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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
25,045 datasets
NASA/NOAA's Suomi NPP satellite provides daily global BRDF isotropic parameter data for VIIRS band M5 (0.672 μm) at a 30 arc-second (1,000 meter) resolution. This product is part of a suite designed for climate simulation models, using 16 days of temporally weighted data to generate a single parameter layer per file. The isotropic parameter, along with volumetric and geometric counterparts, is essential for deriving accurate land surface reflectance and albedo values.
NASA/NOAA Suomi NPP VIIRS data provides Nadir BRDF-Adjusted Reflectance (NBAR) for the 0.865 μm band (M7), modeled as if collected from a nadir view at local solar noon. This daily product uses a 16-day temporal composite at 1,000-meter resolution on a global Climate Modeling Grid. NBAR values are designed for climate simulation models by removing view angle effects from directional reflectances.
NASA/NOAA Suomi NPP's VNP43D17 product provides the volumetric parameter for the Bidirectional Reflectance Distribution Function (BRDF) model for VIIRS band M7 (0.865 μm). This daily, global dataset is generated at 30 arc-second (1,000 meter) resolution using a 16-day temporal composite weighted to the ninth day. It is part of a suite designed for climate simulation models, covering the entire globe on a Climate Modeling Grid.
VNP43D23 is a daily global geospatial dataset providing the volumetric parameter for the Bidirectional Reflectance Distribution Function (BRDF) and Albedo model for VIIRS band M10 (1.61 μm). It is produced using 16 days of data at a 30 arc-second (1,000 meter) resolution, temporally weighted to the ninth day, and formatted for a Climate Modeling Grid (CMG). This parameter, along with isotropic and geometric parameters, is used to derive surface reflectance and albedo values for climate simulation models.
Global daily data provides the volumetric parameter for the Bidirectional Reflectance Distribution Function (BRDF) model for the VIIRS visible broadband (0.64 μm). This parameter, combined with isotropic and geometric parameters, is used to derive BRDF and albedo values for land surfaces. The dataset is produced daily using a 16-day temporal composite at a 30 arc-second (approximately 1,000 meter) resolution.
NASA/NOAA Suomi NPP VIIRS VNP43D15 is a daily, global satellite-derived dataset providing the Bidirectional Reflectance Distribution Function (BRDF) geometric model parameter for band M5 (0.672 μm). It is produced using 16 days of data at a 30 arc-second (1,000 meter) resolution, temporally weighted to the ninth day, and formatted in a Climate Modeling Grid (CMG) for climate simulations. This single-layer product is part of a larger suite of BRDF/albedo parameters and is used alongside isotropic and volumetric parameters to derive surface reflectance and albedo values.
VNP43D24 provides the Bidirectional Reflectance Distribution Function geometric parameter for VIIRS band M10 (1.61 μm) at 30 arc second (1,000 meter) resolution. This daily product synthesizes 16 days of data, temporally weighted to the ninth day, and is part of a global Climate Modeling Grid suite used for climate simulation. The geometric parameter, along with isotropic and volumetric parameters, is used to derive BRDF and albedo values for the specific spectral band.
NASA/NOAA's Suomi NPP VIIRS VNP43D03 product provides the Bidirectional Reflectance Distribution Function (BRDF) geometric parameter for band M1 (0.412 μm). It is produced daily using a 16-day temporal composite at a 30 arc-second (1,000 meter) resolution on a global Climate Modeling Grid (CMG). The geometric parameter, along with isotropic and volumetric parameters, is used to derive BRDF and albedo values for this specific spectral band.
Daily global data provides the Bidirectional Reflectance Distribution Function (BRDF) geometric parameter for the VIIRS satellite's M4 band (0.555 μm), using a 16-day rolling window weighted to the ninth day. This single-layer product is part of a suite of model parameters designed for climate simulation models, delivered on a 30 arc-second (1,000 meter) Climate Modeling Grid (CMG). The geometric parameter, alongside isotropic and volumetric parameters, is used to derive BRDF and albedo values for the green visible wavelength.
