Digital Surface Model (DSM) has three layers. Two layers come from the rasterisation of the building and vegetation classes among all the points of the LiDAR file .las; and the third layer is the hydrography of the Geographical Reference Information. By applying a suitable colour for each layer, the final product is visualised. ECW file format. ETRS89 reference geodetic system (in the Canary Islands REGCAN95, compatible with ETRS89) and EPSG projection: 3857 throughout the national territory

Digital model of the terrain of Spain with a mesh size of 200 meters. Made from the LIDAR point clouds of the second cycle of the PNOA-LiDAR project (2015-2021) within the Spanish National Cartographic System (SCNE). Data acquisition began in 2015 and is still incomplete.

This is a high resolution (0.5x0.5m) digital terrain model (DTM) of the Alhama de Murcia Fault (AMF), an active fault in SE Spain. The "DTM_Alhama.zip" folder contains the *img file of the DTM (AMF_MDT_05.img) and accompaniment files for georreferentiation, etc. To visualize and analyze the DTM, import the mentioned file from the folder into a GIS-based software (tested on ArcMap 10.7 and QGIS 3.16.11). The coordinate system is ETRS 1989 - UTM Zone 30N.

This DTM was obtained from an airbone LiDAR survey of the area in the frame of the SHAKE project (CGL2011-30005-C02-01) funded by the former Spanish Ministry of Economy and Competitiveness.

Visualisation service showing the Digital Terrain Models of Spain. It contains two layers: the "EL.GridCoverage" ana "Elevation" layer

Digital Terrain Model representation of the Elevations of Spain at 1000 m resolution from the LIDAR point clouds of the first Coverage with a mesh pitch of 5 meters. The maximum download size is limited

