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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
27,025 datasets
Global daily data on top-of-atmosphere, within-atmosphere, and surface radiative fluxes, alongside cloud and aerosol properties, collected by NASA's CERES instruments on Terra and Suomi-NPP satellites. The product integrates measurements from multiple satellite platforms and uses radiative transfer models to compute fluxes for various atmospheric conditions. It provides parameters on a daily temporal resolution and a 1-degree regional spatial scale.
Global daily data on top-of-atmosphere, within-atmosphere, and surface radiative fluxes, alongside cloud and aerosol properties, collected by NASA's CERES instruments on Terra and geostationary satellites. The product provides parameters on a 1-degree regional spatial scale and daily temporal resolution, with computations for all-sky, clear-sky, and aerosol conditions. It is produced by the National Aeronautics and Space Administration using the Langley Fu-Liou radiative transfer model and data normalized between CERES and geostationary satellite observations.
CERES SYN1deg-MHour_Terra-MODIS_Edition4A is a NASA data product providing top-of-atmosphere, within-atmosphere, and surface radiative fluxes alongside cloud and aerosol properties. The data is derived from CERES and MODIS instruments on the Terra satellite and geostationary satellites, processed using the Langley Fu-Liou radiative transfer model. It offers parameters on a monthly-averaged, one-hourly temporal resolution and a 1-degree regional spatial scale.
CERES and GEO-Enhanced TOA, Within-Atmosphere and Surface Fluxes, Clouds and Aerosols Monthly Terra-NOAA20 Edition4A data product combines observations from multiple satellite instruments. The NASA product provides temporally interpolated top-of-atmosphere radiative fluxes and coincident cloud and aerosol properties on a three-hourly temporal resolution and 1-degree regional spatial scales. Data collection for this product is ongoing, with the latest metadata update recorded on 2026-03 13.
CERES SYN1deg-Month_Terra-NPP_Edition1A is a NASA-produced data product providing monthly Earth radiation and cloud data. It integrates observations from multiple satellite instruments, including CERES on Terra and Suomi NPP, and geostationary satellites to model diurnal variability. The product provides parameters on a 1-degree regional, zonal, and global scale, with data collection reported as complete.
CERES and GEO-Enhanced TOA, Within-Atmosphere and Surface Fluxes, Clouds and Aerosols Monthly-Averaged 1-Hourly Terra-Aqua Edition4A combines data from multiple satellite instruments to model Earth's energy budget. The product, created by NASA, integrates observations from CERES radiometers and MODIS on Terra and Aqua satellites with geostationary satellite data, offering parameters on a monthly-averaged one-hourly temporal resolution and 1-degree regional spatial scales. Data collection for this Edition4A product is stated to be ongoing, with a last metadata update recorded for March 2026.
The dataset contains water chemistry measurements from a controlled mesocosm experiment investigating the effects of re-wetting on previously drained agricultural peatlands. It includes a CSV file with the experimental data, an R script for reproducing analyses and figures, and a README file with a data dictionary describing the sampling methodology. The data supports research on nutrient and contaminant dynamics in managed wetland ecosystems.
CERES and GEO-enhanced data provides monthly-averaged one-hourly parameters on a 1-degree regional spatial scale. The product combines observations from CERES instruments on Terra and Suomi NPP satellites with geostationary satellite data to model radiative flux variability. It was produced by NASA using the Langley Fu-Liou radiative transfer model and data collection for this edition is complete.
A synthesis of evidence from 2,064 studies quantifying the combined impacts of elevated CO2 and warming on soil nitrogen cycling. The dataset was created by Zhang and is available on figshare, last updated in April 2026.
CYGNSS Level 1 Climate Data Record Version 1.2 contains calibrated Delay Doppler Maps from a constellation of satellites. The dataset includes up to 8 netCDF files per day, with a latency of approximately 1 week, and is produced by the National Aeronautics and Space Administration. Version 1.2 improves calibration accuracy and long-term stability through trackwise correction algorithms.
