N: 60 S: -56 E: 180 W: -180
Description
The Land Processes Distributed Active Archive Center (LP DAAC) is responsible for the archive and distribution of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) Digital Elevation Model (DEM) version 1 (NASADEM_HGT) dataset, which provides global elevation data at 1 arc second spacing.
NASADEM data products were derived from original telemetry data from the Shuttle Radar Topography Mission (SRTM), a collaboration between NASA and the National Geospatial-Intelligence Agency (NGA), as well as participation from the German and Italian space agencies. SRTM's primary focus was to generate a near-global DEM of the Earth using radar interferometry. It was a primary component of the payload on space shuttle Endeavour during its STS-99 mission, which was launched on February 11, 2000, and flew for 11 days.
In addition to Terra Advanced Spaceborne Thermal and Reflection Radiometer (ASTER) Global Digital Elevation Model (GDEM) Version 2 data, NASADEM also relied on Ice, Cloud, and Land Elevation Satellite (ICESat) Geoscience Laser Altimeter System (GLAS) ground control points of its lidar shots to improve surface elevation measurements that led to improved geolocation accuracy. Other reprocessing improvements include the conversion to geoid reference and the use of GDEMs and Advanced Land Observing Satellite Panchromatic Remote-sensing instrument for Stereo Mapping (PRISM) AW3D30 DEM, and interpolation for void filling.
NASADEM are distributed in 1 degree latitude by 1 degree longitude tiles and consist of all land between 60° N and 56° S latitude. This accounts for about 80% of Earth's total landmass.
NASADEM_HGT data product layers include DEM, number of scenes (NUM), and an updated SRTM water body dataset (water mask). The NUM layer indicates the number of scenes that were processed for each pixel and the source of the data. A low-resolution browse image showing elevation is also available for each NASADEM_HGT granule.
The global 1 arc second NASADEM product is also available in NetCDF4 format as the NASADEM_NC dataset with the source of each elevation pixel in the corresponding NASADEM_NUMNC product.
Product Summary
Citation
Citation is critically important for dataset documentation and discovery. This dataset is openly shared, without restriction, in accordance with the EOSDIS Data Use and Citation Guidance.
Copy Citation
File Naming Convention
The file name begins with the latitude and longitude of the lower left corner of the tile (s01w047) followed by the File Extension/Variable (hgt).
Documents
Publications Citing This Dataset
| Title | Year Sort ascending | Author | Topic |
|---|---|---|---|
| Multi-Scenario Simulation of Land Use Carbon Emissions from Energy Consumption in Shenzhen, China | Tang, Wenwen, Cui, Lihan, Zheng, Sheng, Hu, Wei | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| The limits of watershed delineation: implications of different DEMs, DEM resolutions, and area threshold values | Datta, Srijon, Karmakar, Shyamal, Mezbahuddin, Symon, Hossain, Mohammad Mozaffar, Chaudhary, B. S., Hoque, Md. Enamul, Abdullah Al Mamun, M. M., Baul, Tarit Kumar | RADAR IMAGERY, Terrain Elevation, Topographical Relief Maps, Digital Elevation/Terrain Model (DEM) | |
| The Fate of Endemic Species Specialized in Island Habitat under Climate | Mendoza-Fernandez, Antonio J., Fernandez-Ceular, Angel, Alcaraz-Segura, Domingo, Ballesteros, Miguel, Penas, Julio | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| The Accuracy and Consistency of 3D Elevation Program Data: A Systematic Analysis | Stoker, Jason, Miller, Barry | RADAR IMAGERY, Terrain Elevation, Topographical Relief Maps, Digital Elevation/Terrain Model (DEM) | |
| Seismometer Records of Ground Tilt Induced by Debris Flows | Wenner, Michaela, Allstadt, Kate, Thelen, Weston, Lockhart, Andrew, Hirschberg, Jacob, McArdell, Brian W., Walter, Fabian | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Spatial modeling of soil security in agricultural land of Central Java, Indonesia: A preliminary study on capability, condition, and capital dimensions | Widyatmanti, Wirastuti, Umarhadi, Deha Agus | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Showcasing the TAIAO project: providing resources for machine learning from images of New Zealand's natural environment | Lim, Nick, Bifet, Albert, Bull, Daniel, Frank, Eibe, Jia, Yunzhe, Montiel, Jacob, Pfahringer, Bernhard | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Sensitivity of Remote Sensing Floodwater Depth Calculation to Boundary Filtering and Digital Elevation Model Selections | Cohen, Sagy, Peter, Brad G., Haag, Arjen, Munasinghe, Dinuke, Moragoda, Nishani, Narayanan, Anuska, May, Sera | Terrain Elevation, Digital Elevation/Terrain Model (DEM), Topographical Relief Maps, RADAR IMAGERY | |