This map shows the extents of the various datasets comprising the World Elevation services – Terrain and TopoBathy.Topography SourcesThe Le système d'information du territoire à Genève (SITG) 0.5 meters DTM covers metropolitan Grand Geneva region of France and Switzerland.The Amt für Geoinformation Basel-Landschaft 0.25 meters DTM covers Canton of Basel-Landschaft, Switzerland.The Amt für Geoinformation Solothurn 0.5 meters DTM covers Canton of Solothurn, Switzerland.The Aargauische Geografische Informationssystem (AGIS) 0.5 meters DTM covers Canton of Aargau, Switzerland.The Amt für Raumentwicklung, Kanton Zürich 0.5 meters DTM covers Canton of Zurich, Switzerland.Ayuntamiento de Madrid 1 meter DTM covers entire Madrid city, Spain.The Instituto Geográfico Nacional (IGN) 5 and 10 meters DTM covers entire Spain.The Environment Agency 2 meters DTM covers 70 % of England.The Natural Resources Wales 2 meters DTM covers 70 % of Wales.The Scottish Government 1 meter DTM covers partial areas of Scotland.The AHN Netherlands (AHN2) 3 meters* DTM covers entire Netherlands.The Geospatial Information Authority of Japan (GSI) 0.2 arc second (approx. 5 meters) DEM5A & DEM5B covers partial areas of Japan and 0.4 arc second (approx. 10 meters) DEM10B covers entire Japan. Fundamental Geospatial Data provided by GSI with Approval Number JYOU-SHI No.1239 2016.The Geoland 10 meters DTM covers entire Austria.City of Vienna 1 meter DTM covers entire Vienna city, Austria.Land Oberösterreich 0.5 meters DTM covers entire state of Upper Austria, Austria.Land Salzburg 5 meters DTM covers entire state of Salzburg, Austria.Land Vorarlberg 5 meters DTM covers entire state of Vorarlberg, Austria.Land Tyrol 5 meters DTM covers entire state of Tyrol, Austria.Land Carinthia 5 meters DTM covers entire state of Carinthia, Austria.The Estonian Land Board 1, 5 and 10 meters DTM’s covers entire Estonia.Land NRW 1 meter DTM covers entire state of Nordrhein-Westfalen, Germany.The Geodatastyrelsen DTM (approx. 3 meters* and 10 meters) dataset covers entire Denmark.The National Land Survey of Finland 3 meters* and 10 meters DTM covers partial areas of Finland and entire Finland respectively.The Norwegian Mapping Authority 10 m DTM covers entire Norway.The Ordnance Survey’s OS Terrain 50 (50 meters) dataset covers Great Britain.The Natural Resources Conservation Service (NRCS), USDA 1 meter dataset covers partial areas of the conterminous United States.The FEMA LiDAR DTM (approx. 3 meters) covers partial areas of the conterminous United States.The USGS 3D Elevation Program’s (3DEP) 1 meter dataset covers partial areas of the conterminous United States.The National Elevation Dataset (NED) 1/9 arc second (approx. 3 meters) dataset covers partial areas of the conterminous United States and small areas of Alaska.The National Elevation Dataset (NED) 1/3 arc second (approx. 10 meters) dataset covers the conterminous United States, Hawaii, partial Alaska, and Territorial Islands of the United States.The National Elevation Dataset (NED) 1 arc second (approx. 31 meters) dataset covers the conterminous United States, Hawaii, partial Alaska, Puerto Rico, Territorial Islands of the United States, Canada and Mexico.The National Elevation Dataset (NED) 2 arc second (approx. 62 meters) dataset covers the state of Alaska.WorldDEM4Ortho 0.8 arc second (approx. 24 meters) dataset from Airbus Defense and Space GmbH covers entire earth's land surface excluding the countries of Azerbaijan, DR Congo and Ukraine.The Shuttle Radar Topography Mission (SRTM) 1 arc second (approx. 31 meters) dataset from NASA covers all land areas between 60 degrees north and 56 degrees south except Australia (which is covered by DEM-S from Geoscience Australia).The Shuttle Radar Topography Mission (SRTM) 1 arc second (approx. 31 meters) DEM-S dataset from Geoscience Australia covers Australia.The Shuttle Radar Topography Mission (SRTM) 3 arc second (approx. 93 meters) dataset covers all land areas between 60 degrees north and 56 degrees south.The EarthEnv-DEM90 3 arc second (approx. 93 meters) dataset covers approx. 90% of globe.Global Multi-resolution Terrain Elevation Data 2010 (GMTED2010) 7.5, 15 and 30 arc second (approx. 232, 464 and 928 meters) datasets cover global land areas.Bathymetry SourcesBureau of Ocean Energy Management (BOEM) 40 feet (approx. 12 meters) deepwater bathymetry grid covers northern Gulf of Mexico.NCEI NOAA's 1/9 arc second (approx. 3 meters) dataset covers Puerto Rico, U.S Virgin Islands and partial areas of eastern and western United States coast.NCEI NOAA's 1/3 arc second (approx. 10 meters) dataset covers partial areas of eastern and western United States coast.NCEI NOAA's 1 arc second (approx. 31 meters) dataset covers partial areas of northeastern United States coast.NCEI NOAA's 3 arc second (approx. 93 meters) dataset covers partial areas of northeastern United States coast.NOAA's U.S. Coastal Relief Model (CRM) 1 arc second (approx. 31 meters) covers Southern California Coast (Version 2).NOAA's U.S. Coastal Relief Model (CRM) 3 arc second (approx. 93 meters) covers United States Coast.Geoscience Australia’s Indian Ocean Bathymetry 150 meters covers MH370 flight search area (Phase 1).General Bathymetric Chart of the Oceans (GEBCO) 30 arc second (approx. 928 meters) dataset covers the entire globe (GEBCO 2014 version 20150318).* The original source data resampled to approx. 3 meters.** Bathymetry datasets are part of TopoBathy service only.Disclaimer: Bathymetry data sources are not to be used for navigation/safety at sea.

Digital Surface Model Normalized with the building class corresponding to the first coverage. Grid 2,5 meters. ASCII matrix file format ESRI (asc). Reference geodetic system ETRS89 (in the Canary Islands REGCAN95, compatible with ETRS89) and UTM projection. The DTM has been obtained by interpolating the height of the 3D point clouds of the LIDAR file classified as "buildings" taking the DTM as level 0. With the exception of Andorra, Ceuta, Melilla, Alboran Island (183-2, 1110-3, 1111-3, 1078B) . Available at the download centre (ASCII format) and via the WCS download service (various formats).

