The Provincial Land Use Atlas (LUA) is a collection of digital land use data displaying administrative boundaries, proposed/approved developments, and layers associated with land use policies/regulations/legislation. The LUA was originally created as a tool to process Crown land applications and an aide in resource planning to identify potential land use conflicts. Included with the LUA is topographic base-mapping, aerial photography, imagery, Crown Land titles/applications, Municipal Plans and land use/land use restriction data.
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The Atlas of Canada Base Maps provide coverage of the entire Canadian landmass. Data elements are feature coded and structurally clean. Base map components are available in five scales and a number of data exchange formats. The 1:2 million and 1:7.5 million scales are the primary bases for all Atlas products. The 1:30 million scale data have been generalized from the two larger scales. The data set covers: drainage (coastlines, rivers, lakes), boundaries (federal, provincial, district, dividing lines), transportation (primary and secondary highways, selected ferry routes, rail networks), populated places, national parks. Atlas information is two-dimensional layered vector data.
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The map title is Newfoundland and Labrador. Tactile map scale. 3.2 centimetres = 200 kilometres North arrow pointing to the top of the page. Borders of the province of Newfoundland and Labrador, shown as solid lines. The Labrador Sea shown with a wavy symbol to indicate water. A circle and the city name to show the location of Happy Valley-Goose Bay and Gander. A filled star and the city name to show the location of St John's. Text labels for the Labrador Sea. The abbreviation "QC" to indicate the province of Quebec. The abbreviation "NB" to indicate the province of New Brunswick. Tactile maps are designed with Braille, large text, and raised features for visually impaired and low vision users. The Tactile Maps of Canada collection includes: (a) Maps for Education: tactile maps showing the general geography of Canada, including the Tactile Atlas of Canada (maps of the provinces and territories showing political boundaries, lakes, rivers and major cities), and the Thematic Tactile Atlas of Canada (maps showing climatic regions, relief, forest types, physiographic regions, rock types, soil types, and vegetation). (b) Maps for Mobility: to help visually impaired persons navigate spaces and routes in major cities by providing information about streets, buildings and other features of a travel route in the downtown area of a city. (c) Maps for Transportation and Tourism: to assist visually impaired persons in planning travel to new destinations in Canada, showing how to get to a city, and streets in the downtown area.
A relief map of Newfoundland and Labrador showing elevation by hypsometric tints (a gradation of different colours), and spot elevations. Major lakes are also shown. Elevation ranges are included in the map legend. The elevation data were derived from the map Canada-Relief, Fifth Edition, National Atlas of Canada published in 1986.
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The Urban Atlas is providing pan-European comparable land use and land cover data for Large Urban Zones with more than 100.000 inhabitants as defined by the Urban Audit. Urban Atlas' mission is to provide high-resolution hotspot mapping of changes in urban spaces and indicators for users such as city governments, the European Environment Agency (EEA) and European Commission departments.
From the site: “The Geologic Atlas of the United States is a set of 227 folios published by the U.S. Geological Survey between 1894 and 1945. Each folio includes both topographic and geologic maps for each quad represented in that folio, as well as description of the basic and economic geology of the area. The Geologic Atlas collection is maintained by the Map & GIS Library. The repository interface with integrated Yahoo! Maps was developed by the Digital Initiatives -- Research & Technology group within the TAMU Libraries using the Manakin interface framework on top of the DSpace digital repository software.
Additional files of each map are available for download for use in GIS or Google Earth. A tutorial is provided which describes how to download theses files.”
