The interactive map creation tools market is experiencing robust growth, driven by increasing demand for visually engaging data representation across diverse sectors. The market's value is estimated at $2 billion in 2025, exhibiting a Compound Annual Growth Rate (CAGR) of 15% from 2025 to 2033. This growth is fueled by several factors, including the rising adoption of location-based services, the proliferation of readily available geographic data, and the growing need for effective data visualization in business intelligence and marketing. The individual user segment currently holds a significant share, but corporate adoption is rapidly expanding, propelled by the need for sophisticated map-based analytics and internal communication. Furthermore, the paid use segment is anticipated to grow more quickly than the free use segment, reflecting the willingness of businesses and organizations to invest in advanced features and functionalities. This trend is further amplified by the increasing integration of interactive maps into various platforms, such as business intelligence dashboards and website content. Geographic expansion is also a significant growth driver. North America and Europe currently dominate the market, but the Asia-Pacific region is showing significant promise due to rapid technological advancements and increasing internet penetration. Competitive pressures remain high, with established players such as Google, Mapbox, and ArcGIS StoryMaps vying for market share alongside innovative startups offering specialized solutions. The market's restraints are primarily focused on the complexities of data integration and the technical expertise required for effective map creation. However, ongoing developments in user-friendly interfaces and readily available data integration tools are mitigating these challenges. The future of the interactive map creation tools market promises even greater innovation, fueled by developments in augmented reality (AR), virtual reality (VR), and 3D visualization technologies. We expect to see the emergence of more sophisticated tools catering to niche requirements, further driving market segmentation and specialization. Continued investment in research and development will also play a crucial role in pushing the boundaries of what's possible with interactive map creation. The market presents opportunities for companies to develop tools which combine data analytics and interactive map design.

The dataset presents a list of laboratories set up in the humanities, digital humanities, and media studies within universities across the world in 1983-2018. The data are collected and organized in an interactive map designed in the digital StoryMapJS tool, creating a valuable visible representation of the laboratory concept from a geographical and historical perspective. Based on the interactive map, I analyze the history of the laboratory in the humanities within a global context from the 1980s to 2018. The dataset includes 214 laboratories.

Data collection

I identified laboratories by using different resources such as universities’ websites, articles, and research projects. Besides, I sent a questionnaire to the most relevant networks in October 2018 to identify even more labs created in (digital) humanities and media studies at universities.

Data organization

I collected data about each lab based on its website and other resources. I extracted the following data: year established, year ended (if applicable), lab’s name, university, city, country, affiliation and location (if provided), disciplines and keywords (based on labs’ statements and projects and aiming to situate a lab), selected projects (if provided), purpose (a short quotation of a lab’s statement published on its website), website, and geographical latitude and longitude. I organized all the data in chronological order according to year established in Google Sheets. Next, I used StoryMapJS, a free tool designed by the Northwestern University’s Knight Lab, to map my data.

If you do not have access to an institutional ArcGIS account, you will need to create a free account via our website in order to access the StoryMaps for Research Template.Visit the Teaching Research with StoryMaps Hub, click “Sign In,” and click “Create an Account.” Follow the prompts.

This dataset shows points of interest around Wicklow Mountains National Park, which have been included in an online mapping application - Wicklow Mountains Story Map Tour. CSV file contains points of interest in Wicklow Mountains National Park, along with descriptions and coordinates (Irish Transverse Mercator, Irish Grid and WGS84). Zip folder contains the images used in the Story Map.

In 1860, about half of Fauquier County’s population was made up of free and enslaved African Americans. On the heels of the historical periods of slavery, Reconstruction, Jim Crow, the great migration, civil rights and integration, descendants of these residents now make up less than 10 percent of Fauquier’s population. Only remnants of their many communities are still present, yet their contributions to Fauquier County remain.

This story map attempts to tell the history of the lives of these often overlooked and forgotten Americans.