Here you can find the Digital Terrain Model -DTM- used to create visibility and network paths. Our DTM has been built merging several sheets -666, 667, 668, 694, 695, 696, 720, 721, 722- of the Digital Terrain Model known as DTM05 that can be downloaded from the Centro Nacional de Información Geográfica -CNIG- "Centro de Descargas" -download hub-, the Spanish Government official provider of Geographic Information. The original product is described as a Digital Terrain Model 1st Coverage with 5 m grid spacing. The nine sheets were merged and cropped to a final DTM of 7600 by 5600 with the following corner coordinates:

Upper Left ( 680000.000, 4403000.000) Lower Left ( 680000.000, 4375000.000) Upper Right ( 718000.000, 4403000.000) Lower Right ( 718000.000, 4375000.000) Center ( 699000.000, 4389000.000)

MULTIBEAM DATA OBTAINED WITH EM12 ECHOSOUNDER AND GPS DIFFERENTIAL POSITIONING SYSTEM. THE SURVEY AREA IS SPANISH NW EEZ 2002

The dataset was used to estimate the relevant range of spatial scales with multi-scale contextual spatial modelling. The modelled soil properties were cation exchange capacity, pH, and water content at field capacity. The soil quality indicator data was modelled and predicted with partial least squares regression models based on NIR and MIR spectroscopy (Pangaea DOI (doi:10.1594/PANGAEA.938522): “Soil spectroscopy data from 130 soil profiles in Lora del Rio, Andalusia, Spain”). The soil samples were taken in an area of 1000 km² around Lora del Rio, Andalusia, Spain, in the Sierra Morena mountain range (Palaeozoic granite, gneiss, and slate), at the Guadalquivir river flood plain (Pleistocene marl, calcarenite, coarse sand, and Holocene sands and loams), and southern tertiary terraces (coarse gravel and cobble with sands and loams). Present soil types according to USDA Soil Taxonomy are Alfisols, Entisols, Inceptisols, and Vertisols. The basis for the multi-scale terrain analysis was a digital terrain model by the Centro Nacional de Information Geográfica (CNIG) of the Spanish government. The digital terrain model was published under the CC-BY 4.0 license via the Centro de Descargas del CNIG (IGN; doi:10.7419/162.09.2020) with the title Digital Terrain Model - DTM05 (EPSG: 25830) and last accessed on March, 31st 2020. The study area is covered by the MTN50 map sheets 0941, 0942, 0963, 0964, 0985, and 0986. The multi-scale contextual spatial modelling and the derivation of the scaled terrain covariates was based on the Gaussian pyramid (doi:10.1016/j.geoderma.2017.09.015 and doi:10.1038/s41598-018-33516-6) and the estimation of the relevant range of scales was based on exhaustive additive and subtractive machine learning sequences (doi:10.1038/s41598-019-51395-3). The models were trained with the multi-scale terrain covariates at each soil profile location extracted from the digital terrain model derivatives. For each soil depth of the soil dataset (0-10, 10-20, 20-30, 40-60, and 70-100 cm) two model sequences (additive and subtractive) were trained.

Model digital del terreny (MDT) ráster de pas de malla 1 metre de píxel de la província de Castelló. Aquest model digital del terreny ha sigut generat a partir de la classe sòl del LIDAR del 2017 (1 punt per metre quadrat) que prèviament ha sigut reclassificat de manera precisa. S'han utilitzat també breaklines perquè el MDT s'adapte al terreny on aquest no quede ben definit per la classe sòl. El format de distribució dels fitxers és GeoTIFF de 32 bits. La unitat de descàrrega és per fulles MTN50. Sistema geodèsic de referència ETRS89 i projecció UTM en el fus 30. Altures ortomètriques. Producte derivat de LiDAR-PNOA 2017 CC-BY 4.0 scne.es

Digital terrain model made from the LIDAR point clouds of the second Cover with a mesh pitch of 2 meters. Coverage to be completed.

MULTIBEAM DATA OBTAINED WITH EM12 ECHOSOUNDER AND GPS DIFFERENTIAL POSITIONING SYSTEM. THE SURVEY AREA IS SPANISH CANARIAS ISLANDS EEZ 2001

DAUDZVEIDĪBAS DATI, kas iegūti ar EM12 ECHOSOUNDER un GPS atšķirīgo novietojuma sistēmu. Uzraudzības zona ir Spānijas un Kanādas salu EEZ 2001

DTM of north cantabrian sea margin, approximately 100 meters of resolution. This DTM includes the whole area of Cantabria and part of Asturias one (depth from 100 to 3253m).

DTM of continental margin of Cantabric Sea, resolution 100 meters. This DTM includes the whole area from coast line to deepest level (5544,23 m).