Antarctic Bottom Water Sensitivity to Spatio-Temporal Variations in Antarctic Meltwater Fluxes

Wilton Aguiar; Sang Ki Lee; Hosmay Lopez; Shenfu Dong; Hélène Seroussi; Dani C. Jones; Adele K. Morrison

doi:10.1029/2022GL101595

Antarctic Bottom Water Sensitivity to Spatio-Temporal Variations in Antarctic Meltwater Fluxes

Wilton Aguiar^*, Sang Ki Lee, Hosmay Lopez, Shenfu Dong, Hélène Seroussi, Dani C. Jones, Adele K. Morrison

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Ice sheet melting into the Southern Ocean can change the formation and properties of the Antarctic Bottom Water (AABW). Ocean models often mimic ice sheet melting by adding freshwater fluxes in the Southern Ocean under diverse spatial distributions. We use a global ocean and sea-ice model to explore whether the spatial distribution and magnitude of meltwater fluxes can alter AABW properties and formation. We find that a realistic spatially varying meltwater flux sustains AABW with higher salinities compared to simulations with uniform meltwater fluxes. Finally, we show that increases in ice sheet melting above 12% since 1958 can trigger AABW freshening rates similar to those observed in the Southern Ocean since 1990, suggesting that the increasing Antarctic meltwater discharge can drive the observed AABW freshening.

Original language	English
Article number	e2022GL101595
Number of pages	12
Journal	Geophysical Research Letters
Volume	50
Issue number	13
Early online date	30 Jun 2023
DOIs	https://doi.org/10.1029/2022GL101595
Publication status	Published - 16 Jul 2023

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title = "Antarctic Bottom Water Sensitivity to Spatio-Temporal Variations in Antarctic Meltwater Fluxes",

abstract = "Ice sheet melting into the Southern Ocean can change the formation and properties of the Antarctic Bottom Water (AABW). Ocean models often mimic ice sheet melting by adding freshwater fluxes in the Southern Ocean under diverse spatial distributions. We use a global ocean and sea-ice model to explore whether the spatial distribution and magnitude of meltwater fluxes can alter AABW properties and formation. We find that a realistic spatially varying meltwater flux sustains AABW with higher salinities compared to simulations with uniform meltwater fluxes. Finally, we show that increases in ice sheet melting above 12% since 1958 can trigger AABW freshening rates similar to those observed in the Southern Ocean since 1990, suggesting that the increasing Antarctic meltwater discharge can drive the observed AABW freshening.",

keywords = "AABW freshening, Antarctic Bottom Water (AABW), Antarctic sea ice, ocean model, sea ice expansion, Southern Ocean",

author = "Wilton Aguiar and Lee, {Sang Ki} and Hosmay Lopez and Shenfu Dong and H{\'e}l{\`e}ne Seroussi and Jones, {Dani C.} and Morrison, {Adele K.}",

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TY - JOUR

T1 - Antarctic Bottom Water Sensitivity to Spatio-Temporal Variations in Antarctic Meltwater Fluxes

AU - Aguiar, Wilton

AU - Lee, Sang Ki

AU - Lopez, Hosmay

AU - Dong, Shenfu

AU - Seroussi, Hélène

AU - Jones, Dani C.

AU - Morrison, Adele K.

PY - 2023/7/16

Y1 - 2023/7/16

N2 - Ice sheet melting into the Southern Ocean can change the formation and properties of the Antarctic Bottom Water (AABW). Ocean models often mimic ice sheet melting by adding freshwater fluxes in the Southern Ocean under diverse spatial distributions. We use a global ocean and sea-ice model to explore whether the spatial distribution and magnitude of meltwater fluxes can alter AABW properties and formation. We find that a realistic spatially varying meltwater flux sustains AABW with higher salinities compared to simulations with uniform meltwater fluxes. Finally, we show that increases in ice sheet melting above 12% since 1958 can trigger AABW freshening rates similar to those observed in the Southern Ocean since 1990, suggesting that the increasing Antarctic meltwater discharge can drive the observed AABW freshening.

AB - Ice sheet melting into the Southern Ocean can change the formation and properties of the Antarctic Bottom Water (AABW). Ocean models often mimic ice sheet melting by adding freshwater fluxes in the Southern Ocean under diverse spatial distributions. We use a global ocean and sea-ice model to explore whether the spatial distribution and magnitude of meltwater fluxes can alter AABW properties and formation. We find that a realistic spatially varying meltwater flux sustains AABW with higher salinities compared to simulations with uniform meltwater fluxes. Finally, we show that increases in ice sheet melting above 12% since 1958 can trigger AABW freshening rates similar to those observed in the Southern Ocean since 1990, suggesting that the increasing Antarctic meltwater discharge can drive the observed AABW freshening.

KW - AABW freshening

KW - Antarctic Bottom Water (AABW)

KW - Antarctic sea ice

KW - ocean model

KW - sea ice expansion

KW - Southern Ocean

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U2 - 10.1029/2022GL101595

DO - 10.1029/2022GL101595

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JO - Geophysical Research Letters

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ER -

Antarctic Bottom Water Sensitivity to Spatio-Temporal Variations in Antarctic Meltwater Fluxes

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