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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
25,101 datasets
CSIRO Oceans & Atmosphere Data Centre archives underway data from the RV Investigator voyage IN2015_C02, a Great Australian Bight ecosystem study. The dataset includes navigation, thermosalinograph, and atmospheric measurements recorded at 5-second intervals between November 30 and December 22, 2015. Data is available in NetCDF and CSV formats via the Australian Ocean Data Network.
Mexico's monthly climate records for all states from January 1985 to the present. The dataset includes temperature metrics in Celsius and Fahrenheit and precipitation totals in millimeters and inches. It was compiled by Montserrat Mora from the Mexican National Meteorological Service and last updated in May 2026.
TOLNet_ECCC_Data contains lidar measurements from the AMOLITE instrument in Toronto, Canada, part of a network operating since 2011. The data provides high spatio-temporal profiles of tropospheric ozone, a pollutant harmful to health and a greenhouse gas. It supports air quality studies, atmospheric modeling, and validation of satellite observations.
Marc castellnou Ribau's dataset provides materials to compute fire-induced modifications of the atmospheric boundary layer (fireABL). It includes scripts, hourly fire spread isochrones, ERA5 reanalysis data, and satellite brightness temperature files for plume top identification. The dataset was last updated on 2026-05-27.
Gridded hydroclimatic data products for the contiguous United States at 2-degree spatial and daily temporal resolution, covering 5,844 days from 2006 to 2021. The dataset includes five variables: near-surface air temperature, total precipitation, relative humidity, soil temperature, and soil moisture. ANAGHA MURALI created the dataset by interpolating station observations from NOAA's USCRN network and includes four interpolation method products alongside ERA5-Land reference data.
Rafael Freitas published a dataset on 2026-05-27 analyzing the influence of temperature and precipitation on Aedes aegypti mosquito populations. The data integrates entomological indices from LIRAa larval surveys and Adultrap traps with meteorological data from Foz do Iguaรงu, Brazil. Statistical analysis was performed using Generalized Linear Mixed Models (GLMM) and the Akaike Information Criterion (AIC).
Himawari-8 satellite data with very high spatiotemporal resolution enabled mapping of the dynamic East Australian Current using a Topographic Position Index method. The dataset captures sea surface temperature signatures from July 2015 to September 2017, documenting meanders, offshoots, separation, eddies, and extensions. Xie et al. published the associated research in the Journal of Geophysical Research: Oceans in 2020.
Thirty-one NEXRAD sites along the U.S. Atlantic Coast collected Level II radar data from January 1 to March 1, 2020, as part of the IMPACTS field campaign. The dataset contains meteorological and dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential phase. Its primary purpose is to study the formation and evolution of snowbands to improve snowfall prediction models.
The KIWX NEXRAD IMPACTS dataset from NASA contains Next Generation Weather Radar (NEXRAD) Level II surveillance data collected at 31 sites from January 1 to March 1, 2020, as part of the Investigation of Microphysics and Precipitation for Atlantic Coast-Threatening Snowstorms (IMPACTS) field campaign. It provides meteorological and dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential reflectivity, to study snowband formation and microphysics. The dataset is available in netCDF-4 format and is part of a planned three-year sequence of winter deployments.
Geoscience Australia's National Groundwater Systems Project produced this 3D geological and hydrogeological model of the Great Artesian Basin and Lake Eyre Basin. The model is populated with volume of shale (Vshale) values calculated from 2,310 wells across four basins. It provides a refined architecture of aquifer and aquitard geometry to improve groundwater conceptualisation across jurisdictions.
From March-April 1999, this dataset contains remotely sensed water vapor and aerosol profiles collected by the Lidar Atmospheric Sensing Experiment (LASE) onboard a NASA DC-8 aircraft during the Pacific Exploratory Mission (PEM) Tropics B campaign. The data were gathered to assess anthropogenic impacts on tropospheric oxidizing power and the role of marine sulfur chemistry in aerosol loading across the tropical Pacific basin. It is part of the NASA Global Tropospheric Experiment (GTE) conducted between 1983 and 2001.
PEM-Tropics-B_MetNav_AircraftInSitu_P3B_Data contains in-situ meteorology and navigation measurements from the NASA P-3B aircraft during the Pacific Exploratory Mission Tropics B campaign in March-April 1999. The dataset features data from the Turbulent Air Motion Measurement System (TAMMS) and was collected to assess anthropogenic impact on tropospheric oxidizing power and atmospheric sulfur chemistry over the tropical Pacific. It is part of the broader NASA Global Tropospheric Experiment series from 1983-2001.
A 1990s study inventoried and classified rock glaciers in the Pyrenees mountains of Spain and France as active, inactive, or relict. Detailed geomorphological mapping, photogrammetry, and field measurements like clast analysis and geoelectric soundings underpin the activity assessments. Specific rock glaciers studied include Besiberri, Gemelos, and Argualas.
GRIP WB-57 Navigation and Housekeeping Data V1 contains measurements from the NASA WB-57 weather research aircraft during the Genesis and Rapid Intensification Processes (GRIP) field campaign. The dataset was collected on flight days between July 13 and September 17, 2010, with the goal of understanding tropical storm formation and hurricane intensification. It includes data in IWG1 format and associated error logs.
SONEX_Miscellaneous_DC8_Data contains ancillary GIF and PostScript files from the Subsonics Assessment Ozone and NOx Experiment (SONEX). This international mission in October-November 1997 studied the impact of subsonic aircraft emissions on atmospheric composition in the North Atlantic Flight Corridor. The files support in-situ measurements of NOx, ozone, aerosols, and other chemical species taken from NASA's DC-8 and DLR's Falcon 20 aircraft.
Thirty-one NEXRAD sites across the United States collected this Level II weather radar data from January 1 to March 1, 2020. It is part of the three-year IMPACTS field campaign studying snowband formation and microphysics along the U.S. Atlantic Coast. The dataset contains dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential reflectivity, stored in netCDF-4 format.
31 NEXRAD sites collected Level II weather radar data from January 1 to March 1, 2020, for the IMPACTS field campaign. This dataset contains meteorological and dual-polarization base data quantities including radar reflectivity, radial velocity, and differential reflectivity. IMPACTS was a three-year campaign to study snowband formation and improve snowfall prediction along the U.S. Atlantic Coast.
NEXRAD Level II weather radar data were collected at 31 sites from January 1 to March 1, 2020, as part of the IMPACTS field campaign studying Atlantic Coast snowstorms. The dataset contains meteorological and dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential reflectivity. Its primary aim is to improve the understanding of snowband formation, microphysics, and remote sensing for snowfall prediction.
From January 1 to March 1, 2020, this dataset contains Next Generation Weather Radar (NEXRAD) Level II surveillance data collected at 31 sites during the IMPACTS field campaign. It provides dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential reflectivity, to study snowstorms over the U.S. Atlantic Coast. The data is part of a three-year campaign to improve the understanding and prediction of snowband formation and microphysics.
KVWX NEXRAD IMPACTS V1 contains Level II weather surveillance radar data from 31 NEXRAD sites collected during the 2020 winter season of the IMPACTS field campaign. The dataset includes dual-polarization base data quantities such as radar reflectivity, radial velocity, and differential reflectivity, aimed at studying snowband formation and microphysics over the U.S. Atlantic Coast. Data files are provided in netCDF-4 format, with updates planned for subsequent campaign years.