The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers

Between 15 and 19 March 2022, East Antarctica experienced an exceptional heat wave with widespread 30°–40°C temperature anomalies across the ice sheet. This record-shattering event saw numerous monthly temperature records being broken including a new all-time temperature record of −9.4°C on 18 March...

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Published in:Journal of Climate
Main Authors: Wille, Jonathan D., Alexander, Simon P., Amory, Charles, Baiman, Rebecca, Barthélemy, Léonard, Bergstrom, Dana M., Berne, Alexis, Binder, Hanin, Blanchet, Juliette, Bozkurt, Deniz, Bracegirdle, Thomas J., Casado, Mathieu, Choi, Taejin, Clem, Kyle R., Codron, Francis, Datta, Rajashree, Di Battista, Stefano, Favier, Vincent, Francis, Diana, Fraser, Alexander D., Fourré, Elise, Garreaud, René D., Genthon, Christophe, Gorodetskaya, Irina V., González-Herrero, Sergi, Heinrich, Victoria J., Hubert, Guillaume, Joos, Hanna, Kim, Seong-Joong, King, John C., Kittel, Christoph, Landais, Amaelle, Lazzara, Matthew, Leonard, Gregory H., Lieser, Jan L., Maclennan, Michelle, Mikolajczyk, David, Neff, Peter, Ollivier, Inès, Sprenger, Michael, Trusel, Luke, Udy, Danielle, Vance, Tessa, Vignon, Étienne, Walker, Catherine, Weaver, Nander, Zou, Xun
Format: Article in Journal/Newspaper
Language:English
Published: American Meteorological Society 2024
Subjects:
Antarctic
Concordia Station
East Antarctica
Indian
The Antarctic
Antarc*
Antarctica
Ice Sheet
Online Access:http://nora.nerc.ac.uk/id/eprint/536267/
https://nora.nerc.ac.uk/id/eprint/536267/1/clim-JCLI-D-23-0175.1.pdf
https://journals.ametsoc.org/view/journals/clim/aop/JCLI-D-23-0175.1/JCLI-D-23-0175.1.xml
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collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language English
description Between 15 and 19 March 2022, East Antarctica experienced an exceptional heat wave with widespread 30°–40°C temperature anomalies across the ice sheet. This record-shattering event saw numerous monthly temperature records being broken including a new all-time temperature record of −9.4°C on 18 March at Concordia Station despite March typically being a transition month to the Antarctic coreless winter. The driver for these temperature extremes was an intense atmospheric river advecting subtropical/midlatitude heat and moisture deep into the Antarctic interior. The scope of the temperature records spurred a large, diverse collaborative effort to study the heat wave’s meteorological drivers, impacts, and historical climate context. Here we focus on describing those temperature records along with the intricate meteorological drivers that led to the most intense atmospheric river observed over East Antarctica. These efforts describe the Rossby wave activity forced from intense tropical convection over the Indian Ocean. This led to an atmospheric river and warm conveyor belt intensification near the coastline, which reinforced atmospheric blocking deep into East Antarctica. The resulting moisture flux and upper-level warm-air advection eroded the typical surface temperature inversions over the ice sheet. At the peak of the heat wave, an area of 3.3 million km2 in East Antarctica exceeded previous March monthly temperature records. Despite a temperature anomaly return time of about 100 years, a closer recurrence of such an event is possible under future climate projections. In Part II we describe the various impacts this extreme event had on the East Antarctic cryosphere.
format Article in Journal/Newspaper
author Wille, Jonathan D.
Alexander, Simon P.
Amory, Charles
Baiman, Rebecca
Barthélemy, Léonard
Bergstrom, Dana M.
Berne, Alexis
Binder, Hanin
Blanchet, Juliette
Bozkurt, Deniz
Bracegirdle, Thomas J.
Casado, Mathieu
Choi, Taejin
Clem, Kyle R.
Codron, Francis
Datta, Rajashree
Di Battista, Stefano
Favier, Vincent
Francis, Diana
Fraser, Alexander D.
Fourré, Elise
Garreaud, René D.
Genthon, Christophe
Gorodetskaya, Irina V.
González-Herrero, Sergi
Heinrich, Victoria J.
Hubert, Guillaume
Joos, Hanna
Kim, Seong-Joong
King, John C.
Kittel, Christoph
Landais, Amaelle
Lazzara, Matthew
Leonard, Gregory H.
Lieser, Jan L.
Maclennan, Michelle
Mikolajczyk, David
Neff, Peter
Ollivier, Inès
Sprenger, Michael
Trusel, Luke
Udy, Danielle
Vance, Tessa
Vignon, Étienne
Walker, Catherine
Weaver, Nander
Zou, Xun
spellingShingle Wille, Jonathan D.
Alexander, Simon P.
Amory, Charles
Baiman, Rebecca
Barthélemy, Léonard
Bergstrom, Dana M.
Berne, Alexis
Binder, Hanin
Blanchet, Juliette
Bozkurt, Deniz
Bracegirdle, Thomas J.
Casado, Mathieu
Choi, Taejin
Clem, Kyle R.
Codron, Francis
Datta, Rajashree
Di Battista, Stefano
Favier, Vincent
Francis, Diana
Fraser, Alexander D.
Fourré, Elise
Garreaud, René D.
Genthon, Christophe
Gorodetskaya, Irina V.
González-Herrero, Sergi
Heinrich, Victoria J.
Hubert, Guillaume
Joos, Hanna
Kim, Seong-Joong
King, John C.
Kittel, Christoph
Landais, Amaelle
Lazzara, Matthew
Leonard, Gregory H.
Lieser, Jan L.