Global coverage is provided by this daily product at 30 arc-second (1,000 meter) resolution. It contains the Bidirectional Reflectance Distribution Function geometric parameter for the VIIRS band M3 (0.488 μm), produced using 16 days of data weighted to the ninth day. This single-layer data is part of a suite designed for climate simulation models.
Global daily data provides the Bidirectional Reflectance Distribution Function (BRDF) geometric parameter for the VIIRS satellite's M7 band (0.865 μm) at 30 arc-second (1,000 meter) resolution. This parameter, produced using a 16-day rolling window and temporally weighted to the ninth day, is part of a suite used to derive surface albedo and reflectance. It is formatted in a Climate Modeling Grid (CMG) for use in global climate simulation models.
Duhok Dam Lake in northern Iraq was sampled six times over nine months in 2021. Majd Muwafaq Yaqoob collected 36 samples from six stations across four seasons to analyze phytoplankton communities and physicochemical variables. The data assesses water quality and the use of phytoplankton as bioindicators of environmental stress.
Field monitoring and numerical simulation data from a study on the effect of a retaining wall on soil conditions in an open-pit coal mine spoil dump. The dataset includes measurements of soil moisture and temperature on windward and leeward sides of the wall, with results indicating improved water retention and temperature regulation. The dataset was authored by Akang Lu and last updated on 2026-05-20.
Daily global satellite observations of total and tropospheric nitrogen dioxide (NO2) columns are provided at a 0.25x0.25 degree grid resolution. The data is derived from the Ozone Monitoring Instrument (OMI) on NASA's Aura satellite, storing pixel-level data binned into daily grids without averaging. It serves as an indicator for atmospheric chemistry research and monitoring of air pollution sources like combustion and lightning.
OMI/Aura Level 1B UV Global Geolocated Earthshine Radiances (OML1BRUG) Version-3 contains geo-located Earth view spectral radiances from the Ozone Monitoring Instrument's ultraviolet detectors. Data is collected in a global measurement mode, with each file covering the sunlit portion of an orbit (~53 minutes) and containing radiance measurements across 716 spectral channels from 264 to 383 nm. The dataset is stored in HDF-EOS format, with radiance values encoded as a 16-bit mantissa and an 8-bit exponent.
NASA's SCAR-B experiment collected meteorological data, reanalysis data, remote sensing images, and atmospheric composition measurements during 1995 biomass burning events. The dataset, originally published on three CD-ROMs, integrates processed and quality-controlled observations from Brazil's cerrado and Amazon rainforest. Its cross-platform presence on Data.gov and NASA EarthData indicates its established role in atmospheric science research.
1993-2001 daily mean rain rates at 0.1-degree resolution over southern Africa, derived from a fusion of passive microwave and infrared satellite data. The Microwave InfraRed Algorithm (MIRA) combines observations from DMSP and Meteosat satellites to produce calibrated rainfall imagery. This dataset was produced by NASA and consists of annual compressed binary files containing daily image arrays.
Wandoo Woodland in Australia hosts this flux station measuring energy and mass exchange between the surface and atmosphere using eddy covariance techniques. Data were processed with PyFluxPro (v3.4.23) to produce gap-filled Net Ecosystem Exchange partitioned into Gross Primary Productivity and Ecosystem Respiration. The station was established in 2017 by the Terrestrial Ecosystem Research Network's Data Discovery and last updated in May 2026.
Flux tower measurements from 2015 to 2018, with updates in 2018, for the Robson Creek site in Far North Queensland. The data, processed with PyFluxPro (v3.4.23), provide gap-filled estimates of Net Ecosystem Exchange (NEE), Gross Primary Productivity (GPP), and Ecosystem Respiration (ER). The dataset is released by the Terrestrial Ecosystem Research Network's Data Discovery platform.
Flux tower measurements processed with PyFluxPro (v3.4.23) provide gap-filled data on energy and mass exchange between the surface and atmosphere. The dataset includes partitioned Net Ecosystem Exchange (NEE) into Gross Primary Productivity (GPP) and Ecosystem Respiration (ER). Data originates from a site at approximately 330 m elevation within a pasture-dominated, broadacre farming region in Australia.