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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
26,638 datasets
R code and six CSV files supporting a study on how weather impacts brood size and nestling mass in a montane songbird. The 2.8 MB dataset, authored by Lauren Whitenack and last updated in May 2026, is shared under a CC-BY-4.0 license. It likely contains tabular data linking meteorological variables to avian reproductive outcomes.
GEWEX SRB Integrated Product (Rel-4) Shortwave Daily Average by UTC provides global fields of 11 shortwave radiative parameters at the surface and top of the atmosphere. The dataset, produced by the NASA World Climate Research Programme/Global Energy and Water-Cycle Experiment (WCRP/GEWEX) Surface Radiation Budget Project, covers a long temporal range from July 1983 through June 2017. It is derived from multiple satellite inputs including ISCCP cloud data, SORCE TIM solar irradiance, and MAC V1 aerosol properties.
GEWEX SRB Release 4-Integrated Product provides global, ocean-only fields of longwave radiative parameters. The dataset contains 26 parameters, including all-sky, clear-sky, and pristine-sky upward and downward fluxes at the surface, tropopause, and pressure levels. Data covers January 2010 through June 2017 and is derived from inputs like ISCCP cloud data, SeaFlux SST, and MERRA-2 meteorology.
Land-only global fields contain 26 longwave surface, Top of Atmosphere, and atmospheric profile radiative parameters. The dataset is derived using the GEWEX Surface Radiation Project's Longwave algorithm, integrating inputs from ISCCP cloud data, ISCCP meteorology, Landflux, and MERRA-2. It is produced by NASA's LARC ASDC and covers a temporal range from July 1983 through December 1987.
GEWEX SRB Release 4-Integrated Product provides land-only global fields of 26 longwave radiative parameters. The dataset includes all-sky, clear-sky, and pristine-sky upward and downward fluxes at the surface, 500hPa, 200hPa, tropopause, and Top of Atmosphere. It covers two distinct periods: July 1983 through December 1987 for UTC-averaged land-only data, and January 1988 through December 2009 for global data averaged by local solar time.
10 ensemble members of climate model output from the CESM2 model, simulating a negative CO2 emissions scenario from 2000 to 2400. The data, authored by Sunhee Wang and published on figshare in 2026, includes atmospheric, land, ice, and ocean components at a nominal horizontal resolution of ~1°x1°. The experiment linearly increases CO2 to 725 ppm by 2107 before reducing it back to 383 ppm by 2197.
This dataset provides daily precipitation estimates for rainfall and snowfall on a 1/32-degree grid over the Olympic Mountains in Washington state. It was created by the GHRC DAAC for the GPM Ground Validation OLYMPEX field campaign, synthesizing data from NOAA WSR-88D radar and rain gauges using the VIC hydrology model. The data covers a seven-month period from October 1, 2015, through April 30, 2016.
Met One tipping bucket rain gauge pairs collected precipitation amount and rate data during the Olympic Mountains Experiment (OLYMPEX) field campaign. The campaign, led by NASA's Global Precipitation Measurement mission, took place from November 2015 to February 2016 on the Olympic Peninsula in the Pacific Northwest. This dataset provides ground-truth measurements to validate precipitation observations from the GPM Core Observatory satellite.
U.S. Atlantic coast snowstorms are the focus of this airborne radar dataset collected by the HIWRAP instrument on NASA's ER-2 aircraft during the IMPACTS field campaign. It provides measurements of equivalent reflectivity factor, Doppler velocity, spectrum width, and Linear Depolarization Ratio to study snowband formation and microphysics. Data spans three winter seasons from January 2020 through February 2023 and is stored in HDF-5 format.
August 13 to September 25, 2010 data from NASA's airborne Differential Absorption Lidar (DIAL) system flown on the DC-8 aircraft during the Genesis and Rapid Intensification Processes (GRIP) experiment. The LASE instrument measured vertical profiles of water vapor, aerosols, and clouds throughout the troposphere using laser pulses at the 815-nm water vapor absorption band. This dataset was collected to support research into the formation and intensification processes of tropical storms and hurricanes.
NASA's GRIP Hurricane Imaging Radiometer (HIRAD) V1 dataset provides passive microwave radiometer measurements from aircraft during the Genesis and Rapid Intensification Processes experiment. It includes brightness temperature readings at 4, 5, 6, and 6.6 GHz, supplemented by MERRA 2-meter wind speed and JPL MUR sea surface temperature data, collected from September 1 to 16, 2010, focusing on storms Earl and Karl. The data were gathered using NASA's DC-8, WB-57, and Global Hawk aircraft equipped with remote sensing instruments to study hurricane formation and intensification.
A list of monitoring locations for surface water and groundwater data collection in Western Australia. The dataset provides summary-level attribute information for each site to support water resource assessment and management. It does not include detailed measurement data.
328 GPS-located dropsondes deployed from a DC-8 aircraft captured vertical atmospheric profiles during the 2010 Genesis and Rapid Intensification Processes (GRIP) campaign. Measurements include pressure, dry-bulb and dew point temperature, relative humidity, wind speed, wind direction, and fall rate. The dataset was created by the GHRC DAAC to study tropical storm formation and hurricane intensification.
Radar data from 31 NEXRAD sites was collected from January 1 to March 1, 2020 for the IMPACTS field campaign, a three-year study of Atlantic Coast snowstorms. The dataset contains Level II meteorological and dual-polarization base data quantities. It is managed by the GHRC DAAC and is available in netCDF-4 format.
KFCX NEXRAD IMPACTS V1 provides Level II weather radar surveillance data from 31 NEXRAD sites across the United States. The dataset was collected from January 1 to March 1, 2020 as part of the three-year IMPACTS field campaign to study snowstorms over the U.S. Atlantic Coast. Data are available in netCDF-4 format and contain dual-polarization base quantities including radar reflectivity, radial velocity, and differential reflectivity.
January 1 to March 1, 2020 data from 31 NEXRAD radar sites during the IMPACTS field campaign. This dataset contains Level II meteorological and dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential phase, aimed at studying snowband formation and microphysics. Data is provided in netCDF-4 format by the GHRC DAAC and is part of a planned three-year campaign sequence.
31 NEXRAD weather radar sites collected Level II surveillance data from January 1 to March 1, 2020 during the IMPACTS field campaign. The dataset contains meteorological and dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential phase, aimed at studying snowband formation and microphysics. Data is provided in netCDF-4 format by the GHRC DAAC and will be updated for subsequent campaign years.
Thirty-one NEXRAD radar sites collected Level II surveillance data from January 1 to March 1, 2020, during the IMPACTS field campaign focused on U.S. Atlantic Coast snowstorms. The dataset contains meteorological and dual-polarization base data quantities including radar reflectivity, radial velocity, and differential phase. It was produced by the GHRC DAAC and is part of a three-year campaign, with data files available in netCDF-4 format.
31 NEXRAD weather radar sites collected Level II surveillance data from January 1 to March 1, 2020, as part of the IMPACTS field campaign. The dataset contains dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential phase, to study snowband formation and microphysics. Data is provided in netCDF-4 format by the GHRC DAAC and will be updated for subsequent campaign years.
January 1 to March 1, 2020 data from 31 NEXRAD sites during the IMPACTS field campaign. The dataset contains Level II meteorological and dual-polarization base data quantities, including radar reflectivity, radial velocity, and differential phase, aimed at studying snowband formation and microphysics. It is provided by the GHRC DAAC in netCDF-4 format and is part of a three-year campaign with planned updates.