Sökning: "atmosfärvetenskap och oceanografi"
Visar resultat 16 - 20 av 66 avhandlingar innehållade orden atmosfärvetenskap och oceanografi.
16. Ridged sea ice modelling in climate applications
Sammanfattning : This work aims to increase our understanding of the nature of large scale features of sea ice from a dynamics point of view.Sea ice plays an important part in the exchange of heat and humidity between sea and air and thus is an important component of the climate system. LÄS MER
17. Unraveling the thermohaline structure of the Southern Ocean using functional data analysis
Sammanfattning : The Southern Ocean connects the Indian, Pacific and Atlantic Oceans and provides a direct pathway to exchange mass, heat and salt across the Global Ocean, therefore playing an important role in the global climate system. Due to the complexity of its structure and the general inadequacy of its sampling, both in time and space, it remains a challenge to describe and visualize the three dimensional pattern of its circulation and the associated tracer distribution (temperature, salinity, oxygen or nutrients). LÄS MER
18. Freshwater processes and water mass transformation in the Arctic Ocean
Sammanfattning : This thesis explores freshwater-related processes and water mass transformation in the Arctic Ocean. Knowledge of these processes is important from both a local and a global perspective. Globally, because the export of cold and low saline water and sea ice might influence the North Atlantic and global meridional overturning circulation. LÄS MER
19. Atmospheric dynamics and the hydrologic cycle in warm climates
Sammanfattning : Past warm climates represent one extreme of Earth's known climate states. Here, we study warm climates in both idealized simulations and full-complexity general circulation model (GCM) simulations of the early Eocene epoch, approximately 50 million years ago. LÄS MER
20. A large-eddy simulation perspective on Arctic airmass transformation and low-level cloud evolution
Sammanfattning : The Arctic is currently warming faster than other regions of the Earth. Many processes and feedbacks contribute to the enhanced warming. Among these are the radiative effects of clouds. LÄS MER