This decommissioned ERA site remains active temporarily to support our final migration steps to https://ualberta.scholaris.ca, ERA's new home. All new collections and items, including Spring 2025 theses, are at that site. For assistance, please contact erahelp@ualberta.ca.
Search
Skip to Search Results- 2Holdsworth, Amber M.
- 2Myers, Paul G.
- 1Christian, James R.
- 1Hayashida, Haskase
- 1Hu, Xianmin
- 1Monahan, Adam H.
- 1Atmosphere-Ocean Interaction
- 1Deep Convection
- 1Forcing
- 1Geology
- 1Mesoscale Processes
- 1Ocean Circulation
-
CSIB v1 (Canadian Sea-ice Biogeochemistry): a sea-ice biogeochemical model for the NEMO community ocean modelling framework
Download2019-01-01
Hayashida, Haskase, Christian, James R., Holdsworth, Amber M., Hu, Xianmin, Monahan, Adam H., Mortenson, Eric, Myers, Paul G., Riche, Olivier G. J., Sou, Tessa, Steiner, Nadja S.
Process-based numerical models are a useful tool for studying marine ecosystems and associated biogeochemical processes in ice-covered regions where observations are scarce. To this end, CSIB v1 (Canadian Sea-ice Biogeochemistry version 1), a new sea-ice biogeochemical model, has been developed...
-
The influence of high-frequency atmospheric forcing on the circulation and deep convection of the Labrador Sea
Download2015
Holdsworth, Amber M., Myers, Paul G.
The influence of high-frequency atmospheric forcing on the circulation of the North Atlantic Ocean with emphasis on the deep convection of the Labrador Sea was investigated by comparing simulations of a coupled ocean–ice model with hourly atmospheric data to simulations in which the...