Tracking the spread of a passive tracer through Southern Ocean water masses

A dynamically passive inert tracer was released in the interior South Pacific Ocean at latitudes of the Antarctic Circumpolar Current. Observational cross sections of the tracer were taken over four consecutive years as it drifted through Drake Passage and into the Atlantic Ocean. The tracer was rel...

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Bibliographic Details
Main Authors: Zika, Jan D., Sallée, Jean-Baptiste, Meijers, Andrew, Naveira-Garabato, Alberto, Watson, Andrew J., Messias, Marie-Jose, King, Brian
Format: Text
Language:English
Published: 2019
Subjects:
Antarctic
Drake Passage
Pacific
Scotia Sea
Southern Ocean
The Antarctic
Antarc*
Online Access:https://doi.org/10.5194/os-2019-97
https://www.ocean-sci-discuss.net/os-2019-97/
Description
Summary:A dynamically passive inert tracer was released in the interior South Pacific Ocean at latitudes of the Antarctic Circumpolar Current. Observational cross sections of the tracer were taken over four consecutive years as it drifted through Drake Passage and into the Atlantic Ocean. The tracer was released within a region of high salinity relative to surrounding waters at the same density. In the absence of irreversible mixing a tracer remains at constant salinity and temperature on an isopycnal surface. To investigate the process of irreversible mixing we analysed the tracer in potential density versus salinity-anomaly coordinates. Observations of high tracer concentration tended to be collocated with isopycnal salinity anomalies. With time an initially narrow peak in tracer concentration as a function of salinity at constant density, broadened with the tracer being found at ever fresher salinities, consistent with diffusion-like behaviour in that coordinate system. The second moment of the tracer as a function of salinity suggested an initial period of slow spreading for approximately 2 years in the Pacific, followed by more rapid spreading as the tracer entered Drake Passage and the Scotia Sea. Analysis of isopycnal salinity gradients based on the Argo programme suggests that part of this apparent change can be explained by changes in background salinity gradients while part of the change may be explained by geographical changes in background mixing.

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