The Sensitivity of the Antarctic Ice Sheet to a Changing Climate: Past, Present, and Future

T. L. Noble; E. J. Rohling; A. R.A. Aitken; H. C. Bostock; Z. Chase; N. Gomez; L. M. Jong; M. A. King; A. N. Mackintosh; F. S. McCormack; R. M. McKay; L. Menviel; S. J. Phipps; M. E. Weber; C. J. Fogwill; B. Gayen; N. R. Golledge; D. E. Gwyther; A. Mc C. Hogg; Y. M. Martos; B. Pena-Molino; J. Roberts; T. van de Flierdt; T. Williams

doi:10.1029/2019RG000663

The Sensitivity of the Antarctic Ice Sheet to a Changing Climate: Past, Present, and Future

T. L. Noble, E. J. Rohling, A. R.A. Aitken, H. C. Bostock, Z. Chase, N. Gomez, L. M. Jong, M. A. King, A. N. Mackintosh, F. S. McCormack, R. M. McKay, L. Menviel, S. J. Phipps, M. E. Weber, C. J. Fogwill, B. Gayen, N. R. Golledge, D. E. Gwyther, A. Mc C. Hogg, Y. M. MartosB. Pena-Molino, J. Roberts, T. van de Flierdt, T. Williams

School of Earth Atmosphere and Environment

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

108 Citations (Scopus)

Abstract

The Antarctic Ice Sheet (AIS) is out of equilibrium with the current anthropogenic-enhanced climate forcing. Paleoenvironmental records and ice sheet models reveal that the AIS has been tightly coupled to the climate system during the past and indicate the potential for accelerated and sustained Antarctic ice mass loss into the future. Modern observations by contrast suggest that the AIS has only just started to respond to climate change in recent decades. The maximum projected sea level contribution from Antarctica to 2100 has increased significantly since the Intergovernmental Panel on Climate Change (IPCC) 5th Assessment Report, although estimates continue to evolve with new observational and theoretical advances. This review brings together recent literature highlighting the progress made on the known processes and feedbacks that influence the stability of the AIS. Reducing the uncertainty in the magnitude and timing of the future sea level response to AIS change requires a multidisciplinary approach that integrates knowledge of the interactions between the ice sheet, solid Earth, atmosphere, and ocean systems and across time scales of days to millennia. We start by reviewing the processes affecting AIS mass change, from atmospheric and oceanic processes acting on short time scales (days to decades), through to ice processes acting on intermediate time scales (decades to centuries) and the response to solid Earth interactions over longer time scales (decades to millennia). We then review the evidence of AIS changes from the Pliocene to the present and consider the projections of global sea level rise and their consequences. We highlight priority research areas required to improve our understanding of the processes and feedbacks governing AIS change.

Original language	English
Article number	e2019RG000663
Number of pages	89
Journal	Reviews of Geophysics
Volume	58
Issue number	4
DOIs	https://doi.org/10.1029/2019RG000663
Publication status	Published - Dec 2020

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Keywords

Antarctic Ice Sheet
climate
interaction
past
processes
sea level

Access to Document

10.1029/2019RG000663

Cite this

Noble, T. L., Rohling, E. J., Aitken, A. R. A., Bostock, H. C., Chase, Z., Gomez, N., Jong, L. M., King, M. A., Mackintosh, A. N., McCormack, F. S., McKay, R. M., Menviel, L., Phipps, S. J., Weber, M. E., Fogwill, C. J., Gayen, B., Golledge, N. R., Gwyther, D. E., Hogg, A. M. C., ... Williams, T. (2020). The Sensitivity of the Antarctic Ice Sheet to a Changing Climate: Past, Present, and Future. Reviews of Geophysics, 58(4), Article e2019RG000663. https://doi.org/10.1029/2019RG000663

