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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
27,489 datasets
CERES instruments on the Terra satellite provide month-long averages of Earth's radiant energy budget. The data product contains nested averages of shortwave and longwave fluxes at the top of the atmosphere, calculated for 2.5-degree regions up to global scales. This Edition 4 product was produced by NASA and uses an algorithm modeled on the legacy Earth Radiation Budget Experiment.
CERES Regionally Averaged TOA Fluxes, Clouds and Aerosols Hourly Terra Edition4A provides daily averages of top-of-atmosphere fluxes, cloud, and aerosol data on a 1-degree latitude and longitude grid. The product uses CERES Flight Model 1 and FM2 instruments on the Terra satellite, launched December 18, 1999, and incorporates incoming solar irradiance from the SORCE and TSI missions. Cloud properties are stratified into four atmospheric layers and averaged for day-only and 24-hour periods.
CER_SSF1deg-Hour_NPP-VIIRS_Edition2A is a NASA CERES product providing regionally averaged top-of-atmosphere fluxes, clouds, and aerosols on a 1-degree latitude-longitude grid. The data is collected hourly by the CERES FM5 and VIIRS instruments aboard the Suomi NPP satellite, with TOA fluxes for clear-sky and all-sky conditions across longwave, shortwave, and window bands. Cloud properties are stratified into four atmospheric layers and aerosols are averaged instantaneous values from the co-located imager.
CERES Time-Interpolated TOA Fluxes, Clouds and Aerosols Daily NPP Edition2A provides daily averages of top-of-atmosphere radiative fluxes, cloud, and aerosol properties on a 1-degree latitude-longitude grid. The data is collected by the CERES FM5 and VIIRS instruments aboard the Suomi NPP satellite, a key component of NASA's Earth Observing System program. Data collection for this product is ongoing.
This dataset contains high-resolution ocean current and water temperature measurements from moorings deployed off the Washington coast during the Continental Shelf Experiment. The University of Washington collected these observations from February 1971 to February 1974, with intensive sampling during winter and summer seasons at inshore and offshore sites. Data includes eastward (u) and northward (v) current components derived from Aanderaa and Braincon current meters, sampled at 10 or 20-minute intervals and edited for quality.
GRACE-FO satellite data launched in May 2018 tracks monthly terrestrial water storage anomalies as equivalent water thickness. Version 04 incorporates updated geocenter and C20 corrections, an ellipsoidal correction, and glacial isostatic adjustment. These grids represent total water storage changes from soil moisture, snow, surface water, and groundwater.
NASA's CYGNSS satellite constellation provides ocean surface heat flux parameters with 25x25 kilometer resolution. Version 1.0 combines wind speed estimates from the CYGNSS L2 CDR with auxiliary parameters from MERRA-2 using the COARE 3.5 algorithm. The data is produced with a latency of 1-2 months.
Version 1.1 of the CYGNSS Level 2 Ocean Surface Heat Flux Climate Data Record provides time-tagged and geolocated ocean surface heat flux parameters. The dataset has a 25x25 kilometer footprint resolution and a 1-2 month latency from the Delay Doppler Mapping Instrument aboard the CYGNSS satellite constellation. NASA produced this data record using the COARE 3.5 algorithm, which combines CYGNSS wind speed estimates with MERRA-2 auxiliary parameters.
A distributed photovoltaic scheduling dataset likely containing records related to load, weather, grid, and storage. The dataset appears to be sourced from Kaggle, but specific details about its size, author, and creation date are not provided. Its description suggests it is intended for modeling and scheduling tasks in renewable energy systems.
FLASH_SSF_Terra-FM1-MODIS_Version4B is a rapid-release product from NASA's CERES project providing top-of-atmosphere and surface radiative fluxes. It combines data from the CERES FM1 instrument on the Terra satellite with cloud information from MODIS and meteorological data from GEOS-5, processed with a latency of less than five days from observation. The dataset is designed for quick-look purposes in applied sciences and education, offering instantaneous measurements but not the climate-quality standards of the main CERES products.