As community-driven nonprofit organizations, the Afro-American Historical Association of Fauquier County and The Piedmont Environmental Council rely on member support, feedback and engagement. If you feel inspired by what you see in the story map, learn more about Fauquier’s historic African American communities and expand or share your knowledge by:

Visiting www.aahafauquier.org and searching the available databases for more information which include 1867 Voters, African American Marriages, Bible Records, Born Free & Emancipated, and AAHA Archives. Reaching out to info@aahafauquier.org with photos, information, documentation, stories etc…or simply to share your response to the story map. We would love to hear from you! Contacting your elected officials and asking them to support greater local, state and federal recognition of these important, but often overlooked communities and historic resources. Looking forward, AAHA and PEC are already thinking on ways to add, enhance or add new resource layers to this story map project. Potential future additions include: church and community cemeteries, burial sites of the enslaved, and known small family burial sites; sites of impactful historical events; names and location of early African-American owned businesses; sites of fraternal lodges and the story of civic role they played in the African American community, and more!Stay tuned and please contact AAHA with questions and feedback: www.aahafauquier.org/contact

Activity - Ancient CivilizationsIn this Esri Canada activity, students will explore the Ancient Civilizations story map of Mesopotamia, Egypt and Indus Valley to discover the influence they have had on our present day culture.Answer the following questions:1. What constitutes a civilization?2. Explain how the physical environment influenced the development of an ancient society.3. Identify specific examples of influences and contributions from ancient cultures (e.g., writing system, number system, philosophy, education, religion and spirituality, visual arts, architecture, time-keeping) and describe them in terms of their presence in present-day cultures.4. Identify the similarities and differences between the development and characteristics of these civilizations.Learning Outcomes1. Understand what constitutes a civilization.(British Columbia - Grade 7 Social Studies; Manitoba – Grade 8 Social Studies; Newfoundland and Labrador - Grade 10 History; New Brunswick – Grade 10 History; Nova Scotia - Grade 10 History; Ontario – Grade 4 Social Studies; Prince Edward Island – Grade 5 Social Studies and Grade 11 Geography; Saskatchewan – Grade 9 Social Studies; Yukon - Grade 7 Social Studies)2. Understand how the physical environment influenced the development of an ancient society.(British Columbia - Grade 7 Social Studies; Manitoba – Grade 8 Social Studies; Newfoundland and Labrador - Grade 5 Social Studies, Grade 10 History; New Brunswick – Grade 10 History; Nova Scotia - Grade 10 History; Ontario – Grade 4 Social Studies; Prince Edward Island – Grade 5 Social Studies and Grade 11 Geography; Saskatchewan – Grade 9 Social Studies; Yukon - Grade 7 Social Studies)3. Through specific examples of influences and contributions from ancient cultures (e.g., writing system, number system, philosophy, education, religion and spirituality, visual arts, architecture, time-keeping) understand how they are used in our present-day cultures.(British Columbia - Grade 7 Social Studies; Manitoba – Grade 8 Social Studies; Newfoundland and Labrador - Grade 10 History; New Brunswick – Grade 10 History; Nova Scotia -Grade 10 History; Ontario - Grade 12 History; Saskatchewan – Grade 9 Social Studies; Yukon - Grade 7 Social Studies)Curriculum Connections:

Province/Territory Grade

Subject

British Columbia 7

Social Studies

Manitoba 8

Social Studies

New Brunswick 10 History

Newfoundland and Labrador 10 History

Nova Scotia 10 History

Ontario 4, 12 SS, History

Prince Edward Island 5

Social Studies

Saskatchewan 9

Social Studies

Yukon 7

Social Studies Note: This story map is a broad overview of the ancient civilizations of Mesopotamia, Egypt and the Indus Valley. Please refer to the resources links included in the story map to find more information.To access other free resources - visit esri.ca/lessonplanner.

NOTICE TO PROVISIONAL 2023 LAND USE DATA USERS: Please note that on December 6, 2024 the Department of Water Resources (DWR) published the Provisional 2023 Statewide Crop Mapping dataset. The link for the shapefile format of the data mistakenly linked to the wrong dataset. The link was updated with the appropriate data on January 27, 2025. If you downloaded the Provisional 2023 Statewide Crop Mapping dataset in shapefile format between December 6, 2024 and January 27, we encourage you to redownload the data. The Map Service and Geodatabase formats were correct as posted on December 06, 2024.

Thank you for your interest in DWR land use datasets.

