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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
26,862 datasets
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016, collecting 4-second interval data on balloon position and magnetic field. The BARREL mission, a NASA Living with a Star project, measured electron precipitation from Earth's radiation belts using X-ray spectrometers and magnetometers. Observations were conducted from Antarctic and Swedish launch sites at stratospheric altitudes near 30 km.
Over 50 stratospheric balloon flights were conducted from 2013 to 2016 in Antarctica and Sweden. The dataset provides housekeeping voltage, temperature, current, and payload status values recorded every 40 seconds by the NASA BARREL mission, which studied electron losses from Earth's radiation belts. It was created to augment the Van Allen Probes mission with measurements of relativistic electron precipitation.
BARREL 2Q 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, launching over 50 balloons from Antarctica and Sweden between 2013 and 2016 to study electron precipitation from Earth's Radiation Belts. This Level 2 data is processed and provided by the National Aeronautics and Space Administration.
Over 50 stratospheric balloon flights collected three-axis magnetic field measurements at 0.25-second resolution to study electron precipitation from Earth's radiation belts. The BARREL mission, a NASA Living with a Star project, launched balloons from Antarctica and Sweden between 2013 and 2016. Data are provided with nominal conversions applied but are not gain-corrected or despun.
Daily gridded estimates of ecosystem Gross Primary Production (GPP) are provided at a 1 km² resolution across Alaska and Canada from 2000-01-01 to 2018-01-01. The dataset was produced by ORNL_CLOUD using a light-curve model fitted to Ameriflux tower data and upscaled with MODIS MAIAC satellite reflectance. This framework supports large-scale analysis of phenology and ecosystem sensitivity to climate change.
Antarctic and Arctic stratospheric balloon campaigns from 2013 to 2016 collected this dataset. It contains 4-second interval geographic and magnetic coordinates from over 50 balloon flights, derived from onboard GPS and the IRBEM library. The data was produced by NASA's BARREL mission to study relativistic electron precipitation from Earth's radiation belts.
Comprising micro-meteorology and soil data from the Warra Flux Site in Tasmania, Australia, collected from 2013 to late 2016. Measurements include CO2, H2O, and energy fluxes, as well as temperature, humidity, wind, rainfall, soil moisture, and soil heat flux. The data were gathered using eddy covariance techniques from an 80-meter tower in a tall, mixed-aged Eucalyptus obliqua forest.
Over 50 stratospheric balloon flights were launched across four campaigns from 2013 to 2016. The BARREL mission, a NASA Living with a Star investigation, measured electron precipitation from Earth's radiation belts using X-ray spectrometers and magnetometers. This dataset provides housekeeping voltage, temperature, current, and payload status values recorded every 40 seconds.
Over 50 stratospheric balloons were launched across four campaigns to study electron losses from Earth's radiation belts. This dataset provides tri-axial fluxgate magnetometer measurements at 0.25-second resolution, collected by NASA's BARREL mission from Antarctica and Sweden between 2013 and 2016. The data, which are not gain-corrected or despun, were used to characterize the spatial scale of relativistic electron precipitation.
BARREL 2X housekeeping data includes voltage, temperature, current, and payload status values recorded every 40 seconds. The dataset was produced by NASA's BARREL mission, which launched over 50 stratospheric balloons from Antarctica and Sweden between 2013 and 2016 to study electron precipitation from Earth's radiation belts. The data provides instrument status monitoring for an array of balloons carrying X-ray spectrometers and magnetometers at altitudes near 30 km.
Over 50 stratospheric balloon flights were conducted across four campaigns from 2013 to 2016. The dataset contains housekeeping voltage, temperature, current, and payload status values recorded every 40 seconds by the BARREL mission, a NASA Living with a Star investigation designed to study electron losses from Earth's radiation belts. Data was collected from balloon launches in Antarctica (2013-2014) and Sweden (2015-2016) at altitudes around 30 km.
MODIS Derived Sea Surface Temperature dataset: Seasonal Means provides long-term seasonal averages of sea surface temperature (SST) for ocean surface waters. The data is derived from MODIS (Aqua) satellite imagery processed with NASA's SeaDAS software, covering the period from July 2002 to December 2017. This research was supported by the National Environmental Science Program (NESP) Marine Biodiversity Hub.
Over 50 stratospheric balloon flights collected 4-second ephemeris data during campaigns from 2013 to 2016. The dataset provides geographic and magnetic coordinates to study electron precipitation from Earth's radiation belts, coordinated with the Van Allen Probes mission. It was created by NASA as part of the Living with a Star program.
The BARREL mission conducted balloon campaigns in 2013, 2014, 2015, and 2016 from Antarctica and Sweden. Over 50 stratospheric balloons carried tri-axial fluxgate magnetometers, providing 0.25-second resolution magnetic field data to study electron precipitation from Earth's radiation belts. The data was collected by NASA as part of the Living with a Star program to augment the Van Allen Probes mission.
Over 50 stratospheric balloon flights collected 4-second interval GPS ephemeris and derived magnetic coordinates during campaigns from 2013 to 2016. The BARREL mission, a NASA Living with a Star project, measured electron precipitation from Earth's radiation belts using X-ray spectrometers and magnetometers. Observations were conducted from Antarctic and Swedish launch sites to coordinate with the Van Allen Probes mission.
Over 50 stratospheric balloon flights collected tri-axial magnetometer data during campaigns from 2013 to 2016. The BARREL mission, a NASA Living with a Star project, measured magnetic field variations to study electron precipitation from Earth's radiation belts. Observations were conducted from stations in Antarctica and Sweden at altitudes around 30 km.
Tri-axial DC magnetometer data from the BARREL balloon mission, designed to study electron losses from Earth's radiation belts. The dataset includes over 50 stratospheric balloon flights launched from Antarctica and Sweden between 2013 and 2016. Data are provided at 0.25-second resolution with nominal conversions applied but are not gain-corrected or despun.
Over 50 stratospheric balloons launched from Antarctica and Sweden between 2013 and 2016 collected 4-second GPS and derived magnetic coordinates. The BARREL mission, a NASA Living with a Star project, provided the first balloon measurements of relativistic electron precipitation to complement the Van Allen Probes. Data was used to characterize the spatial scale of electron precipitation from Earth's radiation belts.
Tri-axial fluxgate magnetometer data from the BARREL balloon mission, providing magnetic field measurements at a 0.25-second resolution. The data were collected from over 50 stratospheric balloons launched during campaigns in Antarctica (2013-2014) and Sweden (2015-2016) at altitudes of about 30 km. The mission was a NASA Living with a Star project designed to study electron precipitation from Earth's radiation belts.
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.