Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Employer
- Utrecht University
- NTNU - Norwegian University of Science and Technology
- Technical University of Denmark
- Leibniz
- Chalmers University of Technology
- Curtin University
- Radboud University
- ; Newcastle University
- ; The University of Manchester
- ; University of East Anglia
- CSIRO
- Max Planck Institute for Biogeochemistry •
- Nature Careers
- Norwegian Meteorological Institute
- Umeå University
- University of Bremen •
- University of California Davis
- University of Copenhagen
- Vrije Universiteit Brussel
- 9 more »
- « less
-
Field
-
Acknowledgement of Country CSIRO acknowledges the Traditional Owners of the land, sea and waters, of the area that we live and work on across Australia. We acknowledge their continuing connection
-
: 30 August 2025 Apply now As part of the EMBRACER project external link , you will use advanced models integrating our climate system to human behaviour to study potential scenarios of what could happen
-
Apply now Coastal dunes are crucial for society but face growing pressure from sea level rise, storms and human disturbance. Coastal dune evolution is determined by interactions of vegetation, wind and
-
gyre (SPG) and Arctic and Antarctic sea ice cover, involving processes on smaller scales, which are often not well represented in modelling efforts focusing on the large scale tipping elements
-
, Coastal and Shelf Sea Dynamics, Earth System Modelling, Ice and Climate and Oceans and Climate. In 2022, IMAU research quality and impact were qualified as 'world leading' by an international visitation
-
following areas: Salmon ecology (including biophysical ecology, modeling, acoustic telemetry, and landscape and seascape ecology) Fisheries assessment (including habitat and groundfish ecology and assessment
-
affect regional agriculture and transport and possibly global food security. Recently, researchers from IMAU have for the first time modelled a full AMOC collapse in a full-fledged climate model
-
extrapolating loads along the substructure, for any type of turbine, given specific geometric, inflow and sea-state information. Furthermore, such a machine learning surrogate can speed-up both design and
-
contributes to the improvement of climate prediction models. The Atmospheric Chemistry and Atmospheric Microphysics departments are looking for a committed doctoral student to carry out this project. You can
-
potential large-scale climate repercussions. Even more so since the AMOC brings CO2 from the surface to the deep ocean during deepwater formation (physical pump), and variations in the AMOC strength will