The California Department of Water Resources (DWR) has been collecting land use data throughout the state and using it to develop agricultural water use estimates for statewide and regional planning purposes, including water use projections, water use efficiency evaluations, groundwater model developments, climate change mitigation and adaptations, and water transfers. These data are essential for regional analysis and decision making, which has become increasingly important as DWR and other state agencies seek to address resource management issues, regulatory compliances, environmental impacts, ecosystem services, urban and economic development, and other issues. Increased availability of digital satellite imagery, aerial photography, and new analytical tools make remote sensing-based land use surveys possible at a field scale that is comparable to that of DWR’s historical on the ground field surveys. Current technologies allow accurate large-scale crop and land use identifications to be performed at desired time increments and make possible more frequent and comprehensive statewide land use information. Responding to this need, DWR sought expertise and support for identifying crop types and other land uses and quantifying crop acreages statewide using remotely sensed imagery and associated analytical techniques. Currently, Statewide Crop Maps are available for the Water Years 2014, 2016, 2018- 2022 and PROVISIONALLY for 2023.

Historic County Land Use Surveys spanning 1986 - 2015 may also be accessed using the CADWR Land Use Data Viewer: https://gis.water.ca.gov/app/CADWRLandUseViewer.

For Regional Land Use Surveys follow: https://data.cnra.ca.gov/dataset/region-land-use-surveys.

For County Land Use Surveys follow: https://data.cnra.ca.gov/dataset/county-land-use-surveys.

For a collection of ArcGIS Web Applications that provide information on the DWR Land Use Program and our data products in various formats, visit the DWR Land Use Gallery: https://storymaps.arcgis.com/collections/dd14ceff7d754e85ab9c7ec84fb8790a.

Recommended citation for DWR land use data: California Department of Water Resources. (Water Year for the data). Statewide Crop Mapping—California Natural Resources Agency Open Data. Retrieved “Month Day, YEAR,” from https://data.cnra.ca.gov/dataset/statewide-crop-mapping.

Here we present a geospatial dataset representing local- and regional-scale aquifer system boundaries, defined on the basis of an extensive literature review and published in GebreEgziabher et al. (2022). Nature Communications, 13, 2129, https://www.nature.com/articles/s41467-022-29678-7

The database contains 440 polygons, each representing one study area analyzed in GebreEgziabher et al. (2022). The attribute table associated with the shapefile has two fields (column headings): (1) aquifer system title (Ocala Uplift sub-area of the broader Floridan Aquifer System), and (2) broader aquifer system title (e.g., the Floridan Aquifer System).

• to explore the available data via an interactive app please visit the following URL: https://ucsb.maps.arcgis.com/apps/instant/nearby/index.html?appid=2a238e4ed2434d21b3b53c861a064d8f
• to explore the 3D nature of a dozen aquifer systems please see the following storymap: https://storymaps.arcgis.com/stories/a91f061759e64e44af38daf6cefa4259

A County Geologic Atlas (CGA) project is a study of a county's geology, and its mineral and ground-water resources. The information collected during the project is used to develop maps, data-base files, and reports. This same information is also produced as digital files. The map information is formatted as geographic information system (GIS) files with associated data bases. The maps and reports are also reproduced as portable document files (PDFs) that can be opened on virtually any computer using the free Acrobat Reader from Adobe.com. All of the digital files for the CGA's can be downloaded from the University of Minnesota Digital Conservancy. The majority of the files can also be viewed and queried through the use of this Story Map.Atlas information is commonly used in planning and environmental protection programs, as an educational resource, and by industries involved in water and mineral resources. It represents a comprehensive, detailed compilation of geologic data and interpretations within a county. The distribution and character of geologic materials determine how and where water enters the earth, and where it is stored in aquifers that can supply our needs. Geologic maps are a key element in delineating those flow paths and in relating land use to water quality. The atlas also provides a framework and terminology to support more detailed, site-specific studies. The records of water wells drilled in the area are an important source of data for constructing the maps and for understanding the distribution and use of ground water in the county. A data base of the information from those wells is one of the atlas products, and it can be queried with the GIS files to yield valuable insights for managing the ground-water resource.The atlas is also useful to non-professionals who simply wish to learn more about the geology of the county. It is a one-stop, comprehensive collection of information in a variety of forms and styles that should be useful to anyone with an interest in earth science or the county.The geologic data and maps are produced and distributed by the Minnesota Geological Survey (MGS) as Part A of an Atlas. The Minnesota Department of Natural Resources follows with an investigation of the quantity, quality, and pollution sensitivity of ground water. Their products are distributed as Part B of the atlas, at a later date. If necessary, a report with additional information that was not possible to include on the limited space of the printed maps is produced by MGS as Part C of, or included as a supplement to, an atlas. The Atlas CD or DVD, which is available online at the Digital Conservancy, includes all the atlas products developed by the Minnesota Geological Survey.

