The Extraordinary March 2022 East Antarctica “Heat” Wave. Part II: Impacts on the Antarctic Ice Sheet

Jonathan D. Wille; Simon P. Alexander; Charles Amory; Rebecca Baiman; Léonard Barthélemy; Dana M. Bergstrom; Alexis Berne; Hanin Binder; Juliette Blanchet; Deniz Bozkurt; Thomas J. Bracegirdle; Mathieu Casado; Taejin Choi; Kyle R. Clem; Francis Codron; Rajashree Datta; Stefano Di Battista; Vincent Favier; Diana Francis; Alexander D. Fraser; Elise Fourré; René D. Garreaud; Christophe Genthon; Irina V. Gorodetskaya; Sergi González-Herrero; Victoria J. Heinrich; Guillaume Hubert; Hanna Joos; Seong Joong Kim; John C. King; Christoph Kittel; Amaelle Landais; Matthew Lazzara; Gregory H. Leonard; Jan L. Lieser; Michelle Maclennan; David Mikolajczyk; Peter Neff; Inès Ollivier; Ghislain Picard; Benjamin Pohl; F. Martin Ralph; Penny Rowe; Elisabeth Schlosser; Christine A. Shields; Inga J. Smith; Michael Sprenger; Luke Trusel; Danielle Udy; Tessa Vance; Étienne Vignon; Catherine Walker; Nander Wever; Xun Zou

doi:10.1175/JCLI-D-23-0176.1

The Extraordinary March 2022 East Antarctica “Heat” Wave. Part II: Impacts on the Antarctic Ice Sheet

Jonathan D. Wille, Simon P. Alexander, Charles Amory, Rebecca Baiman, Léonard Barthélemy, Dana M. Bergstrom, Alexis Berne, Hanin Binder, Juliette Blanchet, Deniz Bozkurt, Thomas J. Bracegirdle, Mathieu Casado, Taejin Choi, Kyle R. Clem, Francis Codron, Rajashree Datta, Stefano Di Battista, Vincent Favier, Diana Francis, Alexander D. FraserElise Fourré, René D. Garreaud, Christophe Genthon, Irina V. Gorodetskaya, Sergi González-Herrero, Victoria J. Heinrich, Guillaume Hubert, Hanna Joos, Seong Joong Kim, John C. King, Christoph Kittel, Amaelle Landais, Matthew Lazzara, Gregory H. Leonard, Jan L. Lieser, Michelle Maclennan, David Mikolajczyk, Peter Neff, Inès Ollivier, Ghislain Picard, Benjamin Pohl, F. Martin Ralph, Penny Rowe, Elisabeth Schlosser, Christine A. Shields, Inga J. Smith, Michael Sprenger, Luke Trusel, Danielle Udy, Tessa Vance, Étienne Vignon, Catherine Walker, Nander Wever, Xun Zou

Soil, Water, and Climate

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Abstract

Between 15 and 19 March 2022, East Antarctica experienced an exceptional heat wave with widespread 308–408C temperature anomalies across the ice sheet. In Part I, we assessed the meteorological drivers that generated an intense atmospheric river (AR) that caused these record-shattering temperature anomalies. Here, we continue our large collaborative study by analyzing the widespread and diverse impacts driven by the AR landfall. These impacts included widespread rain and surface melt that was recorded along coastal areas, but this was outweighed by widespread high snowfall accumulations resulting in a largely positive surface mass balance contribution to the East Antarctic region. An analysis of the surface energy budget indicated that widespread downward longwave radiation anomalies caused by large cloud-liquid water contents along with some scattered solar radiation produced intense surface warming. Isotope measurements of the moisture were highly elevated, likely imprinting a strong signal for past climate reconstructions. The AR event attenuated cosmic ray measurements at Concordia, something previously never observed. Last, an extratropical cyclone west of the AR landfall likely triggered the final collapse of the critically unstable Conger Ice Shelf while further reducing an already record low sea ice extent.

Original language	English (US)
Pages (from-to)	779-799
Number of pages	21
Journal	Journal of Climate
Volume	37
Issue number	3
DOIs	https://doi.org/10.1175/JCLI-D-23-0176.1
State	Published - Feb 10 2024

Bibliographical note

Publisher Copyright:
© 2024 American Meteorological Society.

Keywords

Antarctica
Energy budget/balance
Ice shelves
Paleoclimate
Snow

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Wille, J. D., Alexander, S. P., Amory, C., Baiman, R., Barthélemy, L., Bergstrom, D. M., Berne, A., Binder, H., Blanchet, J., Bozkurt, D., Bracegirdle, T. J., Casado, M., Choi, T., Clem, K. R., Codron, F., Datta, R., Di Battista, S., Favier, V., Francis, D., ... Zou, X. (2024). The Extraordinary March 2022 East Antarctica “Heat” Wave. Part II: Impacts on the Antarctic Ice Sheet. Journal of Climate, 37(3), 779-799. https://doi.org/10.1175/JCLI-D-23-0176.1

Wille, JD, Alexander, SP, Amory, C, Baiman, R, Barthélemy, L, Bergstrom, DM, Berne, A, Binder, H, Blanchet, J, Bozkurt, D, Bracegirdle, TJ, Casado, M, Choi, T, Clem, KR, Codron, F, Datta, R, Di Battista, S, Favier, V, Francis, D, Fraser, AD, Fourré, E, Garreaud, RD, Genthon, C, Gorodetskaya, IV, González-Herrero, S, Heinrich, VJ, Hubert, G, Joos, H, Kim, SJ, King, JC, Kittel, C, Landais, A, Lazzara, M, Leonard, GH, Lieser, JL, Maclennan, M, Mikolajczyk, D, Neff, P, Ollivier, I, Picard, G, Pohl, B, Ralph, FM, Rowe, P, Schlosser, E, Shields, CA, Smith, IJ, Sprenger, M, Trusel, L, Udy, D, Vance, T, Vignon, É, Walker, C, Wever, N & Zou, X 2024, 'The Extraordinary March 2022 East Antarctica “Heat” Wave. Part II: Impacts on the Antarctic Ice Sheet', Journal of Climate, vol. 37, no. 3, pp. 779-799. https://doi.org/10.1175/JCLI-D-23-0176.1

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title = "The Extraordinary March 2022 East Antarctica “Heat” Wave. Part II: Impacts on the Antarctic Ice Sheet",

abstract = "Between 15 and 19 March 2022, East Antarctica experienced an exceptional heat wave with widespread 308–408C temperature anomalies across the ice sheet. In Part I, we assessed the meteorological drivers that generated an intense atmospheric river (AR) that caused these record-shattering temperature anomalies. Here, we continue our large collaborative study by analyzing the widespread and diverse impacts driven by the AR landfall. These impacts included widespread rain and surface melt that was recorded along coastal areas, but this was outweighed by widespread high snowfall accumulations resulting in a largely positive surface mass balance contribution to the East Antarctic region. An analysis of the surface energy budget indicated that widespread downward longwave radiation anomalies caused by large cloud-liquid water contents along with some scattered solar radiation produced intense surface warming. Isotope measurements of the moisture were highly elevated, likely imprinting a strong signal for past climate reconstructions. The AR event attenuated cosmic ray measurements at Concordia, something previously never observed. Last, an extratropical cyclone west of the AR landfall likely triggered the final collapse of the critically unstable Conger Ice Shelf while further reducing an already record low sea ice extent.",

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author = "Wille, {Jonathan D.} and Alexander, {Simon P.} and Charles Amory and Rebecca Baiman and L{\'e}onard Barth{\'e}lemy and Bergstrom, {Dana M.} and Alexis Berne and Hanin Binder and Juliette Blanchet and Deniz Bozkurt and Bracegirdle, {Thomas J.} and Mathieu Casado and Taejin Choi and Clem, {Kyle R.} and Francis Codron and Rajashree Datta and {Di Battista}, Stefano and Vincent Favier and Diana Francis and Fraser, {Alexander D.} and Elise Fourr{\'e} and Garreaud, {Ren{\'e} D.} and Christophe Genthon and Gorodetskaya, {Irina V.} and Sergi Gonz{\'a}lez-Herrero and Heinrich, {Victoria J.} and Guillaume Hubert and Hanna Joos and Kim, {Seong Joong} and King, {John C.} and Christoph Kittel and Amaelle Landais and Matthew Lazzara and Leonard, {Gregory H.} and Lieser, {Jan L.} and Michelle Maclennan and David Mikolajczyk and Peter Neff and In{\`e}s Ollivier and Ghislain Picard and Benjamin Pohl and Ralph, {F. Martin} and Penny Rowe and Elisabeth Schlosser and Shields, {Christine A.} and Smith, {Inga J.} and Michael Sprenger and Luke Trusel and Danielle Udy and Tessa Vance and {\'E}tienne Vignon and Catherine Walker and Nander Wever and Xun Zou",

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AU - Baiman, Rebecca

AU - Barthélemy, Léonard

AU - Bergstrom, Dana M.

