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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
26,632 datasets
Water Framework Directive (WFD) Groundwater Bodies is a polygon dataset representing major aquifers in the UK. It provides attribution for the 2019 classification cycle, including chemical and quantitative status for distinct groundwater flow units. The data is derived from verified 1:625k classified aquifer geology and is structured for reporting at the Catchment Abstraction Management Strategy (CAMS) scale.
Boreal Ecosystem-Atmosphere Study (BOREAS) sites in the Southern and Northern Study Areas (SSA and NSA) provide the geographic scope for this dataset. It contains detailed snowpack measurements from 1994 and 1996, including snow depth, density in 3-cm intervals, integrated snow water equivalent (SWE), and physical properties from snow pit evaluations. The data were collected to predict spatial distributions of snow properties relevant to hydrology, remote sensing, and gas transmissivity.
Southeast Australia's coastal ocean dynamics are analyzed using high-resolution Himawari-8 sea surface temperature (SST) data from July 2015 to September 2017. The dataset, produced by Xie et al. (2020) and hosted by the Australian Ocean Data Network, maps the spatial structure and temporal evolution of the East Australian Current (EAC) system, including its meanders, eddies, and encroachment patterns.
Landscape hazard maps for Pelly Crossing, Yukon, assess geological risks under future climate conditions. The maps integrate surficial geology, permafrost distribution, topography, and climate trend analyses to identify landslides, permafrost instability, and flooding hazards. Created by the Northern Climate ExChange, these maps use stoplight colors to support community land-use and adaptation planning.
12,000 landscape hazard maps assess geological risks under future climate conditions for the Ross River community. The Yukon Government produced these maps by integrating surficial geology, permafrost data, and climate projections. Data visualizes hazards like landslides and flooding in stoplight colors for land-use planning.
A 30-meter resolution landscape hazard map for Old Crow, Yukon, identifies geological risks like landslides and permafrost instability. The map incorporates multiple data inputs including surficial geology, topography, and future climate projections to assess hazards under changing conditions. It was produced by the Northern Climate ExChange as part of a community hazards mapping program.
Dawson, Yukon landscape hazard maps assess geological risks like landslides, permafrost stability, and flooding. The maps integrate multiple data inputs including surficial geology, topography, permafrost distribution, and future climate projections. They are designed in stoplight colors to support community land-use and adaptation planning.
Yukon's Burwash Destruction Bay area is covered by landscape hazard maps assessing geological risks under future climate conditions. The Northern Climate Exchange coordinated the project, integrating data on surficial geology, permafrost distribution, topography, and climate trends. Maps use stoplight colors to identify hazards like landslides, permafrost instability, and flooding for community planning.
The L029 Heywood experimental seismic survey was conducted by the Bureau of Mineral Resources, Geology and Geophysics in November and December 1956. The work was requested by Frome-Broken Hill Pty. Ltd. to test seismic methods for recording reflections through basalt cover in the Western District Basin of Victoria. Several short traverses tested pattern, air-shooting, and conventional single shot-hole techniques.
FRM_FH_RIVER_VELOCITY_M_CC maps were produced by SEPA to meet duties under the Flood Risk Management (Scotland) Act 2009. The maps show flood risk from rivers, depicting flood extent, depth, and velocity for high (10-year), medium (200-year), and low (1000-year & 200-year plus climate change) probability events. The climate change scenario uses UKCP09 high emissions predictions for the 2080s.
These maps show flood hazard from rivers in Scotland, produced by SEPA under the Flood Risk Management (Scotland) Act 2009. They cover three probability scenarios: high (10-year return), medium (200-year return), and low (1000-year return plus a 2080s climate change scenario). The maps likely contain flood extent, depth, and velocity data where available.
Landscape hazard maps for the community of Faro, Yukon, assess geological risks under changing future conditions. The maps integrate data on surficial geology, topography, permafrost distribution, and climate trends to identify hazards like landslides and flooding. They are designed as an intuitive tool for community land-use and adaptation planning.
Landscape hazard maps assess geological risks like landslides and permafrost stability under future climate conditions for Yukon communities. The analysis incorporates surficial geology, topography, permafrost data, and climate projections. Maps use stoplight colors to provide an intuitive tool for land use and adaptation planning.
A pre-cruise report outlines the scientific aims and methods for the AGSO/Antarctic Co-operative Research Centre/ANARE marine geoscience program conducted in February-April 1995. The program targeted Prydz Bay, the MacRobertson Shelf, and the Kerguelen Plateau to study modern sedimentary processes and Plio-Pleistocene environmental history. The research aimed to provide statements of Antarctic and Southern Ocean palaeoenvironments over intervals from 0-10,000 years to 0-5,000,000 years.
The 1994/95 AGSO Cruise 149 (BANGSS) collected marine geoscience data from Prydz Bay, Mac.Robertson Shelf, and the Kerguelen Plateau. The Australian Ocean Data Network hosts a summary report of preliminary results aimed at understanding sedimentary processes and Quaternary climate change. The cruise targeted trough-mouth fan deposits, shelf-basin sediment traps, and plateau sediments to reconstruct environmental history.
Scotland's river temperature model outputs predicting daily maximum river temperatures for specific hot periods and sensitivity to climate change. The data includes predictions for the hottest day in 2015-16, the hottest year (2003), and the temperature change per 1°C air warming, plus a derived management priority layer. The research was conducted by the Scottish Government using data from the UK Centre for Ecology and Hydrology.
West Australian Petroleum Pty Limited conducted a reconnaissance marine reflection seismic survey in Exmouth Gulf and coastal waters from Frazer Island to Bernier Island in 1961. The survey was a two-boat operation using Lorac radio navigation and sextant positioning, with results processed into magnetic tape record sections. The dataset includes constructed maps of horizons within Cretaceous and pre-Cretaceous structures, water depth, and time intervals.
AGSO Survey 137 proposed acquiring approximately 4000 km of deep crustal seismic data across the offshore Otway Basin in southeastern Australia from December 1994 to January 1995. The survey, conducted by the Australian Ocean Data Network, aimed to determine the basin's crustal architecture and link it to surrounding geological features. It integrated seismic refraction data with aeromagnetic data to enhance understanding of basin formation within the Southern Rift System.
Experimental and calculated data from a study on particulate phosphorus mobilization via lacustrine groundwater discharge. The dataset includes physical calculations, spring monitoring results, elemental compositions, and phosphorus speciation for source sediments and release particles. Author Wenkai Qiu published the 1.1 MB dataset on figshare under a CC-BY-4.0 license, with a last update timestamp of 2026-04-27.
Haddon Downs in South Australia was surveyed in October and November 1957. The experimental seismic survey recorded two important refractors and mapped subsurface structure within the Eromanga Sub-basin. The data was likely collected by Santos Ltd. and is hosted by the Australian Ocean Data Network.