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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
25,040 datasets
VNP43D13 provides the Bidirectional Reflectance Distribution Function isotropic parameter for the VIIRS band M5 at a 0.672 μm wavelength. This daily, global product is generated at a 30 arc-second (1,000 meter) resolution using a 16-day data window, weighted to the ninth day, and formatted for Climate Modeling Grids. The isotropic parameter is one of three model parameters used to derive land surface albedo and anisotropy values for climate simulation models.
Global daily Nadir BRDF-Adjusted Reflectance (NBAR) data at a 1,000-meter resolution, processed for the VIIRS M8 band (1.240 μm). This dataset is part of a climate modeling grid product suite, generated daily using a 16-day temporal composite weighted to the ninth day. It is designed for modeling surface radiative properties but has been decommissioned in favor of a newer version.
VNP43D26 provides the volumetric parameter for the Bidirectional Reflectance Distribution Function (BRDF) model for VIIRS band M11 (2.25 μm) at a 30 arc second (1,000 meter) resolution. This daily product synthesizes 16 days of observations from the Suomi NPP satellite into a temporally weighted value for the ninth day, formatted for global Climate Modeling Grids. The volumetric parameter, alongside isotropic and geometric parameters, is used to derive surface albedo and reflectance anisotropy values for climate and land surface studies.
NASA/NOAA's VNP43D16 Version 1 provided the Bidirectional Reflectance Distribution Function (BRDF) isotropic model parameter for the Suomi NPP VIIRS satellite's band M7 (0.865 μm). This daily, global product was generated at a 30 arc-second (1,000 meter) Climate Modeling Grid resolution, using a 16-day data window weighted to the ninth day. The parameter was used in conjunction with volumetric and geometric parameters to derive surface BRDF and albedo values, but the product was decommissioned on July 31, 2025.
VNP43D25 provides the Bidirectional Reflectance Distribution Function (BRDF) isotropic parameter for the VIIRS band M11 at a 2.25 μm wavelength. This daily, global product is generated at a 30 arc-second (1,000 meter) resolution on a Climate Modeling Grid, using a 16-day data window weighted to the ninth day. The isotropic parameter is one of three model parameters used to derive surface albedo and reflectance anisotropy for climate and land surface studies.
VNP43D20 Version 1 is a decommissioned satellite data product providing the volumetric parameter for the Bidirectional Reflectance Distribution Function (BRDF) and Albedo model for VIIRS band M8 (1.240 μm). It is produced daily using a 16-day temporal window at a 30 arc-second (1,000 meter) resolution on a global Climate Modeling Grid. The volumetric parameter, along with isotropic and geometric parameters, is used to derive surface reflectance and albedo values.
VNP43D05 is a decommissioned NASA/NOAA satellite data product providing the volumetric parameter for Bidirectional Reflectance Distribution Function (BRDF) and albedo modeling for VIIRS band M2 (0.445 μm). It is produced daily using a 16-day rolling window at a 30 arc-second (1,000 meter) resolution on a global Climate Modeling Grid. The volumetric parameter, along with isotropic and geometric parameters, is used to derive surface reflectance and albedo values.
30 arc-second resolution data provides the geometric parameter for the Bidirectional Reflectance Distribution Function (BRDF) and Albedo model for VIIRS band M3 (0.488 μm). This daily product is generated using a 16-day rolling window of observations, temporally weighted to the ninth day, and is formatted on a global Climate Modeling Grid (CMG). It is part of a larger suite of 39 separate files, each containing a single model parameter for different spectral bands.
Over 30,000 km of Australia's dynamic coastline is monitored in this continental dataset. Digital Earth Australia Coastlines combines satellite data from Geoscience Australia with tidal modelling to map annual shoreline positions at mean sea level from 1988 to the present. The product enables historical and current analysis of coastal erosion and growth trends at local and continental scales.
