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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
25,133 datasets
Multi-sensor sea surface temperature skin (SSTskin) data composited from VIIRS and AVHRR satellite sensors over one month of consecutive daytime periods. The product is a 0.02-degree resolution cylindrical equidistant projected map covering the region 70E to 170W, 20N to 70S. It is provided by the Australian Ocean Data Network and referenced on the IMOS SST products web page.
Global daily data at a 0.05-degree (approximately 5,600-meter) resolution provides weighting parameters for the RossThick/Li-Sparse-Reciprocal BRDF model across 13 spectral bands. The dataset includes 39 layers, containing three model parameters (fiso, fvol, fgeo) per band plus ancillary layers for uncertainty, quality, local solar noon, percent finer resolution inputs, and snow cover. It is derived from a 16-day moving window of reflectance data and is intended for use in climate simulation models.
Suomi NPP VIIRS satellite data provides 39 geospatial layers of BRDF model parameters (fiso, fvol, fgeo) for 13 spectral bands, including a Day/Night band. This daily, 0.05-degree climate modeling grid product is generated from a 16-day moving window of reflectance data to characterize surface anisotropy. Its parameters are foundational for deriving global albedo and nadir-adjusted reflectance products used in climate simulations.
Sounder SIPS provides Level 3 daily gridded data from the CLIMCAPS algorithm, which analyzes infrared and microwave measurements from the AIRS and AMSU instruments aboard the EOS Aqua satellite. The dataset includes retrieved profiles of temperature, water vapor, ozone, carbon monoxide, methane, and cloud properties, with a horizontal resolution of 50 km. Temperature profiles are reported at 100 vertical levels between 1100 mb and 0.1 mb.
Australia's Integrated Marine Observing System provides sea surface temperature maps composited from VIIRS and AVHRR satellite sensors. The data is a 6-day average of daytime observations, gridded at 0.02-degree resolution over the region from 70E to 170W and 20N to 70S. Each pixel's quality is remapped using Sensor Specific Error Statistics before compositing.
A compilation of technical reports documents field investigations at seven permafrost case study sites in the greater Whitehorse area. The reports were produced by the Yukon University Research Centre for the Yukon Geological Survey, with funding from Crown-Indigenous Relations and Northern Affairs Canada. The work includes results from geophysical surveys, drilling, and laboratory analysis.
130-year daily replicates of rainfall and potential evapotranspiration generated using observed and palaeo climate data. The dataset includes 10,000 stochastic replicates and was created by researchers at the University of Newcastle for the Greater Sydney Water Strategy. It was last updated on May 13, 2026, by the NSW Department of Climate Change, Energy, the Environment and Water.
One month of consecutive night-time periods provides sea surface temperature (SSTskin) data derived from VIIRS and AVHRR sensors on multiple satellite platforms. The Australian Ocean Data Network offers this product as a 0.02-degree resolution grid covering 70E to 170W, 20N to 70S. Each grid cell contains the one-month average of the highest quality SSTs weighted by overlap area.
Australia's Integrated Marine Observing System provides a multi-sensor sea surface temperature product composited over three consecutive night-time periods. The data is derived from VIIRS and AVHRR sensors on NOAA, Metop, Suomi-NPP, and JPSS satellites, remapped using Sensor Specific Error Statistics. It is presented as a 0.02-degree resolution grid covering the region from 70E to 170W and 20N to 70S.
Australia's Integrated Marine Observing System provides a nightly composite sea surface temperature map derived from multiple satellite sensors. The product covers a region from 70E to 170W and 20N to 70S, gridded at a 0.02-degree resolution. It is produced by compositing the highest-quality data from AHI, VIIRS, and AVHRR sensors, with quality levels remapped using Sensor Specific Error Statistics.
ACTGOV FLOOD HAZARD MODEL is a geospatial dataset from the ACT Government Geospatial Data Catalogue (ACTmapi). It represents the most comprehensive review of Canberraβs catchments and their associated flood risk to date, modeling a 1% Annual Exceedance Probability (AEP) flood event. The data is provided via ARCGIS GEOSERVICES REST API and HTML formats and was last updated on 2026-04-04.
A flood depth model for Canberra's catchments represents the most comprehensive review of flood risk in the Australian Capital Territory to date. It was compiled by the ACT Government using the best available modelling resources and is provided via an ArcGIS REST API. The model focuses on a 1% Annual Exceedance Probability (AEP) flood event.
10,000 replicates of 130-year daily rainfall and potential evapotranspiration data for eight SILO stations in Greater Sydney. This stochastic climate data was generated by University of Newcastle researchers using observed data and used for the Greater Sydney Water Strategy. The dataset is provided by the NSW Department of Climate Change, Energy, the Environment and Water.
Peru is covered by a high-resolution gridded rainfall dataset. The PISCOp version 3.0 framework applies quality control, gap filling, and spatial interpolation using predictors like radar-gauge merged precipitation climatologies. It was developed by Leonardo Gutierrez and last updated on 2026-05-27.
Wilkes Land margin multichannel seismic data reveals four distinct depositional units linked to the Cenozoic evolution of the East Antarctic Ice Sheet. The data, published by Geoscience Australia Data, describes phases from Cretaceous synrift to polar glacial regimes with varying sediment inputs. The record was last updated on 2026-05-14.
Greater Sydney stochastic climate data includes 10,000 replicates of 130-year daily rainfall and potential evapotranspiration datasets. The data was generated using observed data, both with and without combined palaeo climate data. This work was undertaken by researchers at the University of Newcastle for the Greater Sydney Water Strategy.
Methane oxidation rates and fluxes in cold seep sediments are constrained by modeling pore-water sulfate profiles. The dataset, from Geoscience Australia Data, includes pore-water and solid-phase measurements from the Kazan Mud Volcano in the Eastern Mediterranean Sea, with a last update recorded in 2026. Model results indicate a narrow depth interval of 14-18 cm for anaerobic oxidation of methane, with microbial biomass representing about 20% of the total organic carbon.
Australia's coastal and surrounding ocean waters from 70E to 170W and 20N to 70S are covered by this sea surface temperature (SST) dataset. It is a multi-sensor L3S product from the Australian Ocean Data Network, providing three-day daytime averages derived from VIIRS and AVHRR sensors on polar-orbiting satellites. The data is presented on a 0.02-degree grid, with quality levels remapped using Sensor Specific Error Statistics.
Geoscience Australia's 2025 drilling project reached a total depth of 3,023 meters in the GA Enniskillen 1 borehole, collecting 976 meters of continuous core. This dataset integrates deep drilling, new seismic imaging, and airborne geophysics to refine models of the Adavale Basin's geology. Initial findings challenge conventional models by revealing salt deposits localized near faulted margins rather than basin depocentres.
The Marine Science voyage (VMS) collected underwater still images from 93 sites on the George V shelf in East Antarctica between 4 January and 6 February 2011. The Australian Antarctic Division (AAD) marine science support team operated the camera, which was attached to CTD or beam trawl frames and positioned 4-5 meters from the seafloor. Images were stamped with UTC time and stations were named according to a specific deployment naming convention.