@article{4276feb4ae0047cb91c1e01551f8af74,

title = "The Sensitivity of the Antarctic Ice Sheet to a Changing Climate: Past, Present, and Future",

abstract = "The Antarctic Ice Sheet (AIS) is out of equilibrium with the current anthropogenic-enhanced climate forcing. Paleoenvironmental records and ice sheet models reveal that the AIS has been tightly coupled to the climate system during the past and indicate the potential for accelerated and sustained Antarctic ice mass loss into the future. Modern observations by contrast suggest that the AIS has only just started to respond to climate change in recent decades. The maximum projected sea level contribution from Antarctica to 2100 has increased significantly since the Intergovernmental Panel on Climate Change (IPCC) 5th Assessment Report, although estimates continue to evolve with new observational and theoretical advances. This review brings together recent literature highlighting the progress made on the known processes and feedbacks that influence the stability of the AIS. Reducing the uncertainty in the magnitude and timing of the future sea level response to AIS change requires a multidisciplinary approach that integrates knowledge of the interactions between the ice sheet, solid Earth, atmosphere, and ocean systems and across time scales of days to millennia. We start by reviewing the processes affecting AIS mass change, from atmospheric and oceanic processes acting on short time scales (days to decades), through to ice processes acting on intermediate time scales (decades to centuries) and the response to solid Earth interactions over longer time scales (decades to millennia). We then review the evidence of AIS changes from the Pliocene to the present and consider the projections of global sea level rise and their consequences. We highlight priority research areas required to improve our understanding of the processes and feedbacks governing AIS change.",

keywords = "Antarctic Ice Sheet, climate, interaction, past, processes, sea level",

author = "Noble, \{T. L.\} and Rohling, \{E. J.\} and Aitken, \{A. R.A.\} and Bostock, \{H. C.\} and Z. Chase and N. Gomez and Jong, \{L. M.\} and King, \{M. A.\} and Mackintosh, \{A. N.\} and McCormack, \{F. S.\} and McKay, \{R. M.\} and L. Menviel and Phipps, \{S. J.\} and Weber, \{M. E.\} and Fogwill, \{C. J.\} and B. Gayen and Golledge, \{N. R.\} and Gwyther, \{D. E.\} and Hogg, \{A. Mc C.\} and Martos, \{Y. M.\} and B. Pena-Molino and J. Roberts and \{van de Flierdt\}, T. and T. Williams",

year = "2020",

month = dec,

doi = "10.1029/2019RG000663",

language = "English",

volume = "58",

journal = "Reviews of Geophysics",

issn = "8755-1209",

publisher = "American Geophysical Union",

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Noble, TL, Rohling, EJ, Aitken, ARA, Bostock, HC, Chase, Z, Gomez, N, Jong, LM, King, MA, Mackintosh, AN , McCormack, FS, McKay, RM, Menviel, L, Phipps, SJ, Weber, ME, Fogwill, CJ, Gayen, B, Golledge, NR, Gwyther, DE, Hogg, AMC, Martos, YM, Pena-Molino, B, Roberts, J, van de Flierdt, T & Williams, T 2020, 'The Sensitivity of the Antarctic Ice Sheet to a Changing Climate: Past, Present, and Future', Reviews of Geophysics, vol. 58, no. 4, e2019RG000663. https://doi.org/10.1029/2019RG000663

TY - JOUR

T1 - The Sensitivity of the Antarctic Ice Sheet to a Changing Climate

T2 - Past, Present, and Future

AU - Noble, T. L.

AU - Rohling, E. J.

AU - Aitken, A. R.A.

AU - Bostock, H. C.

AU - Chase, Z.

AU - Gomez, N.

AU - Jong, L. M.

AU - King, M. A.

AU - Mackintosh, A. N.

AU - McCormack, F. S.

AU - McKay, R. M.

AU - Menviel, L.

AU - Phipps, S. J.

AU - Weber, M. E.

AU - Fogwill, C. J.

AU - Gayen, B.

AU - Golledge, N. R.

AU - Gwyther, D. E.

AU - Hogg, A. Mc C.

