Estimating the recharge properties of the deep ocean using noble gases and helium isotopes

The distribution of noble gases and helium isotopes in the dense shelf waters of Antarctica reflects the boundary conditions near the ocean surface: airâ€sea exchange, sea ice formation, and subsurface ice melt. We use a nonlinear least squares solution to determine the value of the recharge tempera...

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Bibliographic Details
Published in:Journal of Geophysical Research: Oceans
Main Authors: Loose, Brice, Jenkins, William J., Moriarty, Roisin, Brown, Peter, Jullion, Loic, Naveiro Garabato, Alberto C., Torres Valdes, Sinhue, Hoppema, Mario, Ballentine, Chris, Meredith, Michael P.
Format: Text
Language:unknown
Published: DigitalCommons@URI 2016
Subjects:
Antarc*
Antarctic
Antarctica
North Atlantic
Sea ice
Online Access:https://digitalcommons.uri.edu/gsofacpubs/549
https://doi.org/10.1002/2016JC011809
https://digitalcommons.uri.edu/context/gsofacpubs/article/1535/viewcontent/Loose_EstimatingRecharge_2016.pdf
Description
Summary:The distribution of noble gases and helium isotopes in the dense shelf waters of Antarctica reflects the boundary conditions near the ocean surface: airâ€sea exchange, sea ice formation, and subsurface ice melt. We use a nonlinear least squares solution to determine the value of the recharge temperature and salinity, as well as the excess air injection and glacial meltwater content throughout the water column and in the precursor to Antarctic Bottom Water. The noble gasâ€derived recharge temperature and salinity in the Weddell Gyre are −1.95°C and 34.95 psu near 5500 m; these cold, salty recharge values are a result of surface cooling as well as brine rejection during sea ice formation in Antarctic polynyas. In comparison, the global value for deep water recharge temperature is −0.44°C at 5500 m, which is 1.5°C warmer than the southern hemisphere deep water recharge temperature, reflecting a distinct contribution from the north Atlantic. The contrast between northern and southern hemisphere recharge properties highlights the impact of sea ice formation on setting the gas properties in southern sourced deep water. Below 1000 m, glacial meltwater averages 3.5‰ by volume and represents greater than 50% of the excess neon and argon found in the water column. These results indicate glacial melt has a nonnegligible impact on the atmospheric gas content of Antarctic Bottom Water.

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