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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
25,097 datasets
ORACLES_Aerosol_AircraftInSitu_Data contains in-situ aerosol measurements from P-3 Orion and ER-2 aircraft flights during three intensive observation periods from 2016 to 2018. The dataset provides multi-year airborne observations of the complete vertical column to study key parameters driving aerosol-cloud interactions. It focuses on biomass burning aerosols from Southern Africa, which produces nearly one-third of Earth's biomass burning aerosol particles, in a region with large inter-model differences in climate forcing assessments.
Nearly 1.4 million gravity stations from the Australian National Gravity Database were used to generate this spherical cap Bouguer anomaly grid. The grid has a cell size of 0.00417 degrees (approximately 435 meters) and is expressed in gravity units (um/s^2). This 2019 compilation, processed by GA geophysicists, integrates ground observations with offshore data from Scripps Institution of Oceanography, NOAA, and NGA.
Geoscience Australia's National Gravity Compilation 2019 DGIR 0.5VD grid is a geospatial dataset derived from nearly 1.4 million gravity stations. The grid, with a cell size of approximately 435 meters, shows the half vertical derivative of de-trended global isostatic residual anomalies over Australia and its continental margins. Data originates from ground observations in the Australian National Gravity Database as of September 2019, supplemented by offshore data from Scripps Institution of Oceanography, NOAA, and NGA.
New South Wales water theme data provides a geospatial representation of hydrology, including the movement, distribution, and quality of water. It covers surface water, groundwater, hydrogeology, drainage basin management, and water quality, aligned with definitions under the Water Act 2007. The dataset is a hosted feature layer containing elements like rivers, bores, springs, coastlines, and tidal limit markers.
Rock glacier inventory maps over 120 features along an 18Β°S to 29Β°S transect in the Chilean Altiplano. The dataset, produced by NASA, includes attributes like height, exposition, activity, and latitude to analyze climatic implications. It specifically examines the distribution relative to the 'Andean Dry Diagonal' and precipitation patterns.
Data collected during 1992 and 1997 provides an inventory of rock glaciers in the Hautes Alpes Calcaires limestone range of Switzerland. For each feature, the dataset likely contains characteristics like orientation, width, length, elevation, form type, material, activity, and lithology. It also includes specific temperature measurements, such as Bottom Temperature under Snow cover (BTS) and spring temperatures, particularly for the Cabane des Diablerets Rock Glacier.
Nearly 1.8 million gravity observations, including 1.4 million ground stations and 451,000 line km of airborne data, were used to create this 2019 grid. Geoscience Australia processed and quality-checked the data, which combines ground, offshore, and airborne measurements collected from the 1940s to 2019. The resulting image shows de-trended global isostatic residual gravity anomalies across Australia and its continental margins at a cell size of approximately 435 meters.
Nearly 1.4 million gravity stations from the Australian National Gravity Database, supplemented by offshore data, were used to generate this 2019 grid. Geoscience Australia processed ground and marine observations collected from the 1940s onward to produce a first vertical derivative image of de-trended global isostatic residual anomalies. The resulting grid has a cell size of approximately 435 meters and covers Australia and its continental margins.
NASA's STRAT campaign from May 1995 to February 1996 collected in-situ and remote measurements to study global-scale transport. The dataset includes modeled trajectories and meteorological data along the ER-2 flight path, with measurements of HOx, NOy, CO2, ozone, water vapor, temperature, N2O, CH4, CO, HCL, and NO. This data was intended to test 2D and 3D models for assessing the impact of high-speed civil transport exhaust on the stratosphere.
From May 1995 to February 1996, NASA's Stratospheric Tracers of Atmospheric Transport (STRAT) campaign collected in-situ atmospheric data using the ER-2 high-altitude aircraft. The dataset includes measurements of trace gases, aerosols, and photolysis frequencies to study transport and chemistry in the upper troposphere and lower stratosphere. It was designed to assess the potential impact of high-speed civil transport (HSCT) exhaust and to provide data for testing 2D and 3D atmospheric models.
Nearly 1.4 million gravity stations from the Australian National Gravity Database and offshore sources were used to create this continental-scale grid. The grid, with a cell size of approximately 435 meters, shows the first vertical derivative of de-trended global isostatic residual anomalies. Geoscience Australia processed and quality-checked the data, which incorporates ground observations collected from the 1940s to 2019.
A free air gravity anomaly grid for Australia and its continental margins, compiled in 2019. The grid incorporates nearly 1.4 million ground stations from the Australian National Gravity Database, 345,000 line km of airborne gravity data, and 106,000 line km of airborne gravity gradiometry. Data collection spans from the 1940s to the present day, sourced from government, industry, and research organizations.
Micro Rain Radar data from the three-year IMPACTS field campaign targeting Atlantic Coast snowstorms. The dataset contains vertical profiles of reflectivity, Doppler velocity, liquid water content, and drop size distribution from MRR-2 and MRR-PRO instruments. Files span from January 1, 2020, to March 2, 2023, and are provided in netCDF-3 and netCDF-4/CF formats.
A 2019 compilation of approximately 1.8 million gravity observations, including nearly 1.4 million ground stations from the Australian National Gravity Database and offshore data. The grid, with a cell size of approximately 435 meters, shows the half vertical derivative of de-trended global isostatic residual anomalies over Australia and its continental margins. Ground data was acquired by various government, industry, and research entities from the 1940s to the present day.
A geospatial grid of de-trended global isostatic residual (DGIR) tilt anomalies derived from gravity data across Australia and its continental margins. The grid is based on nearly 1.4 million gravity stations from the Australian National Gravity Database and offshore sources, with ground observations collected from the 1940s to 2019. It has a cell size of approximately 435 meters and was processed by Geoscience Australia geophysicists.
Nearly 1.8 million gravity observations, including 1.4 million ground stations and 451,000 line km of airborne data, were used to create this 2019 grid. The Australian Commonwealth, State, Territory Governments, industry, and research organizations collected the data from the 1940s onward. It shows the first vertical derivative of de-trended global isostatic residual anomalies over Australia and its continental margins.
Geoscience Australia's National Gravity Compilation 2019 includes an airborne DGIR grid derived from approximately 1.8 million gravity observations. The grid combines ground data from the Australian National Gravity Database, offshore data from global sources, and airborne gravity and gradiometry surveys totaling 451,000 line kilometers. It provides de-trended global isostatic residual anomalies over Australia and its continental margins at a cell size of approximately 435 meters.
Shi-An Guo provides codes and data for the 2021 ACP paper, βThe enhancement of droplet collision by electric charges and atmospheric electric fields.β The dataset includes precomputed collision efficiency and kernel matrices for droplet pairs under different electric field strengths. It was last updated on 2026-05-24.
NASA's Ocean Biology DAAC produces Terra MODIS Level-3 Global Mapped 11Β΅m Nighttime Sea Surface Temperature (NSST) data in near real-time. This dataset provides a global snapshot of sea surface temperature derived from thermal infrared observations, intended for quicklook analysis. The geophysical variables include sea surface temperature in degrees Celsius and an integer quality flag.
January 30, 2020, through February 28, 2023, data from the Micro Rain Radar 2 instrument deployed during the IMPACTS field campaign. This dataset contains vertical profiles of reflectivity, Doppler velocity, and derived microphysical parameters like liquid water content and drop size distribution. The campaign was conducted by NASA to study the formation and evolution of snowbands over the U.S. Atlantic Coast.