The nine Fairville labs are linked to citizen-led initiatives by local groups partnering with the project. The Fairville labs are established in eight European and African cities: Berlin (Germany), Brussels (Belgium), Calarasi (Romania), Dakar (Senegal), Giza (Egypt), London (UK), Marseille (France) and West Attica (Greece). They have co-created an one online story map, by Fairville Lab. The dedicated homepage with all stories is intended to be updated as the project progresses, particularly with the collective mapping task and the co-production of proposals. For each Fairville Lab two elements had to be produced: (1) an introduction text, presenting the Lab, the challenges encountered, main objectives, project partners, key stages, … (2) the story of the Lab. The narratives created by the Labs could concern the whole Lab process with different steps (chronology) and/or specific aspects (thematics, places, communities…). The choice of medium for sharing this story was left free: photos and text published on the Fairville blog, annotated pictures to share online, interactive maps, graphic designed timelines, graphic facilitation board or sketchnotes, posters, comic strips, podcasts, video interviews, diagrams…

El siguiente Story Map Journal presenta el estudio y análisis de la migración puertorriqueña a los Estados Unidos de 1940-2010. El proyecto fue creado para propósitos pedagógicos, por ende busca enseñar de manera digital e interactiva la migración y como está se relaciona con la identidad cultural puertorriqueña, ver la historia con los detalles migratorios, ayudara a comprender la formación de varias culturas puertorriqueñas. Para esto se tuvo en consideración los Estándares de Contenido y Expectativas de Grado en Puerto Rico del Programa de Estudios Sociales, para estudiantes de Quinto Grado, estándar #4 "Identidad Cultural".

El Story Map Journal contiene mapas poblaciones que comparan la cantidad de puertorriqueños por década en Puerto Rico y Estados Unidos, mapas de las diferentes olas migratorias por década, imágenes representativas de cada década, noticias del periódico El Mundo (hasta 1980), noticias del periódico El Nuevo Día (desde 1990) y datos históricos que ayudan a entender mejor las razones principales de las migraciones de cada década. Por otra parte, para generar el siguiente proyecto se utilizaron diversas fuentes de información, entre ellas algunos textos, bases de datos, imágenes y vídeos los cuales posibilitaron la creación de este Story Map Journal. En el caso de los mapas y gráficas aquí publicados, se utilizaron principalmente los datos poblacionales del Instituto de Estadísticas de Puerto Rico y del United States Census Bureau.



Bibliografías:

Texto:

Open the Data Resource: https://apps.fs.usda.gov/fsgisx01/rest/services/RDW_LandscapeAndWildlife/USFS_Riparian_Areas/ImageServer The USFS National Riparian Area Base Map shows national riparian areas for the conterminous United States. Riparian areas are an important natural resource with high biological diversity. These ecosystems contain specific vegetation and soil characteristics which support irreplaceable values and multiple ecosystem functions and are very responsive to changes in land management activities. Delineating and quantifying riparian areas is an essential step in riparian monitoring, planning, management, and policy decisions. The USDA Forest Service supports the development and implementation of a national context framework with a multi-scale approach to define riparian areas utilizing free available national geospatial datasets. This layer was created to estimate 50-year flood height riparian areas to support statistical analysis, map display and model parameterization. Fifty-year flood heights were estimated using U.S. Geological Survey stream gage information. NHDPlus version 2.1 was used as the hydrologic framework to delineate riparian areas. The U.S. Fish and Wildlife Service's National Wetland Inventory and USGS 10-meter digital elevation models were also used in processing these data. The data are '1' if in the riparian zone and 'NoData' if outside the riparian zone. When displayed on a map, riparian zone cells are color-coded 'blue' with 25% transparency. For data access, visit the Research Data Archive. For additional information regarding methodologies for modeling and processing these data, see Abood et al. (2012) and the National Riparian Areas Base Map Story Map.

THE GEOINQUIRIES™ COLLECTION FOR EARTH SCIENCE

http://www.esri.com/geoinquiries

The Esri GeoInquiry™ collection for Earth Science contains 15 free, web-mapping activities that correspond and extend map-based concepts in leading middle school Earth science textbooks. The activities use a standard inquiry-based instructional model, require only 15 minutes for a teacher to deliver, and are device agnostic. The activities harmonize with the Next Generation Science Standards.

