Loading...
Loading...
Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
25,255 datasets
Approximately one million measurements from 1956-1959 onward form the basis for this climatological data. It contains gridded estimates of net ocean-air CO2 flux, sea-air pCO2 difference, and continental atmospheric CO2 consumption by rock weathering. The data is corrected to a 1995 reference year and is provided under a CC-BY-4.0 license.
Daily and hourly gap-free sea surface temperature maps are provided from multiple satellite sensors. The data includes products from the NOAA ACSPO system using the G18/ABI and H09/AHI satellites, and CNR MED L4 products for the Black Sea, with spatial resolutions ranging from 2km to 0.01 degrees. Data is produced in near-real-time with hourly updates and is available under a CC-BY-4.0 license.
Version 1.0 data from the CYGNSS mission launched on 15 December 2016 provides daily gridded maps of ocean microplastic concentration and calibrated satellite measurements. The dataset is produced by the CYGNSS Science Team of the University of Michigan and includes 18 netCDF files with one month of data each. It offers high spatiotemporal resolution for monitoring ocean surface conditions.
AIRS is a grating spectrometer aboard the EOS Aqua satellite, launched on May 4, 2002. The AIRS Infrared Level 1B dataset contains calibrated and geolocated radiances for 2378 infrared channels in the 3.74 to 15.4 micron spectrum region. Data is organized into 6-minute granules, with 30 footprints cross track by 45 lines along track.
GeoDetector analysis reveals that the start of season for Chinese grasslands delays markedly at elevations exceeding 4 kilometers and slopes greater than 25 degrees. This dataset likely contains spatiotemporal data on grassland phenology metrics like start of season and end of season, correlated with seasonal climate factors and topography across China. It was created by Zhiyuan Gong and covers the period from 2001 to 2019.
1901-2099 estimates for export and leaching of dissolved inorganic carbon (DIC), dissolved organic carbon (DOC), total organic carbon (TOC), particulate organic carbon (POC), ammonium (NH4+), nitrate (NO3-), and total organic nitrogen (TON) from the Mississippi River Basin to the Gulf of Mexico. Data is generated by the Dynamic Land Ecosystem Model 2.0 (DLEM 2.0), covering a historical period and future projections under high and low socio-economic scenarios.
Results from version 2.0 of the 1km-resolution shelf-scale hydrodynamic model of the Great Barrier Reef (GBR1). The model ran in near-real-time mode, updating daily, until January 2024 when sensor damage during the monsoon season halted operations. It is nested within a 4km-resolution model and incorporates atmospheric and river-flow data from Australian agencies.
NASA's SMAP mission provides three specialized Level-4 soil moisture products derived from assimilating L-band satellite brightness temperature data into a land surface model. The primary geophysical data product offers 3-hourly global surface and root zone soil moisture estimates on a 9 km EASE-Grid 2.0 projection. Additional products include analysis update diagnostics for the data assimilation process and a static file of land model constants required for interpreting the geophysical fields.
Beryllium isotope measurements from sediment samples collected in Prydz Bay, one of Antarctica's largest ice drainage systems. The dataset, published in Earth and Planetary Science Letters in 2019, includes samples from open marine, sub-ice shelf, and subglacial depositional environments. It demonstrates that 10Be concentrations reflect sub-ice shelf circulation patterns, while HCl-extractable 10Be/9Be ratios can discriminate between open marine and sub-ice shelf settings.
AirMOSS project data provides high-frequency airborne measurements of carbon dioxide and water vapor fluxes from 26 flights over Duke, Harvard, and Howland Forest sites. The dataset, produced by NASA and Purdue University, includes estimates of surface CO2 flux, sensible and latent heat fluxes, their uncertainties, and wind data. Measurements were collected during summer campaigns from 2012 to 2014.
58 Australian Marine Parks have their sea surface temperature warming rates measured over 15 years. The dataset provides annual and monthly warming rates derived from MODIS satellite imagery. This research is supported by the National Environmental Science Program Marine Biodiversity Hub.
IMOS - AusCPR: Phytoplankton Colour Index (PCI) data measures plankton communities as a guide to ocean health around Australia. The dataset supports mapping plankton biodiversity, developing a long-term baseline, and documenting changes in response to climate change. It is a joint project of CSIRO Marine and Atmospheric Research and the Australian Antarctic Division, funded by the Integrated Marine Observing System.
High-resolution aeromagnetic and gravity survey data predicts at least ∼1,100 km³ of Central Atlantic Magmatic Province basalt in offshore New York Bight and Long Island basins. The dataset, authored by Jack N. Turney and last updated in May 2026, provides new constraints on basin structure and volcanic distribution along the eastern U.S. coastline. This analysis suggests offshore volcanic activity may have occurred during and after the main rifting phase, differing from previous models.
Australian Ocean Data Network provides an educational dataset illustrating sonar techniques for mapping the ocean floor. The data supports activities for processing and plotting to discover seafloor features like submarine canyons, seamounts, and shipwrecks. It was last updated on 2026-06-04.
Projections for 2021–2100 model the climatic suitability of 44 forest species and 49 genetic groups across Spain under four climate scenarios. The dataset, created by Eulogio Chacón-Moreno and last updated in April 2026, integrates species distribution models with genetic-group level analysis and uncertainty quantification. It provides spatially explicit results at a 1 km² resolution based on downscaled CMIP6 climate model data.
93 forest taxa, including 44 species and 49 genetic groups, were modeled for future climatic suitability across the Iberian Peninsula. The dataset was created by Eulogio Chacón-Moreno and last updated in April 2026, integrating projections from 10 CMIP6 climate models under four socioeconomic pathways and three future time horizons. It provides spatially explicit suitability and uncertainty metrics at a 1 km² resolution to inform climate-resilient forest planning.
44 forest species and 49 genetic groups were modeled for future climatic suitability across Spain using an ensemble of 10 CMIP6 Earth System Models under four Shared Socioeconomic Pathways. The framework, developed by Eulogio Chacón-Moreno, integrates species-level responses, genetic differentiation, and explicit uncertainty analysis at a 1 km² resolution. Projections cover three future time horizons (2021–2050, 2041–2070, 2071–2100) and were last updated in April 2026.
Eulogio Chacón-Moreno's dataset provides climate suitability projections for forest planning in Spain. It includes models for 44 forest species, 12 of which are analyzed at the genetic-group level, resulting in 93 total taxa. The data, last updated in 2026, uses downscaled climate projections from 10 CMIP6 models across four emission scenarios and three future time horizons.
93 forest taxa, including 44 species and 49 genetic groups, were modeled for future climatic suitability across Spain. An ensemble of species distribution models was calibrated using downscaled climate data from 10 CMIP6 Earth System Models under four socioeconomic pathways and three future time horizons. The framework, developed by Eulogio Chacón-Moreno, provides spatially explicit projections with quantified uncertainty for climate-resilient forest planning.
A 37.6 KB dataset containing results from a controlled laboratory experiment investigating the effects of temperature and light on primary production in the non-native alga Vaucheria sp. in the European Wadden Sea. The data, authored by Ronny Steinberg and last updated in May 2026, includes measurements of oxygen concentration as a proxy for primary production across temperature gradients from 16°C to 36°C and light intensities from 100 to 900 µmol photons m⁻² s⁻¹.