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Climate models, weather data, oceanography, hydrology, atmospheric science, environmental monitoring
27,028 datasets
Aggregating flood water surface profiles for the North Esk and Tamar rivers in Tasmania, Australia, derived from hydrological studies. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) flood events, with adjustments for sea level rise. The underlying hydrology was reviewed by Hydro Consulting for the South Esk and derived by the University of New South Wales Water Research Laboratory for the North Esk.
Encompassing flood water surface profiles for the North Esk and Tamar rivers in Tasmania, Australia, derived from hydrological studies. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) flood events, with discharges calibrated to historical floods from 2005 and 2011. The data is intended for planning purposes and includes scenarios with current sea levels and an 800mm sea level rise.
Flood water surface profiles for the North Esk and Tamar rivers in Tasmania, Australia. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) flood events, with discharges derived from hydrological studies by the University of New South Wales Water Research Laboratory and Hydro Consulting. The model was calibrated using flood events from August 2005 (470 cumecs) and June 2011 (251 cumecs).
A collection of flood water surface profiles for the North Esk and Tamar rivers in Tasmania, Australia, derived from hydrological studies. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) events, with discharges modeled for scenarios like a 100-year ARI with an 800mm sea level rise. The underlying hydrology was reviewed by Hydro Consulting for the South Esk and derived by the University of New South Wales Water Research Laboratory for the North Esk.
Aggregating flood water surface profiles for the North Esk and Tamar rivers in Launceston, Australia, derived from hydrological studies. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) events, with discharges calibrated to historical floods from 2005 and 2011. The data is intended for planning purposes.
Aggregating flood water surface profiles for the North Esk and Tamar rivers in Tasmania, Australia, derived from hydrological studies. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) events, with discharges calibrated to historical floods from 2005 and 2011. The data is intended for general planning purposes.
Flood water surface profiles and discharge data for the North Esk River in Tasmania, derived from hydrological studies. It includes profiles for 100-year and 200-year Average Recurrence Intervals (ARI) with different sea level conditions. The underlying hydrology was derived by the University of New South Wales Water Research Laboratory, and the model was calibrated using flood events from 2005 and 2011.
Flood water surface profiles and discharge rates for the North Esk River in Tasmania, derived from hydrological studies conducted in 2006 and 2008. It includes modeled profiles for 100-year and 200-year Average Recurrence Interval (ARI) events, with specific discharge values such as 710 cumecs. The data was calibrated against recorded floods from 2005 (470 cumecs) and 2011 (251 cumecs).
Comprising flood water surface profiles for the North Esk and Tamar rivers, derived from hydrology studies by the University of New South Wales Water Research Laboratory and Hydro Consulting. It includes profiles for 100-year and 200-year Average Recurrence Interval (ARI) events, with a 100-year scenario incorporating an 800mm sea level rise. The data was calibrated against historical flood events from 2005 and 2011.
Aggregating flood water surface profiles for the North Esk and Tamar rivers in Australia, derived from hydrology studies by the University of New South Wales Water Research Laboratory and Hydro Consulting. It includes profiles for 100-year and 200-year Average Recurrence Intervals (ARI) with different sea level conditions, and the underlying models were calibrated using flood events from 2005 and 2011.
A 100-year climate simulation from 2100 to 2199 using the Hadley Centre Coupled Model Version 3 (HadCM3). The simulation holds greenhouse gases, sulfur emissions, and ozone forcings constant at year 2100 levels. The model was developed by the Hadley Centre and contributed to the IPCC Third Assessment Report.
A 2029 observational study investigates the formation, transformation, and northward spreading of dense saline shelf water from Terra Nova Bay in the Ross Sea, Antarctica. The project is an international collaboration involving the USA, South Korea, New Zealand, and Italy. It employs a series of instrumented moorings along the pathway from the bay through the Drygalski Trough to the deep boundary current adjacent to Cape Adare.
Colombian Páramos soils provide a unique high-altitude case study for climate change impacts on microbial communities and carbon pools. This dataset, from an interdisciplinary research project, aims to disentangle moisture and temperature effects on microbial activity and composition. The project is managed by AMD_USAPDC, with data relevant through 2026.
Phase 2 development aims to construct a rapid access ice drill capable of penetrating ice up to 3300 meters thick. The platform will collect samples from ice, the ice-sheet bed interface, and bedrock substrate. The project is led by AMD_USAPDC and is staged for future scientific operations in Antarctica.
The Ice Drilling Program provides leadership and facility support for ice drilling engineering, field operations, and outreach within the U.S. and international research communities. The program, supported by the NSF and managed by AMD_USAPDC, aims to enable scientific discoveries in climate science through ice core and subglacial sampling. The award's activities are documented with a last updated date of July 2029.
HadCM3-ALL is a climate simulation ensemble member from the Hadley Centre Coupled Model Version 3, incorporating time-varying natural and anthropogenic forcings. The model provided input for the IPCC Third Assessment Report and simulates the period from 1859 to 2100 based on the IS95a emission scenario. This first ensemble element was produced by SCIOPS and last documented on the platform in December 2099.
HadCM3 climate model outputs simulate historical and future climate under the IPCC SRES-A1B emission scenario. The dataset includes forcings for greenhouse gases like methane, sulfur, and tropospheric/stratospheric ozone. The Hadley Centre developed this model, which was used for the IPCC Third Assessment Report, and the data was last updated by SCIOPS on 2099-12-01.
NASA EarthData hosts a modeling framework investigating interactions between groundwater, subglacial drainage, and ice sheet flow. The project, funded by the NSF and led by organization AMD_USAPDC, aims to test hypotheses on groundwater's impact on Antarctic ice mass loss. The dataset is scheduled for an update in August 2026.
HadCM3 climate model outputs simulate future atmospheric and oceanic conditions under the IPCC SRESB1 greenhouse gas emission scenario. The dataset was produced by the Hadley Centre for input to the IPCC Third Assessment Report and is hosted by NASA EarthData. The last recorded update was in November 2100.
NSF-funded research investigates water movement at the ice-bed interface, a key uncertainty in glacier sliding models. The project combines laboratory experiments and numerical modeling to improve forecasts of ice discharge and sea level rise. Data originates from the AMD_USAPDC organization, with a last updated date of August 2028.