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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
27,095 datasets
Hydrological data for Calgary details land covered by intermittent and permanent water bodies, including major natural watercourses like the Bow River and Fish Creek. This generalized dataset is maintained by data.calgary.ca for cartographic purposes and faster rendering. The dataset was last updated in April 2026.
Air temperature data collected by weather sensors deployed on the Australian Institute of Marine Science (AIMS) weather station at Myrmidon Reef. The data set was first collected on 02 November 1987. The data is managed by the Australian Ocean Data Network.
A 2019 compilation integrates nearly 1.4 million ground gravity stations, 345,000 line km of airborne gravity, and 106,000 line km of airborne gravity gradiometry data collected from the 1940s onward. The grid, with a cell size of approximately 435m, shows a half vertical derivative of complete Bouguer anomalies over Australia and its margins. It was processed and quality-checked by Geoscience Australia geophysicists, incorporating offshore data from global sources.
Weather sensor data collected from the Australian Institute of Marine Science station at Davies Reef. The dataset originates from the Australian Ocean Data Network and was last updated in April 2026. Its specific contents and scale are not detailed in the available metadata.
2019 gravity anomaly grid derived from nearly 1.4 million ground stations and marine data, with observations collected from the 1940s to 2019. The image shows complete Bouguer anomalies over Australia and its continental margins at a cell size of approximately 435 meters. It was produced by Geoscience Australia from the Australian National Gravity Database and global offshore data.
FLASHFlux NOAA-20 SSF Version1B data provide near real-time top-of-atmosphere radiative fluxes, cloud properties, and parameterized surface fluxes. This rapid-release product from the NASA CERES project processes measurements from the CERES scanner and VIIRS imager on the NOAA-20 satellite within one week of acquisition. It is designed for applications requiring timely data, with calibration accuracy relaxed compared to the final climate-quality CERES products.
The NOAA Whole Atmosphere Model-Ionosphere Plasmasphere Electrodynamics (WAM-IPE) Forecast System provides real-time nowcasts and two-day forecasts of ionosphere and thermosphere conditions. It is developed and maintained by the NOAA Space Weather Prediction Center, coupling a neutral atmosphere model with a plasma model from 90 km to 10,000 km altitude. Forecasts are produced four times daily, and nowcasts ingest solar wind data every 5 minutes.
The Unified Forecast System Weather Model (UFS-WM) regression test suite includes 123 tests to validate code changes for NOAA's operational numerical weather prediction. The tests, developed by NOAA, use input data like initial conditions and climatology data, with results logged and committed alongside code updates. The framework supports applications including global weather, hurricane, and seasonal forecasts.
NOAA's Climate Data Records are long-term, vetted time series created by merging surface, atmosphere, and space-based data across decades. These records provide authoritative information on changes in oceans, seas, and ice sheets, developed by applying modern analysis to historical and current satellite data. The National Centers for Environmental Information (NCEI) maintains and extends these records.
Decadal-scale time series measurements of global atmospheric variables, created and maintained by NOAA's National Centers for Environmental Information (NCEI). These Climate Data Records (CDRs) are produced by merging surface, atmosphere, and space-based system data and are vetted using standards established by the National Research Council. They provide authoritative, traceable long-term records to assess climate variability and change.
NOAA's STOFS-3D-Atlantic model runs daily to provide 24-hour nowcasts and 96-hour forecasts of water levels, temperature, salinity, and currents. Its unstructured grid contains 2,926,236 nodes and 5,654,157 elements, with resolution from 8 meters in rivers to 2 km near shorelines. The system is developed collaboratively by NOAA's Office of Coast Survey, NCEP Central Operations, and the Virginia Institute of Marine Science.
Weather sensor data collected from the Raine Island station site operated by AIMS. The time series covers observations from 11 December 2011 to 30 October 2018. The dataset is managed by the Australian Ocean Data Network.
Two high-latitude moored buoys, KEO and Papa, initiated in 2004 and 2007, provide continuous meteorological and oceanic measurements. The surface suite includes air temperature, humidity, radiation, pressure, winds, and rain, while subsurface instruments measure temperature, salinity, and currents. NOAA's Pacific Marine Environmental Laboratory (PMEL) calibrates and quality-controls the data, making near-realtime and complete datasets available via OceanSITES.
The Antarctic region's geologic record from the past 50 million years influences global climates, sea levels, and ocean circulation. Much information derives from sedimentary sequences drilled in and around Antarctica. The dataset is hosted by the Australian Ocean Data Network and was last updated on 2026-04-16.
Near Real-Time SMAP L2 Radiometer Half-Orbit 36 km EASE-Grid Soil Moisture V107 provides global land surface soil moisture estimates from the SMAP satellite's L-band radiometer. Data are available within three hours of observation and provide at least fourteen consecutive days of coverage from 86.4°S to 86.4°N latitude. This operational product is produced by the NSIDC DAAC using the latest ancillary data to minimize latency.
Approximately 1.4 million gravity stations from the Australian National Gravity Database, supplemented by offshore data, were used to generate this grid. The data represents the half vertical derivative of de-trended global isostatic residual anomalies over Australia and its continental margins, with a cell size of approximately 435 meters. Geoscience Australia compiled the data from ground observations collected by various government and research entities from the 1940s onward, combined with global marine gravity data.
Wind data collected by weather sensors deployed at the AIMS Wharf Weather Station site. The dataset covers a specific seven-month period from 01 November 1983 to 30 May 1984. It was aggregated by the Australian Ocean Data Network and last updated in April 2026.
Geoscience Australia Data produced the National Gravity Compilation 2019 DGIR image from the 2019 Australian National Gravity Grids A series. The image shows de-trended global isostatic residual gravity anomalies over Australia and its continental margins, derived from nearly 1.4 million gravity stations and marine data. The underlying ground observations were collected by various government, industry, and research entities from the 1940s to 2019.
Australia and its continental margins are covered by this gravity grid with a cell size of approximately 435 meters. The grid is derived from nearly 1.4 million gravity stations in the Australian National Gravity Database as of September 2019, supplemented by offshore data. Geoscience Australia produced this de-trended global isostatic residual anomaly grid from ground observations collected from the 1940s onward.
A gravity anomaly grid for Australia and its continental margins, derived from nearly 1.8 million ground and airborne observations. The grid, with a cell size of approximately 435 meters, shows the half vertical derivative of de-trended global isostatic residual anomalies. It was compiled by Geoscience Australia using data from the Australian National Gravity Database and global sources, incorporating measurements from the 1940s to 2019.