Modelling interannual sea ice variability in the Gulf of St. Lawrence

DeTracey, Brendan

January 1993

No description available.

Physical Oceanography.

2D-3D interactions in a thin rotating fluid : implications for the energetics of ocean circulation

Gertz, Aaron Blake Rollinson.

January 2006

No description available.

Physical Oceanography.

Circulation and mixing in the St. Lawrence estuary

Bourgault, Daniel

January 2001

No description available.

Physical Oceanography.

Comparison of numerical methods for modelling ocean circulation in basins with irregular coasts

Dupont, Frédéric

January 2001

No description available.

Physical Oceanography.

The variability and dynamics of the Antartic Circumpolar Current south of Africa using proxy techniques

Swart, Sebastiaan

15 August 2023

The general circulation of the Southern Ocean is dominated by the eastward flowing Antarctic Circumpolar Current (ACC). This is a continuous feature linking the three major ocean basins and thus forms a vital link in the transport of heat and salt on a global scale. These exchanges provide a vital mechanism for the global thermohaline circulation (THC), which regulates the Earth's climate. In the high latitudes, where conditions are hostile, routine hydrographic observations are scarce resulting in a poor understanding of the physical and dynamic processes controlling the variability of the ACC and its influence on the THC. The GoodHope program launched in early 2004 aimed to establish an intensive monitoring platform that would provide detailed information on the physical structure and volume flux of water masses south of Africa. Sustained observations along the GoodHope cruise track provide the means to monitor the vertical structure and variability of the ACC and its associated fronts south of Africa. Such intense monitoring has been under way in the Drake Passage and south of Australia since the 1970s. A major objective of this thesis is to provide sound estimates of ACC transport and variability using both in situ measurements and remote sensing techniques. These estimates are crucial in understanding the role the ACC plays in the global thermohaline circulation (THC) and how the region south of Africa acts as a major conveyor of heat and salt to the higher latitudes. Baroclinic transports of the ACC, relative to 2500 dbar, are calculated from altimetry data alone. These transports agree with simultaneous observed estimates (rms difference in net transport is 5.2 Sv). These observations suggest that sea level anomalies largely reflect baroclinic transport variations above 2500 dbar. The transports contribution per ACC front shows that the SAF is responsible for the highest variability signals (>50%) even though its net transport contribution to the ACC was less (9%) than the APF. Furthermore, direct measurements of heat and salt content in the Southern Ocean are based on the few synoptic transects, the majority of which are restricted in the austral summer. To overcome the poor temporal and spatial resolution of measurements in the south African sector of the Southern Ocean, this thesis makes use of the gravest empirical mode (GEM) method and applies this technique to weekly composites of satellite altimetry data. The GEM method makes use of all available hydrographic casts from the south-east Atlantic Ocean and projects the data into a baroclinic stream function space parameterised by pressure and dynamic height. The GEM fields were shown to compare closely with independent in situ observations of the water column, capturing more than 97% of the total temperature and density variance in the ACC domain. The GEM-derived heat and salt content estimates attempt to determine the variability signals of the ACC due to external influences, such as topographical obstacles and oceanic features originating from subtropical regions. The exploitation of such proxy methods is useful in improving our understanding of the subsurface properties of the Southern Ocean and more importantly the influences temporal changes in the system have on the structure and transport of the ACC. With time, these methods will be refined with the input of new observations, thereby enhancing their ability to determine the dynamic nature of the ACC and its impact on the Earth's system.

Physical Oceanography

Dependence of the transport in channel models of the ACC on the Rossby radius of deformation

Crevier, Louis-Philippe.

January 1998

No description available.

Physical Oceanography.

Seasonal structure of the Gulf of St. Lawrence upper-layer thermohaline fields during the ice-free months

Doyon, Patrick.

January 1996

No description available.

Physical Oceanography.

Tidal flow modification by a small bay in the lower St. Lawrence estuary

Laval, Bernard E.

January 1995

No description available.

Physical Oceanography.

Modeling strongly stratified flow using the dynamic grid adaptation (DGA) technique /

Podber, David P.

January 1997

No description available.

Physical Oceanography

Decomposition of velocity fluctuations in the bottom boundary layer /

Lee, Jongkook

January 1997

No description available.

Physical Oceanography