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Original data was from the Administrative boundaries in Canada - CanVec - Administrative Features. Administrative Features entities are: Geopolitical Region (border). CanVec is a digital cartographic reference product of Natural Resources Canada (NRCan). It originates from the best available data sources covering Canadian territory, offers quality topographical information in vector format, and complies with international geomatics standards. CanVec is a multi-source product coming mainly from the National Topographic Data Base (NTDB), the Mapping the North process conducted by the Canada Center for Mapping and Earth Observation (CCMEO), the Atlas of Canada data, the GeoBase initiative, and the data update using satellite imagery coverage (e.g. Landsat 7, Spot, Radarsat, etc.).The original data was brought into ArcGIS Pro 2.8.1. The census divisions for Newfoundland and Labrador were isolated into a separate shapefile. The collection of polygons were split into separate files, with a single file to represent each division. These layers were shared as a web layer for download and use by data uses of Newfoundland and Labrador. The layer was made available for download on ArcGIS Online and through the CPAWS-NL Data Hub. The availability on CPAWS-NL Data Hub made it possible individual administrative polygons to be searched and downloaded.It is advisable for data users to access and use original sources if possible. Original Source and data sheet can be found here.Census Divisions on ArcGIS Online can be viewed hereCensus Divisions can be searched on CPAWS-NL Data HubCensus Subdivision package can be downloaded hereCensus Subdivisions on ArcGIS Online can be viewed hereCensus Subdivisions can be searched on CPAWS-NL Data Hub
This map shows the available storage in the soil (mm) with climate scenario WH2050 and with an average high groundwater level (GHG). The intensity of precipitation is expected to increase further until 2050. This applies to both summers and winters. In areas with high water levels and groundwater levels and a low infiltration capacity (mm/hour), these areas are generally the first to experience flooding in the event of a rain shower. In areas with lower water levels and groundwater levels and a high infiltration capacity, flooding is generally less likely to occur due to the rapid infiltration of water into the soil and because more soil storage is available. Soil storage on the map can be used even better in times of (extreme) rainfall, so that flooding can be prevented elsewhere. This map provides an initial insight into the spatial distribution of the available soil storage, based on the highest groundwater level calculated using the National Water Model (NWM) for climate scenario WH2050. The highest groundwater level is usually reached in the winter months. (See also the map GHG WH2050 in the Climate Atlas). Because the calculations are based on the average highest groundwater level, this concerns the “worst-case” available soil storage, where the groundwater levels are high. The purpose of this map is to get an initial picture of vulnerable and promising areas for soil storage, as input for integrated climate sessions. Further detailing is necessary to quantify the seriousness and extent of the bottlenecks and to work out opportunities. This is especially true for urban areas. Structure The map shows the available soil storage in millimeters per grid cell of 0.5 by 0.5 metres. The map was created by combining a height map, the Average High Groundwater Map (GHG WH2050) and soil type. Accountability GHG WH2050: Average Highest Groundwater Level for Climate Scenario WH2050 of the National Water Model (www.helpdeskwater.nl). Elevation map AHN3 with a resolution of 0.5x0.5m (www.ahn.nl). CAPSIM table. The CAPSIM table shows per soil type how many millimeters of water (vertical) can be stored, depending on a given soil type. Soil type map BOFEK2012. This map shows the spatial distribution of soil physical units developed by Wageningen University. Soil types in the urban area are missing from this national map. In order to obtain a flat-covering image, the urban area has been closely interpolated with the nearest soil types. (https://www.wur.nl/nl/show/Bodemfysische-Unitskaart-BOFEK2012.htm) Disclaimer This map generates additional information based on refined visualized results of the National Water Model, soil types and infiltration capacities. This produces a refined image with a resolution of 0.5 by 0.5 meters. However, the calculation result is still based on the NWM with a resolution of 250 by 250 metres. For urban areas, the soil type map has been interpolated because there are no urban area data in the BOFEK2012 map. The consequence of this is that the map's conclusions are less reliable, especially for urban areas, and it is advised to look in more detail.
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The soil subsidence map 2016-2050 forms the basis for the WH2050 climate scenario from the CAS Climate Effect Atlas, results September 2017 (www.climateeffectatlas.nl). The map has been spatially interpolated for improved visualization and shows the estimated additional subsidence up to 2050 for the WH2050 climate scenario.
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The Urban Atlas is providing pan-European comparable land use and land cover data for Large Urban Zones with more than 100.000 inhabitants as defined by the Urban Audit. Urban Atlas' mission is to provide high-resolution hotspot mapping of changes in urban spaces and indicators for users such as city governments, the European Environment Agency (EEA) and European Commission departments.
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This open-access dataset contains 100 high-resolution PDF maps representing European port city territories. Each map corresponds to a specific port city territory located along one of four seas— the Baltic Sea, North Sea, Atlantic Ocean, or Mediterranean Sea. Filenames include the name of the sea and the port’s UN/LOCODE. In some cases, a single territory includes multiple ports or port cities.
These maps are derived from the Port City Atlas (2023) and are now made available as a separate dataset to enhance reusability. By providing the maps individually, they become easier to incorporate into a wide range of research, educational, and professional contexts. Users can georeference the maps for GIS applications, use them as base layers in further studies, or combine them with other spatial data for comparative analyses.
In addition to the 100 individual territory maps, the dataset includes three edition files:
This dataset complements the Port City Atlas and is intended as a reusable resource for anyone interested in port cities, maritime geography, spatial planning, and coastal development.