NASA's MOD13C2 Version 6 product provides monthly global vegetation indices from the Terra satellite. The dataset contains two primary layers, the Normalized Difference Vegetation Index (NDVI) and the Enhanced Vegetation Index (EVI), projected on a 0.05-degree Climate Modeling Grid with 3,600 rows and 7,200 columns. This version was decommissioned in July 2023, with users directed to the updated Version 6.1.
NASA/NOAA's VNP43C3 Version 1 was a daily, global 0.05-degree climate modeling grid product providing white-sky and black-sky albedo derived from Suomi NPP VIIRS sensor data. It used a 16-day moving window of reflectance data and the RossThick/Li-Sparse-Reciprocal BRDF model to generate albedo for 13 spectral and broadbands, including 26 data layers with ancillary quality information. The product was decommissioned on July 31, 2025, with users directed to Version 2 data products.
CLIMCAPS algorithm retrieves full atmospheric state profiles from the AIRS instrument aboard NASA's Aqua satellite. Temperature profiles have 100 vertical levels between 1100 mb and 0.1 mb, with a horizontal resolution of 50 km aggregated to a monthly 1°x1° grid. Retrieved parameters include surface properties, temperature, water vapor, ozone, and trace gases like carbon monoxide and methane.
Global monthly gridded data provides atmospheric state profiles retrieved from the AIRS and AMSU instruments aboard NASA's Aqua satellite. The dataset includes over 100 vertical levels of temperature, water vapor, ozone, and trace gases like carbon monoxide and methane, with a horizontal resolution of 50 km. It is generated using the CLIMCAPS Optimal Estimation algorithm with comprehensive quality control to ensure consistency from the surface to 0.1 mb.
Australia's coastal waters are monitored by a network of wave buoys providing integral wave parameters. Data is aggregated from multiple organizations including the Bureau of Meteorology, state departments, and universities, contributing to the National Wave Archive. Observations are updated hourly from various sources, with data from the primary network collated into a CSV file containing the last 24 hours.
NOAA-20 VIIRS VJ143D86 provides daily Nadir BRDF-Adjusted Reflectance (NBAR) for the M8 band (1.240 μm) at a 1,000-meter resolution. This product is part of a global Climate Modeling Grid suite, using 16 days of data weighted to the ninth day to correct for view-angle effects. It supports modeling of surface radiative properties for climate science.
LBA-ECO CD-01 contains meteorological data collected around the confluence of the Tapajós and Amazon Rivers near Santarém, Brazil, in July and August 2001. Measurements from five local stations include boundary layer and upper air data from sodar, pilot balloons, and radiosondes, which recorded pressure, temperature, humidity, and wind. The dataset includes 41 comma-delimited data files, plus companion weather forecasts, 42 satellite images, and CPTEC model output files.
A 3D geological and hydrogeological model of the Great Artesian Basin and Lake Eyre Basin populated with volume of shale (Vshale) values calculated on 2,310 wells. The data package was completed as part of Geoscience Australia's National Groundwater Systems Project within the Exploring for the Future program. It provides a refined architecture of aquifer and aquitard geometry across 18 hydrogeological units.
Semi-annual monitoring data for each action in the Implementation Plan of Quebec's 2030 Green Economy Plan, collected on September 30, 2025. The Ministry of the Environment, the Fight against Climate Change, Wildlife and Parks (MELCCFP) monitors progress in objectives, expenses, and results against targets. This raw information feeds the Government of Quebec's Annual Climate Action Report and Dashboard.
Maps of modelled climate suitability for cool-region wine grapes were produced by the Department of Primary Industries and Regional Development (DPIRD). The dataset includes GeoTIFF files for overall suitability, individual phenophases, and variable combinations across eight global climate models and historical observations. Results were released as part of a broader Climate Vulnerability Assessment project for primary industries.
A collection of GeoTIFF maps from the DPIRD Climate Vulnerability Assessment project models climate suitability for warm-region wine grapes. The dataset includes maps for overall suitability, individual phenophases, and phenophase-climate variable combinations. Data is provided for eight global climate models, historical observations, and ensemble medians.