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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
27,073 datasets
Global spatially gridded skin sea surface temperature (SST) data from NASA's MODIS instrument on the Terra satellite. The dataset includes annual, monthly, weekly, and daily averages at 9.26 km resolution, derived from nighttime thermal infrared and mid-infrared channels. The data is produced by the NASA Ocean Biology Processing Group, with algorithm development led by researchers at the Rosenstiel School of Marine and Atmospheric Science.
Global spatially gridded skin sea surface temperature (SST) data from NASA's MODIS instrument on the Terra satellite. The dataset includes monthly averages at a 4.63 km resolution, with a specific nighttime product (SST4) derived from mid-infrared channels for lower uncertainty. It is produced by the NASA Ocean Biology Processing Group and supersedes the previous v2014.1 version.
Global skin sea surface temperature (SST) data from NASA's MODIS instrument on the Terra satellite. The dataset includes daytime and nighttime observations at 9.26 km spatial resolution, processed into 8-day, monthly, and annual averages using a modified nonlinear SST algorithm. NASA's Ocean Biology Processing Group generates the data, with algorithm development led by researchers at the Rosenstiel School of Marine and Atmospheric Science.
NASA's Terra satellite, launched December 18, 1999, provides global sea surface temperature (SST) data from its MODIS instrument. The dataset includes 8-day averaged nighttime SST products at a 9.26 km spatial resolution, derived from both long-wave and unique mid-infrared channels. It is processed by the NASA Ocean Biology Processing Group and distributed as part of the Physical Oceanography Data Archive.
Daily, weekly, monthly, and annual global sea surface temperature (SST) data from NASA's Terra satellite, launched December 18, 1999. The dataset provides skin SST and a lower-uncertainty nighttime SST4 product at 4.63 and 9.26 km spatial resolution, processed by the NASA Ocean Biology Processing Group. The data is binned into an integerized sinusoidal area grid and mapped into an equidistant cylindrical projection.
NASA's Terra satellite, launched December 18, 1999, provides global skin sea surface temperature (SST) data from its Moderate-resolution Imaging Spectroradiometer (MODIS). The dataset includes annual, monthly, weekly, and daily averages at 9.26 km and 4.63 km spatial resolution, derived from 36 spectral bands. The R2019.0 version supersedes previous releases and is processed by the NASA Ocean Biology Processing Group.
NASA MODIS Terra satellite data provides global skin sea surface temperature (SST) products. The dataset includes monthly nighttime averages at a 9.26 km spatial resolution, derived from thermal infrared and mid-infrared channels. The data is processed by the NASA Ocean Biology Processing Group and version R2019 supersedes previous releases.
NASA MODIS Terra satellite data provides global skin sea surface temperature (SST) measurements. The dataset includes daytime monthly averages at a 9.26 km spatial resolution, derived from thermal infrared channels using a modified nonlinear SST algorithm. The data is processed by the NASA Ocean Biology Processing Group and distributed by the Physical Oceanography Data Archive (PO.DAAC) as version R2019.0.
A one-dimensional hydraulic model simulates steady-state flows in the Cuyahoga River, Ohio, for three spring discharge percentiles (25th, 50th, 75th). The model was developed using HEC-RAS 6.3.1 software and calibrated using data from four USGS gaging stations over an 11 to 34 year period. It assesses the availability of spawning and age-0 habitat for Lake Sturgeon (Acipenser fulvescens).
A collection of flood water surface profiles for the North Esk and Tamar rivers in Tasmania, Australia, derived from hydrological studies. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) flood events, with discharges calibrated to historical floods from 2005 and 2011. The data is intended for planning purposes and incorporates sea level rise scenarios.
Flood water surface profiles for the North Esk and Tamar rivers in Tasmania, Australia. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) flood events, with discharges derived from hydrological studies by the University of New South Wales Water Research Laboratory and Hydro Consulting. The data is intended for planning purposes and includes scenarios with current and projected sea level rise.
84 years of monthly and yearly water balance projections from 2016 to 2099 for parts of Afghanistan, Tajikistan, Kyrgyzstan, and Pakistan. The University of New Hampshire Water Balance Model generated these projections using 12 CMIP6 global climate models under two socioeconomic scenarios. A historical model run from 1980 to 2018 is also included.
2,070 unique directed migration corridors connect 46 African countries in projections from 2015 to 2050. The data models future migration flows under combinations of socioeconomic and climate scenarios. The Africa Climate Mobility Initiative, a joint effort of the Global Centre for Climate Mobility, African Union Commission, UN, and World Bank, produced this dataset to underpin the African Shifts Report.
Landslide hazard indicator projections for the High Mountain Asia region from 2015 through 2100. Data is generated at a 5 km daily resolution for two Shared Socioeconomic Pathways (SSP2-4.5 and SSP5-8.5) using a machine learning model. The dataset is produced by NSIDC_CPRD and includes historical model outputs from 1990 to 2019.
Projections model internal migration flows across Africa at 5-year intervals from 2020 to 2050. The data is aggregated to a 7.5 arc-minute grid resolution, covering the entire continent. This work was produced by the Africa Climate Mobility Initiative, a joint effort of the Global Centre for Climate Mobility, African Union Commission, UN, and World Bank, and underpins the African Shifts Report.
Three climate simulations provide daily precipitation estimates over the Himalayan region. The dataset includes two 30-member ensemble simulations spanning 40-year periods (1961-2000 and 2061 -2100) and a present-day simulation nudged to reanalysis winds from 1982 to 2017. These simulations were produced by NOAA's Geophysical Fluid Dynamics Laboratory using the GFDL FLOR model.
Over 50 stratospheric balloons were launched across four campaigns from 2013 to 2016 in Antarctica and Sweden. The dataset provides geographic and magnetic coordinates, including balloon epoch time, latitude, longitude, and altitude, recorded every 4 seconds by the NASA BARREL mission. This mission was designed to study electron losses from Earth's Radiation Belts in coordination with the Van Allen Probes.
BARREL 1M provides tri-axial fluxgate magnetometer data from NASA's BARREL mission, which launched over 50 stratospheric balloons between 2013 and 2016. The Level 2 data includes three-axis DC magnetic field measurements at 0.25-second resolution, without gain correction or despinning. Observations were collected near the Antarctic and Arctic circles at altitudes of about 30 km to study electron precipitation from Earth's radiation belts.
The Murray-Darling Basin in Australia is the focus of this report series. The NSW Department of Climate Change, Energy, the Environment and Water compiles these reports every five years to monitor progress towards water quality targets. Reporting commenced in 2020, with the next report scheduled for 2026.
Four campaigns from 2013 to 2016 collected ephemeris data from over 50 stratospheric balloons launched from Antarctica and Sweden. The dataset includes geographic and magnetic coordinates recorded every 4 seconds, derived from onboard GPS and the IRBEM library. It was produced by NASA's BARREL mission to study electron precipitation from Earth's radiation belts.