FLASHFlux data are processed with a latency of less than 5 days from observation for quick-look purposes. This product provides Top-of-Atmosphere and parameterized surface radiative fluxes, combined with cloud information from the MODIS instrument on NASA's Aqua satellite. The data are produced by the CERES project, a key component of NASA's Earth Observing System, but are not intended for climate-quality studies due to relaxed calibration for rapid release.
FLASH_SSF_Terra-FM1-MODIS_Version4A is a low-latency (< 5 days from observation) data product from NASA's CERES project. It provides top-of-atmosphere and parameterized surface radiative fluxes, combined with cloud information from the MODIS imager, for quick-look purposes. The data is derived from measurements taken aboard NASA's Terra spacecraft, launched in 1999.
Two radiosonde soundings per day were launched from Kiritimati Island (2.01°N, 157.40°W) between 26 January and 27 March 2016. This Level 2 dataset, produced by NOAA's Earth System Research Laboratory, contains 1-second resolution vertical profiles of atmospheric variables like temperature, humidity, pressure, and wind. It was collected during the El Niño Rapid Response Field Campaign to document the strong 2015-2016 El Niño event.
Low-latency (< 7 days from observation) daily gridded data combining Terra and NOAA-20 satellite measurements. The Fast Longwave And Shortwave Fluxes (FLASHFlux) product provides Top-of-Atmosphere and parameterized surface radiative fluxes for applied science, derived from the Clouds and the Earth's Radiant Energy Systems (CERES) project instruments. This rapid-release product from NASA is designed for timeliness over climate-quality precision.
FLASHFlux Version 4B provides low-latency (< 7 days) daily gridded top-of-atmosphere and surface radiative flux data from combined Terra and NOAA-20 satellite observations. The data is produced by NASA's Clouds and the Earth's Radiant Energy Systems (CERES) project for applied science uses, using algorithms derived from the CERES climate mission but with relaxed calibration for rapid release. It combines CERES instrument measurements with higher-resolution imager data from MODIS and VIIRS, and meteorological data from the GEOS-5 assimilation system.
FLASHFlux Version 4A provides low-latency (< 7 days from observation) gridded radiative flux data from NASA's Terra and Aqua satellites. This rapid-release product, derived from the CERES project, combines instantaneous scanner data with high-resolution MODIS imagery and GEOS-5 atmospheric models. It is designed for applied science and education, offering parameterized surface and cloud flux estimates without the six-month processing delay typical for climate-quality CERES data.
Global terrestrial water storage anomaly grids derived from GRACE-FO satellite gravity observations. The German Research Centre for Geosciences (GFZ) produces these monthly data, representing total water storage changes in soil moisture, snow, surface water, and groundwater. This Release 6.3 version 04 data extends the mission legacy from May 2018 onward, incorporating updated geophysical corrections and filters.
A regional multivariate oceanographic state estimate from a global MITgcm simulation with a focus on the Gotland Basin. The dataset provides hourly three-dimensional variables like temperature, salinity, and velocity, plus two-dimensional fields such as sea level anomaly and heat flux. It is produced by NASA and was last updated in March 2026.
Version 07 is the current version of this NASA precipitation dataset. The Level 3 DPR algorithm accumulates instantaneous precipitation estimates from the Global Precipitation Measurement mission's Dual-frequency Precipitation Radar into daily and monthly gridded products. These products provide summary statistics, including the number of measurements, mean, and mean square, for 0.25-degree by 0.25-degree grid boxes, conditioned on surface and precipitation type.
Version 07 gridded precipitation data from the Global Precipitation Measurement (GPM) mission's Dual-frequency Precipitation Radar (DPR). The dataset provides monthly and daily summary statistics, including mean and standard deviation, at 0.25-degree and 5.0-degree spatial resolutions. It is produced by the National Aeronautics and Space Administration (NASA) and hosted by the GES DISC.