Title of article
Circulation induced by subglacial discharge in glacial fjords: Results from idealized numerical simulations
Author/Authors
Salcedo-Castro، نويسنده , , Julio and Bourgault، نويسنده , , Daniel and deYoung، نويسنده , , Brad، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
11
From page
1396
To page
1406
Abstract
The flow caused by the discharge of freshwater underneath a glacier into an idealized fjord is simulated with a 2D non-hydrostatic model. As the freshwater leaves horizontally the subglacial opening into a fjord of uniformly denser water it spreads along the bottom as a jet, until buoyancy forces it to rise. During the initial rising phase, the plume meanders into complex flow patterns while mixing with the surrounding fluid until it reaches the surface and then spreads horizontally as a surface seaward flowing plume of brackish water. The process induces an estuarine-like circulation. Once steady-state is reached, the flow consists of an almost undiluted buoyant plume rising straight along the face of the glacier that turns into a horizontal surface layer thickening as it flows seaward. Over the range of parameters examined, the estuarine circulation is dynamically unstable with gradient Richardson number at the sheared interface having values of < 1 / 4 . The surface velocity and dilution factors are strongly and non-linearly related to the Froude number. It is the buoyancy flux that primarily controls the resulting circulation with the momentum flux playing a secondary role.
Keywords
Glacier , estuary , Buoyancy Flux , Potential energy anomaly , plume
Journal title
Continental Shelf Research
Serial Year
2011
Journal title
Continental Shelf Research
Record number
2297179
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