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The map of vulnerable objects was created by combining the location of vulnerable objects fromRISKMAP.nl with the water depth map of the 200 mm event. The objects identified here as affected have not been tested with administrators or validated in the field. The map serves as a starting point for the analysis of nuisance caused by vulnerable objects. The data for vulnerable objects is based on SSM2017 (Slager & Wagenaar, 2017). Vulnerable objects are defined here as described at: https://www.atlasleefmilieu.nl/kwetsbare-objecten.
Eugène-Henri Fricx is the founder of an important printing dynasty in the 18th century in Brussels. He was born in 1644 in the heart of Brussels (in the Saint-Géry district). His father, Henri Fricx, was a merchant, not a printer or bookseller, but he came into a family of printers through his marriage to Barbe Mommaert. On May 16, 1689, Eugène-Henri Fricx became “Imprimeur de sa majesté”, a privilege granted to him by the “Conseil Privé” of the King of Spain. Although he had been active as a printer since 1670, it was not until 1703 that Fricx started printing and selling his first maps. Although Fricx's first cartographic products are interesting, at least from an aesthetic point of view, he owes his reputation mainly to his famous “cCarte des Pays-Bas” (map of the Netherlands). This card is in fact a bundle of different types of cards, as explained in the title “Carte des Pays-Bas et des frontières de France, avec un recueil des plans des villes, sièges et batailles données entre les hauts alliés et la France. ” This title is on the title page of what is believed to be the first edition of Fricx's volume. This edition appeared in 1712, when 23 of the 24 topographical maps of the southern Netherlands were ready. The twenty-fourth map was not published until 1727. Fricx was constantly adding maps and changing the geographical information on the existing maps, as can be seen in the numerous changes to the table of contents on the title page, the date of which never changed. These maps were bundled into an atlas. From a cartographic point of view, the atlas consists of two rather different parts. The first contains topographical maps, the second city plans and plans of sieges and battles. The topographic section in which the Southern Netherlands are depicted was eventually supplemented with 4 topographic maps (bringing the total to 28 maps). The second part of the atlas contains 47 maps of battlefields and fortifications, dating from 1706 to 1712. Some of them were printed in the year the battle took place and can be regarded as a kind of military record. The two parts therefore together form a special atlas. (Source: to: Wouter Bracke, Conservator of Maps and Plans at KBR in Brussels). The digital disclosure of this historical atlas came about through a collaboration in 2009 between KBR and the former AGIV (Agency for Geographical Information Flanders), now Digital Flanders. The maps were digitised, georeferenced and made available for consultation via geopunt.be, the geoportal of GDI-Vlaanderen. The intellectual property rights of the georeferenced maps are shared and rest with KBR and Digital Flanders.
The European Urban Atlas provides reliable, inter-comparable, high-resolution land use and land cover data for 785 Functional Urban Area (FUA) for the 2012 reference year in EEA39 countries. The spatial data can be downloaded together with a map for each FUA covered and a report with the metadata for the respective area. Additional information (product description, mapping guidance and class description) can be found at https://land.copernicus.eu/user-corner/technical-library/urban-atlas-2012-mapping-guide-new.
Urban Atlas is a joint initiative of the European Commission Directorate-General for Regional and Urban Policy and the Directorate-General for Enterprise and Industry in the frame of the EU Copernicus programme, with the support of the European Space Agency and the European Environment Agency.
«Data was produced with funding by the European Union. Copyright Copernicus Programme»
DISCLAIMER: Wageningen Environmental Research has undertaken to distribute the data on behalf of EEA under Specific Contract No 3436/R0-Copernicus/EEA.56950 implementing Framework service contract No EEA/IDM/R0/16/009/Netherlands. Wageningen Environmental Research accepts no responsibility or liability whatsoever with regard to the content and use of these data. The European Environment Agency accepts no responsibility or liability whatsoever with regard to the information on this site and the information does not necessarily reflect the official opinion of the EEA or other European Communities bodies and institutions.
This map shows the GLG results for future climate; in full the Average Lowest Groundwater Levels (GLG) of the National Water Model (results September 2017) for the future climate (KNMI climate scenario WH2050). The groundwater levels are visualized in a refined way with the Actual Elevation File of the Netherlands, version 2 (AHN2). The result is a visualization of the groundwater levels (metres below ground level) at 0.25 m2, in which local heights become visible. Structure Broadly speaking, the structure of the maps is as follows: › Use of grid with calculation result GLG for climate scenario WH2050 (National Water Model, resolution 250 by 250 metres); › Spatial interpolation of these results to create smooth transitions between the compute cells of the NWM; › Processing with the AHN2 (resolution 0.5 by 0.5 metres) to groundwater levels below ground level. Accountability Extra information is generated in the maps by interpolation and combination with the AHN2. This produces a refined image with a resolution of 0.5 by 0.5 meters. However, the calculation result is still based on the National Water Model with a resolution of 250 by 250 metres. The operation therefore produces no additional calculation results. However, the processing does provide a usable map for climate sessions, because it is easy to interpret down to field level. The province accepts no liability for incorrect interpretation of the map. Source data and additional information about the National Water Model can be found at www.climateeffectatlas.nl.
