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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
26,870 datasets
BARREL 3D Ephemeris Level 2 data provides geographic and magnetic coordinates from a NASA multi-balloon mission. The dataset contains balloon epoch time, latitude, longitude, and altitude measurements returned every 4 seconds from over 50 stratospheric balloon flights conducted between 2013 and 2016. Geographic coordinates were obtained from onboard GPS, while magnetic coordinates were derived using the IRBEM library.
Housekeeping voltage, temperature, current, and payload status values recorded every 40 seconds by the BARREL (Balloon Array for Radiation Belt Relativistic Electron Losses) mission. The data was collected from over 50 stratospheric balloon flights launched from Antarctica and Sweden across campaigns in 2013, 2014, 2015, and 2016. The mission was a NASA Living with a Star investigation designed to study electron precipitation from Earth's radiation belts.
Antarctic and Arctic stratospheric balloon data from the NASA BARREL mission, designed to study electron losses from Earth's radiation belts. The dataset includes over 50 balloon launches across campaigns in 2013, 2014, 2015, and 2016, providing geographic and magnetic coordinates recorded every 4 seconds. Measurements were taken at altitudes around 30 km to characterize relativistic electron precipitation.
Ephemeris data from the BARREL mission's stratospheric balloons, providing geographic and magnetic coordinates every 4 seconds. The NASA mission launched over 50 balloons from Antarctica and Sweden between 2013 and 2016 to study electron losses from Earth's radiation belts. Data includes GPS-derived geographic coordinates and IRBEM-derived magnetic coordinates.
BARREL 4A data provides housekeeping voltage, temperature, current, and payload status values recorded every 40 seconds from stratospheric balloons. The BARREL Mission was a NASA Living with a Star Mission of Opportunity designed to study electron losses from Earth's Radiation Belts, launching over 50 balloons across campaigns from 2013 to 2016. Observations were collected from Antarctic and Arctic stations at stratospheric altitudes near 30 km to measure relativistic electron precipitation.
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016, collecting 4-second interval data on geographic and magnetic coordinates. The BARREL mission, a NASA Living with a Star investigation, measured electron precipitation from Earth's radiation belts using X-ray spectrometers and magnetometers. Observations were conducted from Antarctic and Arctic sites at altitudes near 30 km to coordinate with the Van Allen Probes mission.
BARREL 4E Ephemeris Level 2 data provides geographic and magnetic coordinates from a NASA multi-balloon mission. The dataset contains balloon epoch time, latitude, longitude, and altitude measurements recorded every 4 seconds from over 50 stratospheric balloon flights launched from Antarctica and Sweden between 2013 and 2016. Geographic coordinates were obtained from onboard GPS, while magnetic coordinates were derived using the IRBEM library to study electron precipitation from Earth's radiation belts.
BARREL 4E data provides housekeeping voltage, temperature, current, and payload status values recorded every 40 seconds. The BARREL Mission was a NASA Living with a Star multiple-balloon investigation from 2013 to 2016, launched from Antarctica and Sweden to study electron losses from Earth's Radiation Belts. Over 50 stratospheric balloons carried X-ray spectrometers and magnetometers to measure relativistic electron precipitation.
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016. The BARREL Mission, a NASA Living with a Star investigation, collected housekeeping voltage, temperature, current, and payload status values every 40 seconds to study electron precipitation from Earth's radiation belts. Balloons were launched from Antarctic stations and Sweden's Esrange Space Center, flying at altitudes around 30 km.
BARREL 4H Ephemeris Level 2 data provides geographic and magnetic coordinates from a NASA balloon mission. The dataset includes balloon epoch time, latitude, longitude, and altitude recorded every 4 seconds from over 50 stratospheric balloon flights launched between 2013 and 2016 from Antarctica and Sweden. Geographic coordinates were obtained from onboard GPS, while magnetic coordinates were derived using the IRBEM library.
Housekeeping voltage, temperature, current, and payload status values recorded every 40 seconds by the BARREL mission's stratospheric balloons. The BARREL mission was a NASA Living with a Star investigation that launched over 50 balloons from Antarctica and Sweden between 2013 and 2016 to study electron precipitation from Earth's radiation belts. Data collection was coordinated with the Van Allen Probes mission and other ground and space-based instruments.
The Tantangara and Brindabella 1:100,000 Sheet areas cover 5,030 square kilometers in the Lachlan Fold Belt of New South Wales and the Australian Capital Territory. It details the geological history from the mid-Ordovician to the Quaternary, including sedimentation, volcanism, and deformation events. The dataset was published by the Australian Ocean Data Network and was last updated in April 2026.
Geological and geochemical data covers a 5,030 kmΒ² area within the Lachlan Fold Belt of New South Wales and the Australian Capital Territory. The Australian Ocean Data Network compiled this information detailing rock formations, sedimentary history, volcanic activity, and mineral deposits. The dataset was last updated in April 2026.
Volume 11 of the BMR journal compiles 12 Australian geological and geophysical research papers. The publication includes studies on earthquake catalogs, continental seismic travel times, petroleum potential, and paleontological stratigraphy. It was produced by the Australian Ocean Data Network and its contents were last updated in April 2026.
Interpretation of 2014β15 seismic reflection data enabled mapping of the Moho, basement, and major depositional sequences in this frontier basin. The study created a 3D geological model covering the survey area and mapped up to 16 km of PermianβCretaceous sediment succession. This work was conducted by Geoscience Australia under the Australian government's precompetitive data acquisition program.
Geoscience Australia's 2014β15 seismic survey data provides a reassessment of the tectonic evolution and petroleum prospectivity of the northern Houtman Sub-basin offshore Western Australia. Interpretation enabled mapping of the Moho, basement, and major syn-rift sequences, along with creation of a 3D geological model covering the survey area. This study significantly reduced exploration risk in this frontier region.
Several cylinders of carbon dioxide (CO2) and methane (CH4) were used as calibration standards to improve measurement comparability. The Boreal Ecosystem-Atmosphere Study (BOREAS) stored these standards in field laboratories in Saskatchewan and Manitoba from May 1994 until November 1996. The dataset is provided by the National Aeronautics and Space Administration.
A 300 km long and 100 km wide crustal downwarp, the Lander Trough contains up to 800 meters of Cambrian and Ordovician sediments. This report details its structure, rock sequences, and petroleum potential based on recent geological mapping and geophysical data reassessment. The Australian Ocean Data Network published the findings, last updated in April 2026.
The Lander Trough in Australia's Northern Territory is a 300 km long by 100 km wide crustal downwarp. This report details three rock sequences, including Cambrian-Ordovician sediments up to 800 meters thick, and assesses the area's petroleum potential based on comparisons to nearby basins. The Australian Ocean Data Network published this geological study, which was last updated in April 2026.
124 seismic refraction profiles were collected from six reefs in the Capricorn/Bunker group of the Great Barrier Reef. The dataset contains geophysical measurements used to map a subsurface discontinuity at depths of 8-23 meters, equated to the boundary between Holocene and pre-Holocene carbonates. This work was conducted by the Australian Ocean Data Network, with data last updated in April 2026.