| Super-resolution reconstruction of a 3 arc-second global DEM dataset | Zhang, Bo, Xiong, Wei, Ma, Muyuan, Wang, Mingqing, Wang, Dong, Huang, Xing, Yu, Le, Zhang, Qiang, Lu, Hui, Hong, Danfeng, Yu, Fan, Wang, Zidong, Wang, Jie, Li, Xuelong, Gong, Peng, Huang, Xiaomeng | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Susceptibility to wildfire in a conservation unit located in the transition region of Cerrado and Atlantic Forest Biomes, Brazil. | Lacerda, Heitor Carvalho, Faria, Andre Luiz Lopes, Torres, Fillipe Tamiozzo Pereira, Fonseca, Humberto Paiva, Soares, Wesley Oliveira, Silva, Marco Antonio Saraiva | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Using spatiotemporal fusion algorithms to fill in potentially absent satellite images for calculating soil salinity: A feasibility study | Han, Lijing, Ding, Jianli, Ge, Xiangyu, He, Baozhong, Wang, Jinjie, Xie, Boqiang, Zhang, Zipeng | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Water Level Change of Qinghai Lake from ICESat and ICESat-2 Laser | Han, Weixiao, Huang, Chunlin, Gu, Juan, Hou, Jinliang, Zhang, Ying, Wang, Weizhen | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Dynamic Forecast of Desert Locust Presence Using Machine Learning with a Multivariate Time Lag Sliding Window Technique | Sun, Ruiqi, Huang, Wenjiang, Dong, Yingying, Zhao, Longlong, Zhang, Biyao, Ma, Huiqin, Geng, Yun, Ruan, Chao, Xing, Naichen, Chen, Xidong, Li, Xueling | Reflectance, Land Surface Temperature, Emissivity, Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Dynamics of the alpine timberline and its response to climate change in the Hengduan mountains over the period 19852015 | Tian, Lei, Fu, Wenxue, Tao, Yu, Li, Mingyang, Wang, Lei | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Desert Locust Cropland Damage Differentiated from Drought, with | Alemu, Woubet G., Neigh, Christopher S. R. | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| A scalable framework for post fire debris flow hazard assessment using satellite precipitation data | Orland, Elijah, Kirschbaum, Dalia, Stanley, Thomas | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| A high-resolution fuel type mapping procedure based on satellite imagery and neural networks: Updating fuel maps for wildfire simulators | Lopez-De-Castro, Marcos, Prieto-Herraez, Diego, Asensio-Sevilla, Maria Isabel, Pagnini, Gianni | Land Surface Temperature, Emissivity, REFLECTED INFRARED, THERMAL INFRARED, VISIBLE IMAGERY, Visible Radiance, Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| An area-based projection algorithm for SAR radiometric terrain correction and geocoding | Shiroma, Gustavo H. X., Lavalle, Marco, Buckley, Sean M. | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Assessing the Effectiveness of Green Landscape Buffers to Reduce Fire Severity and Limit Fire Spread in California: Case Study of Golf Courses | Herbert, Claudia, Butsic, Van | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Analysis of Multiyear Blowing Snow Occurrences in the French Alps | Xie, Zhipeng, Ma, Yaoming, Ma, Weiqiang, Hu, Zeyong, Sun, Genhou, Wang, Yongjie | Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps, Snow Cover | |
| Anopheles albimanus (Diptera: Culicidae) Ensemble Distribution Modeling: | Rhodes, Charlotte G., Loaiza, Jose R., Romero, Luis Mario, Gutierrez Alvarado, Jose Manuel, Delgado, Gabriela, Rojas Salas, Obdulio, Ramirez Rojas, Melissa, Aguilar-Avendano, Carlos, Maynes, Ezequias, Valerin Cordero, Jose A., Soto Mora, Alonso, Rigg, Chystrie A., Zardkoohi, Aryana, Prado, Monica, Friberg, Mariel D., Bergmann, Luke R., Marin Rodriguez, Rodrigo, Hamer, Gabriel L., Chaves, Luis Fernando | Population Density, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Land Surface Temperature, Emissivity, Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Anthropogenic and environmental determinants of alien plant species spatial distribution on an island scale | Dimitrakopoulos, Panayiotis G., Koukoulas, Sotirios, Michelaki, Chrysanthi, Galanidis, Alexandros | Photosynthesis, Primary Production, Vegetation Productivity, Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| ASTER GLOBAL DEM (GDEM) VERSION 3 | Abrams, M., Yamaguchi, Y., Crippen, R. | RADAR IMAGERY, Terrain Elevation, Topographical Relief Maps, Digital Elevation/Terrain Model (DEM) | |
| Change analysis on the spatio-temporal patterns of main crop planting in the Middle Yangtze Plain | Jiang, Luguang, Wu, Si, Liu, Ye | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Change in the elevational pattern of vegetation greenup date across the Tianshan Mountains in Central Asia during 20012020 | Ding, Chao, Huang, Wenjiang, Liu, Ming, Zhao, Shuang | Reflectance, Land Surface Temperature, Emissivity, Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps |