Back to the future: Using long-term observational and paleo-proxy reconstructions to improve model projections of antarctic climate

Thomas J. Bracegirdle; Florence Colleoni; Nerilie J. Abram; Nancy A.N. Bertler; Daniel A. Dixon; Mark England; Vincent Favier; Chris J. Fogwill; John C. Fyfe; Ian Goodwin; Hugues Goosse; Will Hobbs; Julie M. Jones; Elizabeth D. Keller; Alia L. Khan; Steven J. Phipps; Marilyn N. Raphael; Joellen Russell; Louise Sime; Elizabeth R. Thomas; Michiel R. van den Broeke; Ilana Wainer

doi:10.3390/geosciences9060255

Back to the future: Using long-term observational and paleo-proxy reconstructions to improve model projections of antarctic climate

Thomas J. Bracegirdle^*, Florence Colleoni, Nerilie J. Abram, Nancy A.N. Bertler, Daniel A. Dixon, Mark England, Vincent Favier, Chris J. Fogwill, John C. Fyfe, Ian Goodwin, Hugues Goosse, Will Hobbs, Julie M. Jones, Elizabeth D. Keller, Alia L. Khan, Steven J. Phipps, Marilyn N. Raphael, Joellen Russell, Louise Sime, Elizabeth R. ThomasMichiel R. van den Broeke, Ilana Wainer

^*Corresponding author for this work

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

29 Citations (Scopus)

Abstract

Quantitative estimates of future Antarctic climate change are derived from numerical global climate models. Evaluation of the reliability of climate model projections involves many lines of evidence on past performance combined with knowledge of the processes that need to be represented. Routine model evaluation is mainly based on the modern observational period, which started with the establishment of a network of Antarctic weather stations in 1957/58. This period is too short to evaluate many fundamental aspects of the Antarctic and Southern Ocean climate system, such as decadal-to-century time-scale climate variability and trends. To help address this gap, we present a new evaluation of potential ways in which long-term observational and paleo-proxy reconstructions may be used, with a particular focus on improving projections. A wide range of data sources and time periods is included, ranging from ship observations of the early 20^thcentury to ice core records spanning hundreds to hundreds of thousands of years to sediment records dating back 34 million years. We conclude that paleo-proxy records and long-term observational datasets are an underused resource in terms of strategies for improving Antarctic climate projections for the 21^stcentury and beyond. We identify priorities and suggest next steps to addressing this.

Original language	English
Article number	255
Journal	Geosciences (Switzerland)
Volume	9
Issue number	6
DOIs	https://doi.org/10.3390/geosciences9060255
Publication status	Published - Jun 2019

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Bracegirdle, T. J., Colleoni, F., Abram, N. J., Bertler, N. A. N., Dixon, D. A., England, M., Favier, V., Fogwill, C. J., Fyfe, J. C., Goodwin, I., Goosse, H., Hobbs, W., Jones, J. M., Keller, E. D., Khan, A. L., Phipps, S. J., Raphael, M. N., Russell, J., Sime, L., ... Wainer, I. (2019). Back to the future: Using long-term observational and paleo-proxy reconstructions to improve model projections of antarctic climate. Geosciences (Switzerland), 9(6), Article 255. https://doi.org/10.3390/geosciences9060255

@article{ef205cc2203b4f648ec4d972e03908ef,

title = "Back to the future: Using long-term observational and paleo-proxy reconstructions to improve model projections of antarctic climate",

abstract = "Quantitative estimates of future Antarctic climate change are derived from numerical global climate models. Evaluation of the reliability of climate model projections involves many lines of evidence on past performance combined with knowledge of the processes that need to be represented. Routine model evaluation is mainly based on the modern observational period, which started with the establishment of a network of Antarctic weather stations in 1957/58. This period is too short to evaluate many fundamental aspects of the Antarctic and Southern Ocean climate system, such as decadal-to-century time-scale climate variability and trends. To help address this gap, we present a new evaluation of potential ways in which long-term observational and paleo-proxy reconstructions may be used, with a particular focus on improving projections. A wide range of data sources and time periods is included, ranging from ship observations of the early 20thcentury to ice core records spanning hundreds to hundreds of thousands of years to sediment records dating back 34 million years. We conclude that paleo-proxy records and long-term observational datasets are an underused resource in terms of strategies for improving Antarctic climate projections for the 21stcentury and beyond. We identify priorities and suggest next steps to addressing this.",

keywords = "Antarctic, CMIP, Climate, PMIP, Paleoclimate, Projections, Southern Ocean",

author = "Bracegirdle, {Thomas J.} and Florence Colleoni and Abram, {Nerilie J.} and Bertler, {Nancy A.N.} and Dixon, {Daniel A.} and Mark England and Vincent Favier and Fogwill, {Chris J.} and Fyfe, {John C.} and Ian Goodwin and Hugues Goosse and Will Hobbs and Jones, {Julie M.} and Keller, {Elizabeth D.} and Khan, {Alia L.} and Phipps, {Steven J.} and Raphael, {Marilyn N.} and Joellen Russell and Louise Sime and Thomas, {Elizabeth R.} and {van den Broeke}, {Michiel R.} and Ilana Wainer",

note = "Publisher Copyright: {\textcopyright} 2019 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2019",

month = jun,

doi = "10.3390/geosciences9060255",

language = "English",

volume = "9",

journal = "Geosciences (Switzerland)",

issn = "2076-3263",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "6",

}

Bracegirdle, TJ, Colleoni, F, Abram, NJ, Bertler, NAN, Dixon, DA, England, M, Favier, V, Fogwill, CJ, Fyfe, JC, Goodwin, I, Goosse, H, Hobbs, W, Jones, JM, Keller, ED, Khan, AL, Phipps, SJ, Raphael, MN, Russell, J, Sime, L, Thomas, ER, van den Broeke, MR & Wainer, I 2019, 'Back to the future: Using long-term observational and paleo-proxy reconstructions to improve model projections of antarctic climate', Geosciences (Switzerland), vol. 9, no. 6, 255. https://doi.org/10.3390/geosciences9060255

TY - JOUR

T1 - Back to the future

T2 - Using long-term observational and paleo-proxy reconstructions to improve model projections of antarctic climate

AU - Bracegirdle, Thomas J.

AU - Colleoni, Florence

AU - Abram, Nerilie J.

AU - Bertler, Nancy A.N.

AU - Dixon, Daniel A.

AU - England, Mark

AU - Favier, Vincent

AU - Fogwill, Chris J.

AU - Fyfe, John C.

AU - Goodwin, Ian

AU - Goosse, Hugues

AU - Hobbs, Will

AU - Jones, Julie M.

AU - Keller, Elizabeth D.

AU - Khan, Alia L.

AU - Phipps, Steven J.

AU - Raphael, Marilyn N.

AU - Russell, Joellen

AU - Sime, Louise

AU - Thomas, Elizabeth R.

AU - van den Broeke, Michiel R.

AU - Wainer, Ilana

PY - 2019/6

Y1 - 2019/6

N2 - Quantitative estimates of future Antarctic climate change are derived from numerical global climate models. Evaluation of the reliability of climate model projections involves many lines of evidence on past performance combined with knowledge of the processes that need to be represented. Routine model evaluation is mainly based on the modern observational period, which started with the establishment of a network of Antarctic weather stations in 1957/58. This period is too short to evaluate many fundamental aspects of the Antarctic and Southern Ocean climate system, such as decadal-to-century time-scale climate variability and trends. To help address this gap, we present a new evaluation of potential ways in which long-term observational and paleo-proxy reconstructions may be used, with a particular focus on improving projections. A wide range of data sources and time periods is included, ranging from ship observations of the early 20thcentury to ice core records spanning hundreds to hundreds of thousands of years to sediment records dating back 34 million years. We conclude that paleo-proxy records and long-term observational datasets are an underused resource in terms of strategies for improving Antarctic climate projections for the 21stcentury and beyond. We identify priorities and suggest next steps to addressing this.

AB - Quantitative estimates of future Antarctic climate change are derived from numerical global climate models. Evaluation of the reliability of climate model projections involves many lines of evidence on past performance combined with knowledge of the processes that need to be represented. Routine model evaluation is mainly based on the modern observational period, which started with the establishment of a network of Antarctic weather stations in 1957/58. This period is too short to evaluate many fundamental aspects of the Antarctic and Southern Ocean climate system, such as decadal-to-century time-scale climate variability and trends. To help address this gap, we present a new evaluation of potential ways in which long-term observational and paleo-proxy reconstructions may be used, with a particular focus on improving projections. A wide range of data sources and time periods is included, ranging from ship observations of the early 20thcentury to ice core records spanning hundreds to hundreds of thousands of years to sediment records dating back 34 million years. We conclude that paleo-proxy records and long-term observational datasets are an underused resource in terms of strategies for improving Antarctic climate projections for the 21stcentury and beyond. We identify priorities and suggest next steps to addressing this.

KW - Antarctic

KW - CMIP

KW - Climate

KW - PMIP

KW - Paleoclimate

KW - Projections

KW - Southern Ocean

UR - http://www.scopus.com/inward/record.url?scp=85067925592&partnerID=8YFLogxK

U2 - 10.3390/geosciences9060255

DO - 10.3390/geosciences9060255

M3 - Review article

SN - 2076-3263

VL - 9

JO - Geosciences (Switzerland)

JF - Geosciences (Switzerland)

IS - 6

M1 - 255

ER -

Back to the future: Using long-term observational and paleo-proxy reconstructions to improve model projections of antarctic climate

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