All American Literature GeoInquiries™ can be found at: http://esriurl.com/earthGeoInquiry

All GeoInquiries™ can be found at: http://www.esri.com/geoinquiries

Population density can also be used as an indication for the urban heat island effect. High population densities are associated with the lack of green space, high building mass, and high production of anthropogenic heat per area. Elderly people are a group that is particularly vulnerable to climate change. Clicking on the map symbols reveals the percentage of urban populations age 65 or older. The density calculation includes only the urbanised land of the cities. The reference year for population is 2004. Density was calculated per urbanised area inside the core city. A description on how this area is calculated can be found here. Population data has been extracted from the Urban Audit database (EUROSTAT). The reference year is 2004. Further data sets used are: GMES Urban Atlas, reference year 2006 Urban Morphological Zones(2000) The original map is presented in the EEA report 2/2012 'Urban adaptation to climate change in Europe': map 2.5, data table in Annex II Re-use of content for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged. This map is provided for general information purposes only. Only the data possessed by the competent authorities of the Member States is authentic. Therefore, no rights or legal claims can be derived from the data displayed on this site. Click EUROSTAT data (Urban Audit database and Urban Audit perception survey) to read their legal statement.

The overview map Federal Waterways Map BWK1000 contains federal waterways, the seat of the higher, middle and lower authorities, waterway classification, information about kilometerage, free or impounded river stretches, locks, ship lifts, barrages, places, other water bodies and borders. Delivery as color plot A0. Publisher: Federal Ministry of Transport, Building and Urban Development (BMVBS)

Explore the interactive maps showing the average delay and average speed on the Strategic Road Network and Local ‘A’ Roads in England, in 2020.

Additional http://bit.ly/COVID_Congestion_Analysis" class="govuk-link">Analysis on the impact of the Coronavirus (COVID-19) pandemic on the road journeys is also available. This story map contains charts and interactive maps for road journeys in England.

On the Strategic Road Network (SRN) for 2020, the average delay is estimated to be 6.7 seconds per vehicle per mile compared to speed limits travel times, a 29.5% decrease compared to 2019.

The average speed is estimated to be 61.8mph, 5.1% up on 2019.

In 2020, on average 42.1% of additional time was needed compared to speed limits travel times, on individual road sections of the SRN to ensure on time arrival. This is down 25.2 percentage points compared to 2019, so on average a lower proportion of additional time is required.

On local ‘A’ roads for 2020, the average delay is estimated to be 33.9 seconds per vehicle per mile compared to free flow travel times. This is a decrease of 22.8% on 2019.

The average speed is estimated to be 27.3 mph. This is an increase of 8.2% on 2019.

The outbreak of coronavirus (COVID-19) has had a marked impact on everyday life, including on congestion on the road network. As these data are affected by the coronavirus pandemic in the UK, caution should be taken when interpreting these statistics and comparing them with previous time periods. While values had previously been moving towards their pre-lockdown levels, this trend appears to have reversed in the months following September 2020.

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The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed. The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed. The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed. The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed. The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed.

The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed. The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed. The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed. The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed. The topographic map in the 1:10,000 scale is the basic measure of Brandenburg’s topographic maps. The Earth’s surface is relatively complete (only slightly generalised) and geometrically accurate to scale. It is the cartographic implementation of a comprehensive topographical country survey (photogrammetric aerial image evaluation, induction of additional topographic information, topographic field comparison). The historical editions of the TK10 are available from various years from 1992 (basic current of individual sheets older). From 2002 onwards, the TK10 (ATKIS) was created by deriving from the basic landscape model (base DLM). In different map layouts and representations, the historical map sheets depict a piece of Brandenburg’s contemporary history. They are available in analogue plot output (paper) and are available for download free of charge. When using the data, the license conditions must be observed.

The National Conservation Easement Database (NCED) is the first national database of conservation easement information, compiling records from land trusts and public agencies throughout the United States. This public-private partnership brings together national conservation groups, local and regional land trusts, and local, state and federal agencies around a common objective. This effort helps agencies, land trusts, and other organizations plan more strategically, identify opportunities for collaboration, advance public accountability, and raise the profile of what’s happening on-the-ground in the name of conservation.For an introductory tour of the NCED and its benefits check out the story map.