Impacts of Antarctic ice mass loss on New Zealand climate

Andrew G. Pauling; Inga J. Smith; Jeff K. Ridley; Torge Martin; Max Thomas; David P. Stevens

doi:10.1029/2024GL111047

Impacts of Antarctic ice mass loss on New Zealand climate

Andrew G. Pauling, Inga J. Smith, Jeff K. Ridley, Torge Martin, Max Thomas, David P. Stevens

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Abstract

We investigate the impacts of meltwater from Antarctic Ice Sheet (AIS) mass loss on New Zealand climate in a state-of-the-art global climate model. We conduct simulations with additional meltwater from AIS mass loss for both the historical period and a high-emissions future scenario. The ocean surface to the southeast of New Zealand cools, with the largest change in winter and spring. The additional meltwater results in a northward shift of the oceanic sub-tropical front near New Zealand, which partially offsets the projected southward shift of this front in a warming climate. Wintertime surface westerly winds to the south of New Zealand also increase with the addition of the meltwater. The magnitude of the impact of Antarctic meltwater is uncertain due to the wide spread in estimates of Antarctic mass imbalance, but has important implications for future projections for New Zealand climate.

Original language	English
Article number	e2024GL111047
Journal	Geophysical Research Letters
Volume	52
Issue number	4
Early online date	14 Feb 2025
DOIs	https://doi.org/10.1029/2024GL111047
Publication status	Published - 28 Feb 2025

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Cite this

@article{652a154034314e1ba2940f2c3d943957,

title = "Impacts of Antarctic ice mass loss on New Zealand climate",

abstract = "We investigate the impacts of meltwater from Antarctic Ice Sheet (AIS) mass loss on New Zealand climate in a state-of-the-art global climate model. We conduct simulations with additional meltwater from AIS mass loss for both the historical period and a high-emissions future scenario. The ocean surface to the southeast of New Zealand cools, with the largest change in winter and spring. The additional meltwater results in a northward shift of the oceanic sub-tropical front near New Zealand, which partially offsets the projected southward shift of this front in a warming climate. Wintertime surface westerly winds to the south of New Zealand also increase with the addition of the meltwater. The magnitude of the impact of Antarctic meltwater is uncertain due to the wide spread in estimates of Antarctic mass imbalance, but has important implications for future projections for New Zealand climate.",

author = "Pauling, {Andrew G.} and Smith, {Inga J.} and Ridley, {Jeff K.} and Torge Martin and Max Thomas and Stevens, {David P.}",

note = "Data Availability Statement: CMIP6 data used in this study is available from the Earth System Grid Federation (ESGF) archive: https://aims2.llnl.gov/search/cmip6. The SOFIA model output data are available at https://crd-data-donnees-rdc.ec.gc.ca/CCCMA/SOFIA (Swart et al., 2023). Code and processed data necessary to reproduce the results of this study are archived at Pauling (2024a, 2024b) respectively. Funding information: AGP, IJS, and MT were funded by the Deep South National Science Challenge (MBIE contract number C01X1412). AGP, IJS, and MT acknowledge additional support from the Antarctic Science Platform (University of Otago subcontract 19424 from VUW's ASP Project 4 contract with Antarctica New Zealand through MBIE SSIF Programmes Investment contract number ANTA1801). JR was supported by the Met Office Hadley Centre Climate Programme funded by DBEIS and Defra. ",

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doi = "10.1029/2024GL111047",

language = "English",

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journal = "Geophysical Research Letters",

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AU - Pauling, Andrew G.

AU - Smith, Inga J.

AU - Ridley, Jeff K.

AU - Martin, Torge

AU - Thomas, Max

AU - Stevens, David P.

N1 - Data Availability Statement: CMIP6 data used in this study is available from the Earth System Grid Federation (ESGF) archive: https://aims2.llnl.gov/search/cmip6. The SOFIA model output data are available at https://crd-data-donnees-rdc.ec.gc.ca/CCCMA/SOFIA (Swart et al., 2023). Code and processed data necessary to reproduce the results of this study are archived at Pauling (2024a, 2024b) respectively. Funding information: AGP, IJS, and MT were funded by the Deep South National Science Challenge (MBIE contract number C01X1412). AGP, IJS, and MT acknowledge additional support from the Antarctic Science Platform (University of Otago subcontract 19424 from VUW's ASP Project 4 contract with Antarctica New Zealand through MBIE SSIF Programmes Investment contract number ANTA1801). JR was supported by the Met Office Hadley Centre Climate Programme funded by DBEIS and Defra.

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N2 - We investigate the impacts of meltwater from Antarctic Ice Sheet (AIS) mass loss on New Zealand climate in a state-of-the-art global climate model. We conduct simulations with additional meltwater from AIS mass loss for both the historical period and a high-emissions future scenario. The ocean surface to the southeast of New Zealand cools, with the largest change in winter and spring. The additional meltwater results in a northward shift of the oceanic sub-tropical front near New Zealand, which partially offsets the projected southward shift of this front in a warming climate. Wintertime surface westerly winds to the south of New Zealand also increase with the addition of the meltwater. The magnitude of the impact of Antarctic meltwater is uncertain due to the wide spread in estimates of Antarctic mass imbalance, but has important implications for future projections for New Zealand climate.

AB - We investigate the impacts of meltwater from Antarctic Ice Sheet (AIS) mass loss on New Zealand climate in a state-of-the-art global climate model. We conduct simulations with additional meltwater from AIS mass loss for both the historical period and a high-emissions future scenario. The ocean surface to the southeast of New Zealand cools, with the largest change in winter and spring. The additional meltwater results in a northward shift of the oceanic sub-tropical front near New Zealand, which partially offsets the projected southward shift of this front in a warming climate. Wintertime surface westerly winds to the south of New Zealand also increase with the addition of the meltwater. The magnitude of the impact of Antarctic meltwater is uncertain due to the wide spread in estimates of Antarctic mass imbalance, but has important implications for future projections for New Zealand climate.

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