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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
26,658 datasets
Daily global gridded data from the Meteor-3 Total Ozone Mapping Spectrometer (TOMS) version 8 contains total column ozone, UV aerosol index, Lambertian effective surface reflectivity (Rayleigh corrected), and UV-B erythemal local noon irradiances. The data are mapped to a global grid of size 180 x 288 with a lat-long resolution of 1.00 x 1.25 degrees and are stored in the EOS Hierarchical Data Format (HDF-EOS). These data were produced by the Laboratory for Atmospheres at NASA Goddard Space Flight Center.
The Bureau of Mineral Resources survey 67 collected and analyzed gravity cores from the southern Australian continental margin. This dataset includes porewater metabolites, major and trace element abundances, radiochemical data, and paleoceanographic indicators from eight cores. The data were analyzed both at sea and in Canberra to support environmental and resource assessments.
TRMM Multi-satellite Precipitation Analysis (TMPA) Near Real-Time (RT) data provides hourly precipitation estimates with a latency of about seven hours. This intermediate variable rainrate IR estimate covers a global grid of 1440x480 boxes (0.25-degree resolution) but only provides valid data within the 50N-S latitude band. The dataset was discontinued on December 31, 2019, with users encouraged to shift to successor IMERG products.
Geospatial maps show precipitation heights across Germany for the hydrological years 1966 and 1976. The data has a resolution of 1 km² and has been corrected for systematic measurement error. It was published by the Bundesamt für Kartographie und Geodäsie.
A gravity anomaly grid for Australia and its continental margins, derived from approximately 1.8 million ground and airborne gravity observations. The grid has a cell size of 0.00417 degrees (approximately 435m) and was compiled by Geoscience Australia using data from the 1940s to September 2019. It incorporates ground data from the Australian National Gravity Database, offshore data from global sources, and airborne surveys totaling 451,000 line kilometers.
Each data granule contains 81 spots and approximately 2880 scans, representing one satellite orbit. The TROPICS Pathfinder satellite provides high-temporal-resolution, nearly all-weather observations of 3D temperature, humidity, cloud ice, and precipitation structure using a passive microwave spectrometer. Its data supports scientific investigations into the intensity and structure of tropical cyclones.
The TROPICS Pathfinder satellite provides high-temporal-resolution, all-weather observations from a sun-synchronous orbit. Its Millimeter-wave Sounder (TMS) captures temperature profiles near 118.75 GHz, water vapor profiles near 183 GHz, and precipitation and cloud ice data at 90 GHz and 205 GHz. Each data granule contains approximately 2880 scans across 81 spots, representing a full orbit.
The TROPICS Pathfinder satellite provides orbital data on atmospheric temperature, humidity, cloud ice, and precipitation structure. Its Millimeter-wave Sounder (TMS) uses channels near 118.75 GHz, 183 GHz, 90 GHz, and 205 GHz to generate profiles and imagery. Each netCDF file contains a granule of data with 81 spots and approximately 2880 scans, representing an orbit's worth of observations.
A constellation of five identical small satellites provides nearly all-weather, high-temporal-resolution observations of tropical cyclones. This dataset from the TROPICS03 satellite contains Level 2A geolocated brightness temperatures, where water vapor channel data has been converted to match the spatial resolution of temperature channels using the Backus-Gilbert technique. Each file represents an orbit's worth of data, containing approximately 2880 scans across 81 measurement spots.
TROPICS06 L1B Orbital Geolocated Native-Resolution Brightness Temperatures V1.0 is a dataset from NASA's TROPICS mission Pathfinder satellite. It provides nearly all-weather observations of 3D temperature, humidity, cloud ice, and precipitation structure at high temporal resolution. Each netCDF file contains a granule of data with 81 spots and approximately 2880 scans, representing an orbit's worth of measurements.
TROPICS03 L2B Tropical Cyclone Intensity Estimate (TCIE) data provides validated estimates of Minimum Sea Level Pressure (MSLP) and Maximum Sustained Winds (MSW) for tropical cyclones. The algorithm uses brightness temperature perturbations from specific microwave channels on a constellation of five CubeSats, combined with ancillary best-track and eye size data. This dataset supports high-temporal-resolution, all-weather science investigations of storm structure and intensity.
Provisional Level 2A data from the TROPICS07 satellite provides geolocated brightness temperatures, with water vapor channels converted to a unified resolution using the Backus-Gilbert technique. Each granule contains an orbit's worth of data, with approximately 2880 scans and 81 spots. This dataset supports high-temporal-resolution science investigations of tropical cyclones by providing nearly all-weather observations of temperature, humidity, cloud ice, and precipitation structure.
Geoscience Australia's National Gravity Compilation 2019 DGIR 1VD image is a processed gravity grid derived from nearly 1.4 million ground and marine observations. The grid has a cell size of approximately 435 meters and represents the first vertical derivative of de-trended global isostatic residual anomalies. Data originates from the Australian National Gravity Database as of September 2019, supplemented by global marine data, with ground observations collected from the 1940s to the present day.
Groundwater salinity information is provided for boreholes penetrating at least 5 meters into bedrock. The dataset was compiled by GHD for the 'Potential Influences of Geological Structures on Groundwater Flow Systems' report under the DEPI SAFE Project. Data is sourced from the Groundwater Management System and State Observation Bore Network databases.
Nearly 1.4 million gravity stations from the Australian National Gravity Database, supplemented by global marine data, were used to create this 2019 grid. Geoscience Australia processed the data to produce a de-trended global isostatic residual (DGIR) tilt image with a cell size of approximately 435 meters. The ground observations were collected by various government, industry, and academic entities from the 1940s to 2019.
The TROPICS mission uses a constellation of five identical CubeSats to provide nearly all-weather, high-temporal-resolution observations of tropical cyclones. Its algorithm estimates Minimum Sea Level Pressure and Maximum Sustained Winds by analyzing brightness temperatures from specific microwave channels near 118.75 GHz and 183 GHz. This validated data release began in August 2021 for the Pathfinder satellite and June 2023 for the full constellation.
The TROPICS03 satellite provides Level 2B geophysical retrievals of atmospheric vertical temperature and moisture profiles. Each data granule contains approximately 2880 scans and 81 spots, representing an orbit's worth of observations. The mission uses a constellation of small satellites to deliver high temporal resolution, nearly all-weather three-dimensional data on temperature, humidity, cloud ice, and precipitation structure.
The TROPICS mission constellation provides high-temporal-resolution, nearly all-weather observations of tropical cyclones. This Level-2B dataset contains neural network retrievals of atmospheric vertical temperature profiles up to 20 km and water vapor mixing ratio profiles up to 10 km, derived from passive microwave spectrometer data. Each granule file contains approximately 2880 scans of 81 spots, representing an orbit's worth of data.
The TROPICS mission provides observations of tropical cyclones globally using a constellation of five identical small satellites. Each satellite carries a millimeter-wave spectrometer measuring temperature, humidity, cloud ice, and precipitation structure at high temporal resolution. Data files contain a granule defined as an orbit's worth of data, with approximately 2880 scans and 81 spots.
The TROPICS07 dataset provides Level 1B brightness temperature measurements from a constellation of five small satellites. Each orbital granule contains approximately 2880 scans across 81 spots, capturing data from seven channels near 118.75 GHz for temperature profiles, three channels near 183 GHz for water vapor, and channels near 90 GHz and 205 GHz for precipitation and cloud ice. The mission aims to deliver high-temporal-resolution, nearly all-weather observations of storm structure.