AU - Berne, Alexis

AU - Binder, Hanin

AU - Blanchet, Juliette

AU - Bozkurt, Deniz

AU - Bracegirdle, Thomas J.

AU - Casado, Mathieu

AU - Choi, Taejin

AU - Clem, Kyle R.

AU - Codron, Francis

AU - Datta, Rajashree

AU - Di Battista, Stefano

AU - Favier, Vincent

AU - Francis, Diana

AU - Fraser, Alexander D.

AU - Fourré, Elise

AU - Garreaud, René D.

AU - Genthon, Christophe

AU - Gorodetskaya, Irina V.

AU - González-Herrero, Sergi

AU - Heinrich, Victoria J.

AU - Hubert, Guillaume

AU - Joos, Hanna

AU - Kim, Seong Joong

AU - King, John C.

AU - Kittel, Christoph

AU - Landais, Amaelle

AU - Lazzara, Matthew

AU - Leonard, Gregory H.

AU - Lieser, Jan L.

AU - Maclennan, Michelle

AU - Mikolajczyk, David

AU - Neff, Peter

AU - Ollivier, Inès

AU - Picard, Ghislain

AU - Pohl, Benjamin

AU - Ralph, F. Martin

AU - Rowe, Penny

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AU - Shields, Christine A.

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AU - Sprenger, Michael

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AU - Udy, Danielle

AU - Vance, Tessa

AU - Vignon, Étienne

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AU - Wever, Nander

AU - Zou, Xun

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N2 - Between 15 and 19 March 2022, East Antarctica experienced an exceptional heat wave with widespread 308–408C temperature anomalies across the ice sheet. In Part I, we assessed the meteorological drivers that generated an intense atmospheric river (AR) that caused these record-shattering temperature anomalies. Here, we continue our large collaborative study by analyzing the widespread and diverse impacts driven by the AR landfall. These impacts included widespread rain and surface melt that was recorded along coastal areas, but this was outweighed by widespread high snowfall accumulations resulting in a largely positive surface mass balance contribution to the East Antarctic region. An analysis of the surface energy budget indicated that widespread downward longwave radiation anomalies caused by large cloud-liquid water contents along with some scattered solar radiation produced intense surface warming. Isotope measurements of the moisture were highly elevated, likely imprinting a strong signal for past climate reconstructions. The AR event attenuated cosmic ray measurements at Concordia, something previously never observed. Last, an extratropical cyclone west of the AR landfall likely triggered the final collapse of the critically unstable Conger Ice Shelf while further reducing an already record low sea ice extent.

AB - Between 15 and 19 March 2022, East Antarctica experienced an exceptional heat wave with widespread 308–408C temperature anomalies across the ice sheet. In Part I, we assessed the meteorological drivers that generated an intense atmospheric river (AR) that caused these record-shattering temperature anomalies. Here, we continue our large collaborative study by analyzing the widespread and diverse impacts driven by the AR landfall. These impacts included widespread rain and surface melt that was recorded along coastal areas, but this was outweighed by widespread high snowfall accumulations resulting in a largely positive surface mass balance contribution to the East Antarctic region. An analysis of the surface energy budget indicated that widespread downward longwave radiation anomalies caused by large cloud-liquid water contents along with some scattered solar radiation produced intense surface warming. Isotope measurements of the moisture were highly elevated, likely imprinting a strong signal for past climate reconstructions. The AR event attenuated cosmic ray measurements at Concordia, something previously never observed. Last, an extratropical cyclone west of the AR landfall likely triggered the final collapse of the critically unstable Conger Ice Shelf while further reducing an already record low sea ice extent.

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KW - Energy budget/balance

KW - Ice shelves

KW - Paleoclimate

KW - Snow

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VL - 37

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JO - Journal of Climate

JF - Journal of Climate

IS - 3

ER -

The Extraordinary March 2022 East Antarctica “Heat” Wave. Part II: Impacts on the Antarctic Ice Sheet

Abstract

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Keywords

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