AU - Martos, Y. M.

AU - Pena-Molino, B.

AU - Roberts, J.

AU - van de Flierdt, T.

AU - Williams, T.

PY - 2020/12

Y1 - 2020/12

N2 - The Antarctic Ice Sheet (AIS) is out of equilibrium with the current anthropogenic-enhanced climate forcing. Paleoenvironmental records and ice sheet models reveal that the AIS has been tightly coupled to the climate system during the past and indicate the potential for accelerated and sustained Antarctic ice mass loss into the future. Modern observations by contrast suggest that the AIS has only just started to respond to climate change in recent decades. The maximum projected sea level contribution from Antarctica to 2100 has increased significantly since the Intergovernmental Panel on Climate Change (IPCC) 5th Assessment Report, although estimates continue to evolve with new observational and theoretical advances. This review brings together recent literature highlighting the progress made on the known processes and feedbacks that influence the stability of the AIS. Reducing the uncertainty in the magnitude and timing of the future sea level response to AIS change requires a multidisciplinary approach that integrates knowledge of the interactions between the ice sheet, solid Earth, atmosphere, and ocean systems and across time scales of days to millennia. We start by reviewing the processes affecting AIS mass change, from atmospheric and oceanic processes acting on short time scales (days to decades), through to ice processes acting on intermediate time scales (decades to centuries) and the response to solid Earth interactions over longer time scales (decades to millennia). We then review the evidence of AIS changes from the Pliocene to the present and consider the projections of global sea level rise and their consequences. We highlight priority research areas required to improve our understanding of the processes and feedbacks governing AIS change.

AB - The Antarctic Ice Sheet (AIS) is out of equilibrium with the current anthropogenic-enhanced climate forcing. Paleoenvironmental records and ice sheet models reveal that the AIS has been tightly coupled to the climate system during the past and indicate the potential for accelerated and sustained Antarctic ice mass loss into the future. Modern observations by contrast suggest that the AIS has only just started to respond to climate change in recent decades. The maximum projected sea level contribution from Antarctica to 2100 has increased significantly since the Intergovernmental Panel on Climate Change (IPCC) 5th Assessment Report, although estimates continue to evolve with new observational and theoretical advances. This review brings together recent literature highlighting the progress made on the known processes and feedbacks that influence the stability of the AIS. Reducing the uncertainty in the magnitude and timing of the future sea level response to AIS change requires a multidisciplinary approach that integrates knowledge of the interactions between the ice sheet, solid Earth, atmosphere, and ocean systems and across time scales of days to millennia. We start by reviewing the processes affecting AIS mass change, from atmospheric and oceanic processes acting on short time scales (days to decades), through to ice processes acting on intermediate time scales (decades to centuries) and the response to solid Earth interactions over longer time scales (decades to millennia). We then review the evidence of AIS changes from the Pliocene to the present and consider the projections of global sea level rise and their consequences. We highlight priority research areas required to improve our understanding of the processes and feedbacks governing AIS change.

KW - Antarctic Ice Sheet

KW - climate

KW - interaction

KW - past

KW - processes

KW - sea level

UR - https://www.scopus.com/pages/publications/85097975645

U2 - 10.1029/2019RG000663

DO - 10.1029/2019RG000663

M3 - Review Article

AN - SCOPUS:85097975645

SN - 8755-1209

VL - 58

JO - Reviews of Geophysics

JF - Reviews of Geophysics

IS - 4

M1 - e2019RG000663

ER -

The Sensitivity of the Antarctic Ice Sheet to a Changing Climate: Past, Present, and Future

Abstract

UN SDGs

Keywords

Access to Document

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ARC Centre of Excellence for Climate System Science

Cite this

The Sensitivity of the Antarctic Ice Sheet to a Changing Climate: Past, Present, and Future

Abstract

UN SDGs

Keywords

Access to Document

Other files and links

Projects

ARC Centre of Excellence for Climate System Science

Cite this