A Climate Data Record containing geo-located Delay Doppler Maps calibrated into Power Received and Bistatic Radar Cross Section from the CYGNSS satellite constellation. The dataset includes other parameters like Normalized Bistatic Radar Cross Section, Delay Doppler Map Average, and Leading Edge Slope, along with quality flags and orbital data. Produced by NASA, it is derived from reanalysis with a latency of approximately 1 month.
Three field-based methods were used to assess the potential impacts of marine seismic surveys on scallops in the Bass Strait, Australia. The study includes dredging and Autonomous Underwater Vehicle (AUV) imagery of two scallop species before, two months after, and ten months after a 2015 survey, as well as MODIS satellite sea surface temperature data from 2006–2016. Results show no evidence of scallop mortality from the 2015 survey but link a 2010 mortality event to a thermal spike coinciding with a seismic survey.
Version 1.1 of the CYGNSS Level 2 Climate Data Record provides daily, geolocated average wind speed and mean square slope measurements at 25x25 kilometer resolution. NASA's CYGNSS satellite constellation collects this data using a Delay Doppler Mapping Instrument, with a processing latency of approximately 1 to 2 months. The record is a reanalysis product derived from SDR v3.0 Level 1 data, featuring improved calibration accuracy and long-term stability through a trackwise correction algorithm.
Version 3.0 CYGNSS Level 2 data provides daily average wind speed and mean square slope measurements with 25-kilometer resolution from a constellation of eight satellites. NASA's updated processing uses refined Geophysical Model Functions derived from MERRA-2 and HWRF models to improve accuracy, especially near cyclonic storms. Each daily netCDF file has a latency of approximately six days from the last measurement.
NASA's CYGNSS satellite constellation provides a daily Climate Data Record of average ocean surface wind speed and mean square slope on a 0.2x0.2 degree latitude-longitude grid. The Version 1.1 product uses a trackwise correction algorithm applied to Level 1 data, improving calibration accuracy and long-term stability relative to previous versions. A single netCDF-4 file is produced for each day of operation with an approximate 1 to 2 month latency.
A 2026 study of 1,248 pregnant women from the PMDAPO cohort in Guangzhou, China, investigating longitudinal associations between PM2.5 air pollution exposure and gestational diabetes mellitus (GDM). The dataset, authored by Shanshan Mei and shared via figshare, includes demographic information, gut microbiota profiles from 16S rRNA sequencing, blood metabolites, and circular RNA (circRNA) measurements to explore mediating biological mechanisms.
Shanshan Mei's dataset from the PMDAPO cohort in Guangzhou, China, contains longitudinal data from 1,248 pregnant women. It explores associations between PM2.5 exposure, gut microbiota dysbiosis, blood metabolites, circular RNAs, and gestational diabetes mellitus risk. The data was last updated on March 18, 2026.
GHRSST Level 2P sea surface temperature data derived from the Advanced Microwave Scanning Radiometer (AMSR-E) aboard NASA's Aqua satellite. Remote Sensing Systems processes the data, providing both near-real-time and final analysis products. The instrument launched on 4 May 2002 and can measure SST through clouds.
GPM Microwave Imager (GMI) data provides global subskin sea surface temperature measurements. The GPM satellite, launched February 27, 2014, is a joint NASA and JAXA mission with a 65-degree inclined orbit for full local time sampling. Data is processed by Remote Sensing Systems using Version-8 algorithms and is available in near-real time with a 3 to 6-hour delay as Daily, 3-Day, Weekly, and Monthly products.
The GHRSST Level 3U dataset provides global subskin sea surface temperature measurements from the WindSat Polarimetric Radiometer aboard the Coriolis satellite. Remote Sensing Systems (RSS) processes the data, offering both near-real-time products within 3 hours of recording and final archive-quality products (version 7.0.1a) generally available within 7 days. The dataset is provided by the National Aeronautics and Space Administration (NASA).