includes the regional shoreline delineation developed by the San Francisco Estuary Institute to represent coastal flooding and overtopping throughout the Bay Area. In sum, the maps include: 1) Flooding at ten total water levels that capture over 90 combinations of future sea level rise and storm surge scenarios; 2) Shoreline overtopping maps for all ten total water levels that depict where the Bay may overtop the shoreline and its depth of overtopping at that specific location. Coupled with the flood maps, the overtopping data can help identify vulnerable shoreline locations and their respective flow paths that could lead to inland flooding, and; 3) Hydraulically disconnected low-lying areas that represent areas that may be vulnerable to flooding due to their low elevation. These areas are not directly within flooding locations, but could be connected to flood waters through culverts and storm drains that are not captured in this analysis.

A webmap that contains a polyline network called the River Environment Classification (REC1) and links to later version called REC2. Attached to the REC polylines are the HYPE flow statistics and values._Item Page Created: 2021-04-21 06:50 Item Page Last Modified: 2025-04-05 18:54Owner: steinmetzt_NIWAHydrological_Flow_Path_Explorer_V2 - Hype flow working ProjectItem id: 9840099b2eb540b290c0ee2779f0881cHydrological_Flow_Path_Explorer_V2 - Rec1 wspItem id: 9840099b2eb540b290c0ee2779f0881c

This link provides information and additional metadata related to the USGS National Seismic Hazard Maps. A direct shapefile download is available at https://www.sciencebase.gov/catalog/item/5db9be62e4b06957974eb5caBackground on Hazard Explorer Tool:The Hazard Explorer Tool is a web mapping application available in FEMA's Preparedness Toolkit that allows exercise planners to identify hazards that exist in their community, where their population is most vulnerable, and where their critical infrastructure/key resources are at risk.The Hazard Explorer Tool was developed under the National Exercise Program, which serves as the principal mechanism for examining the preparedness and readiness of the United States across the entire homeland security and management exercise. Communities design, coordinate, conduct, and evaluate exercises across the US as a part of their preparedness efforts.The Map Journal serves as a tool to help you identify and evaluate potential exercise scenario locations, hazard exposure, and other risk-related factors to support exercise planning. In this tool, you will identify:Which hazards exist near your location;Where your population is most vulnerable; andWhat infrastructure and resources would be most impacted in your selected scenario location.The final output of this tool is a basic PDF map of your selected scenario location, as well as links to data sources that you can share with your GIS staff to conduct more in-depth analysis for use in planning and conducting your exercise.For more information on the Hazard Explorer Tool, please visit: https://preptoolkit.fema.gov/web/hazard-explorer/hazard-explorer-tool

This data set is part of a larger set of data called the Multibeam Bathymetry Database (MBBDB) where other similar data can be found at https://maps.ngdc.noaa.gov/viewers/bathymetry/