Terrestrial protected areas of Netherlands increased by 1.78% from 22.5 % in 2023 to 22.9 % in 2024. Terrestrial protected areas are those officially documented by national authorities.
Net capital account of Netherlands sank by 102.27% from 111,351,721,057 US dollars in 2022 to -2,531,109,175 US dollars in 2023. Since the 399.22% jump in 2018, net capital account plummeted by 78.24% in 2023. Net capital account records acquisitions and disposals of non-produced non-financial assets, such as land sold to embassies and sales of leases and licenses, as well as capital transfers, including government debt forgiveness. The use of the term capital account in this context is designed to be consistent with the System of National Accounts, which distinguishes between capital transactions and financial transactions. Data are in current U.S. dollars.
This map shows the GLG results for future climate; in full the Average Lowest Groundwater Levels (GLG) of the National Water Model (results September 2017) for the future climate (KNMI climate scenario WH2050). The groundwater levels are visualized in a refined way with the Actual Elevation File of the Netherlands, version 2 (AHN2). The result is a visualization of the groundwater levels (metres below ground level) at 0.25 m2, in which local heights become visible. Structure Broadly speaking, the structure of the maps is as follows: › Use of grid with calculation result GLG for climate scenario WH2050 (National Water Model, resolution 250 by 250 metres); › Spatial interpolation of these results to create smooth transitions between the compute cells of the NWM; › Processing with the AHN2 (resolution 0.5 by 0.5 metres) to groundwater levels below ground level. Accountability Extra information is generated in the maps by interpolation and combination with the AHN2. This produces a refined image with a resolution of 0.5 by 0.5 meters. However, the calculation result is still based on the National Water Model with a resolution of 250 by 250 metres. The operation therefore produces no additional calculation results. However, the processing does provide a usable map for climate sessions, because it is easy to interpret down to field level. The province accepts no liability for incorrect interpretation of the map. Source data and additional information about the National Water Model can be found at www.climateeffectatlas.nl.
General government expenditure on health as a share of current health expenditure of Netherlands reduced by 1.80% from 69.8 % in 2021 to 68.5 % in 2022. Since the 4.45% increase in 2020, general government expenditure on health as a share of current health expenditure dipped by 0.57% in 2022. Share of current health expenditures funded from domestic public sources for health. Domestic public sources include domestic revenue as internal transfers and grants, transfers, subsidies to voluntary health insurance beneficiaries, non-profit institutions serving households (NPISH) or enterprise financing schemes as well as compulsory prepayment and social health insurance contributions. They do not include external resources spent by governments on health.
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The map with IED installation objects was created by combining the location of vulnerable objects from riskmap.nl with the water depth map of the 200 mm event. The objects identified here as affected have not been tested with administrators or validated in the field. The map serves as a starting point for the analysis of nuisance caused by vulnerable objects. IED installations are installations within the meaning of Annex I to Council Directive 96/61/EC of 24 September 1996 concerning integrated pollution prevention (9) which may cause incidental pollution in the event of flooding. In 2010, this directive was transferred to the Industrial Emissions Directive (IED): Directive 2010/75/EU of 24 November 2010 of the European Parliament and of the Council on industrial emissions (integrated pollution prevention and control). In 2018, RIVM sent an overview of all IED installations in the Netherlands in the context of the Flood Risks Directive (ROR). Which installations are located in flooded areas is listed onriskmap.nl and is an official part of the ROR implementation. They are also included in the Standard Damage and Victim Model (SSM2017) (Slager and Wagenaar, 2017). This overview (with locations of the installations) is also used here.
The Provincial Land Use Atlas (LUA) is a collection of digital land use data displaying administrative boundaries, proposed/approved developments, and layers associated with land use policies/regulations/legislation. The LUA was originally created as a tool to process Crown land applications and an aide in resource planning to identify potential land use conflicts. Included with the LUA is topographic base-mapping, aerial photography, imagery, Crown Land titles/applications, Municipal Plans and land use/land use restriction data.