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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
26,627 datasets
CLIMCAPS uses 2211 infrared channels and 22 microwave channels from the NOAA-20 satellite to retrieve full atmospheric profiles. Its Optimal Estimation method relies on MERRA-2 reanalysis, resulting in a latency of 3 to 7 weeks. Each Level 2 granule contains 30 footprints cross-track by 45 lines along-track, with 240 granules produced daily.
A 0.25-degree resolution, near-global gridded analysis provides 6-hourly ocean surface vector winds. This Cross-Calibrated Multi-Platform product combines inter-calibrated satellite retrievals from U.S., Japanese, and European microwave sensors with ERA5 reanalysis background fields. Version 3.1, produced by Remote Sensing Systems with NASA support, includes improvements for high-wind performance and reduced spurious trends.
CLIMCAPS Level 2 data provides retrieved atmospheric state profiles from the Suomi NPP satellite's CrIS/ATMS instruments. The algorithm uses Optimal Estimation and MERRA-2 as a first guess to derive surface properties, full atmosphere profiles of temperature, water vapor, ozone, and trace gases like carbon monoxide and methane. Each granule contains 6 minutes of data, with 30 footprints cross track and 45 lines along track.
Australian Ocean Data Network published a dataset about seismic source upgrades for the RV Rig Seismic vessel. The dataset is hosted on data.gov.au and was last updated on 2026-06-16. The raw description indicates it is a legacy product with no abstract available.
The Netherlands' seismic site-response zonation map, designed by transforming geological 3D grid cell models into five classes with assigned amplification factors. This nationwide assessment is important for a first identification of regions with increased seismic hazard potential. The dataset is provided by the Ministerie van Binnenlandse Zaken en Koninkrijksrelaties under a CC-BY-4.0 license.
Geoscience Australia delivered a set of 3D gravity models for the Capel and Faust Basins on the Lord Howe Rise. The models were derived from a seismic and potential field survey conducted in the summer of 2006/07, interpreting over 6000 meters of sediment in the deepest depocentres. The report describes the tools and process developed to integrate 3D gravity mapping with traditional seismic interpretation workflows.
Sentinel-5P's TROPOMI instrument provides high-resolution global measurements of atmospheric carbon monoxide (CO) total columns using a spectrometer covering ultraviolet to shortwave infrared wavelengths. The dataset applies the SICOR algorithm, which retrieves CO concentrations from the 2305-2385 nm absorption band and accounts for cloudy and aerosol-loaded atmospheric conditions. These observations support monitoring of air pollution and combustion sources from space.
Sentinel-5P TROPOMI Cloud 1-Orbit L2 data provides high-resolution measurements of cloud properties derived from the TROPOspheric Monitoring Instrument. The dataset is generated by two algorithms: OCRA for fractional cloud cover and ROCINN for cloud optical thickness and cloud top height. It is part of the European Space Agency's Copernicus program for monitoring atmospheric composition.
Sentinel-5P TROPOMI provides total vertical column ozone measurements at a high spatial resolution of approximately 5.5 km at nadir. The data is processed using the Direct-fitting algorithm (S5P_TO3_GODFIT), which compares simulated and measured backscattered radiances. This product is part of the first Atmospheric Composition Sentinel mission, a joint initiative between the European Space Agency and the Kingdom of the Netherlands.
From August 6, 2019 onward, this dataset provides Level-2 cloud products from the Sentinel-5P satellite's TROPOMI instrument. It contains cloud properties retrieved by two algorithms: OCRA for fractional cloud cover and ROCINN for cloud optical thickness and cloud top height. The data offers high spatial resolution (~5.5 km at nadir) and covers ultraviolet-visible, near infrared, and shortwave infrared wavelengths.
Sentinel-5P TROPOMI Tropospheric NO2 1-Orbit L2 data provides high-resolution global measurements of nitrogen dioxide concentrations in the troposphere. The dataset is produced by the TROPOspheric Monitoring Instrument aboard the Copernicus Sentinel-5 Precursor satellite, a joint mission of the European Space Agency and the Kingdom of the Netherlands. Retrieval is based on the DOMINO approach, using differential optical absorption spectroscopy and a model to separate stratospheric and tropospheric contributions.
2014-2021 data maps areas inundated by Commonwealth environmental water in Australia's Murray-Darling Basin. It extends the MDBA's managed floodplain dataset with polygons from the Flow-MER and LTIM monitoring programs. The dataset was created by the Commonwealth Environmental Water Holder's Flow-MER program and published in 2022.
2014-2021 data maps areas of Australia's Murray-Darling Basin inundated by Commonwealth environmental water. It combines the Murray-Darling Basin Authority's managed floodplain spatial dataset with polygons identified through the Long Term Intervention Monitoring and Flow-MER programs. The dataset was created by the Flow-MER program for the Commonwealth Environmental Water Holder.
MDMS sample points document monitoring locations for the Commonwealth Environmental Water Holder's Flow-MER program and preceding LTIM project. The dataset includes Selected Area monitoring sites and Basin stream-flow gauging nodes used in hydrology models. It was published by the Flow-MER program and the Commonwealth Environmental Water Holder, with data covering projects from 2014 to 2023.
Monitoring locations for the Commonwealth Environmental Water Holder's Flow-MER program and Long Term Intervention Monitoring project. The dataset includes sample points from the Monitoring Data Management System, covering Selected Area monitoring sites and Basin stream-flow gauging model nodes. It was created by the Flow-MER program and Commonwealth Environmental Water Holder, with data collection spanning from 2014 to 2023.
LPRM_TMI_NT_SOILM3 is a Level 3 gridded dataset from NASA's GES DISC providing nighttime land surface parameters derived from the Tropical Rainfall Measuring Mission (TRMM) Microwave Imager. It contains daily estimates of surface soil moisture, land surface skin temperature, and vegetation water content at a 25 km x 25 km resolution, processed using the Land Parameter Retrieval Model (LPRM). The data covers a historical period from December 1997 to April 2015, when the TRMM satellite instruments were decommissioned.
HRDI on NASA's Upper Atmosphere Research Satellite measured Doppler shifts between 400 and 800 nm to produce daily vertical profiles. It captures meridional and zonal wind components, temperature, and O2 volume emission rates in the stratosphere (10-40 km) and mesosphere/lower thermosphere (50-115 km) at about 2.5 km resolution. Data coverage alternates between latitudes 40S-76N and 76S-40N every 36-day satellite yaw cycle.
Rig seismic research cruise 13 data concerns the structure and stratigraphy of the northeast Gippsland Basin and southern New South Wales margin. The dataset is published by the Australian Ocean Data Network on data_gov_au. It is a legacy product with no abstract available.
ISAMS on NASA's UARS satellite captured daily vertical profiles of temperature and eight chemical species from 15 to 60 km altitude using limb-sounding infrared measurements. Data are structured as 10 daily granules, each containing profiles for a specific variable on standard UARS pressure levels. The dataset's unique yaw cycle alternated coverage between 34Ā°Sā80Ā°N and 80Ā°Sā34Ā°N every 36 days, providing a global view of stratospheric and mesospheric composition.
Daily vertical profiles from the Upper Atmosphere Research Satellite (UARS) provide meridional and zonal wind components, temperature, and O2 volume emission rate data. Measurements cover the stratosphere (10-40 km) and mesosphere (50-115 km) at approximately 2.5 km resolution, collected between 40Ā°Sā76Ā°N and 76Ā°Sā40Ā°N latitudes on alternating 36-day yaw cycles. The Level 3AL product, processed with version 11 algorithm, consists of 8 granules per day, structured on standard UARS altitude and pressure levels.