Maclennan, Michelle
Mikolajczyk, David
Neff, Peter
Ollivier, Inès
Sprenger, Michael
Trusel, Luke
Udy, Danielle
Vance, Tessa
Vignon, Étienne
Walker, Catherine
Weaver, Nander
Zou, Xun
The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers
author_facet Wille, Jonathan D.
Alexander, Simon P.
Amory, Charles
Baiman, Rebecca
Barthélemy, Léonard
Bergstrom, Dana M.
Berne, Alexis
Binder, Hanin
Blanchet, Juliette
Bozkurt, Deniz
Bracegirdle, Thomas J.
Casado, Mathieu
Choi, Taejin
Clem, Kyle R.
Codron, Francis
Datta, Rajashree
Di Battista, Stefano
Favier, Vincent
Francis, Diana
Fraser, Alexander D.
Fourré, Elise
Garreaud, René D.
Genthon, Christophe
Gorodetskaya, Irina V.
González-Herrero, Sergi
Heinrich, Victoria J.
Hubert, Guillaume
Joos, Hanna
Kim, Seong-Joong
King, John C.
Kittel, Christoph
Landais, Amaelle
Lazzara, Matthew
Leonard, Gregory H.
Lieser, Jan L.
Maclennan, Michelle
Mikolajczyk, David
Neff, Peter
Ollivier, Inès
Sprenger, Michael
Trusel, Luke
Udy, Danielle
Vance, Tessa
Vignon, Étienne
Walker, Catherine
Weaver, Nander
Zou, Xun
author_sort Wille, Jonathan D.
title The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers
title_short The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers
title_full The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers
title_fullStr The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers
title_full_unstemmed The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers
title_sort extraordinary march 2022 east antarctica “heat” wave. part i: observations and meteorological drivers
publisher American Meteorological Society
publishDate 2024
url http://nora.nerc.ac.uk/id/eprint/536267/
https://nora.nerc.ac.uk/id/eprint/536267/1/clim-JCLI-D-23-0175.1.pdf
https://journals.ametsoc.org/view/journals/clim/aop/JCLI-D-23-0175.1/JCLI-D-23-0175.1.xml
long_lat ENVELOPE(123.333,123.333,-75.100,-75.100)
geographic Antarctic
Concordia Station
East Antarctica
Indian
The Antarctic
geographic_facet Antarctic
Concordia Station
East Antarctica
Indian
The Antarctic
genre Antarc*
Antarctic
Antarctica
East Antarctica
Ice Sheet
genre_facet Antarc*
Antarctic
Antarctica
East Antarctica
Ice Sheet
op_relation https://nora.nerc.ac.uk/id/eprint/536267/1/clim-JCLI-D-23-0175.1.pdf
Wille, Jonathan D.; Alexander, Simon P.; Amory, Charles; Baiman, Rebecca; Barthélemy, Léonard; Bergstrom, Dana M.; Berne, Alexis; Binder, Hanin; Blanchet, Juliette; Bozkurt, Deniz; Bracegirdle, Thomas J. orcid:0000-0002-8868-4739
Casado, Mathieu; Choi, Taejin; Clem, Kyle R.; Codron, Francis; Datta, Rajashree; Di Battista, Stefano; Favier, Vincent; Francis, Diana; Fraser, Alexander D.; Fourré, Elise; Garreaud, René D.; Genthon, Christophe; Gorodetskaya, Irina V.; González-Herrero, Sergi; Heinrich, Victoria J.; Hubert, Guillaume; Joos, Hanna; Kim, Seong-Joong; King, John C. orcid:0000-0003-3315-7568
Kittel, Christoph; Landais, Amaelle; Lazzara, Matthew; Leonard, Gregory H.; Lieser, Jan L.; Maclennan, Michelle; Mikolajczyk, David; Neff, Peter; Ollivier, Inès; Sprenger, Michael; Trusel, Luke; Udy, Danielle; Vance, Tessa; Vignon, Étienne; Walker, Catherine; Weaver, Nander; Zou, Xun. 2024 The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers. Journal of Climate, 37 (3). 757-778. https://doi.org/10.1175/JCLI-D-23-0175.1 <https://doi.org/10.1175/JCLI-D-23-0175.1>
op_rights cc_by_4
op_doi https://doi.org/10.1175/JCLI-D-23-0175.1
container_title Journal of Climate
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spelling ftnerc:oai:nora.nerc.ac.uk:536267 2024-02-11T09:58:36+01:00 The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers Wille, Jonathan D. Alexander, Simon P. Amory, Charles Baiman, Rebecca Barthélemy, Léonard Bergstrom, Dana M. Berne, Alexis Binder, Hanin Blanchet, Juliette Bozkurt, Deniz Bracegirdle, Thomas J. Casado, Mathieu Choi, Taejin Clem, Kyle R. Codron, Francis Datta, Rajashree Di Battista, Stefano Favier, Vincent Francis, Diana Fraser, Alexander D. Fourré, Elise Garreaud, René D. Genthon, Christophe Gorodetskaya, Irina V. González-Herrero, Sergi Heinrich, Victoria J. Hubert, Guillaume Joos, Hanna Kim, Seong-Joong King, John C. Kittel, Christoph Landais, Amaelle Lazzara, Matthew Leonard, Gregory H. Lieser, Jan L. Maclennan, Michelle Mikolajczyk, David Neff, Peter Ollivier, Inès Sprenger, Michael Trusel, Luke Udy, Danielle Vance, Tessa Vignon, Étienne Walker, Catherine Weaver, Nander Zou, Xun 2024-02 text http://nora.nerc.ac.uk/id/eprint/536267/ https://nora.nerc.ac.uk/id/eprint/536267/1/clim-JCLI-D-23-0175.1.pdf https://journals.ametsoc.org/view/journals/clim/aop/JCLI-D-23-0175.1/JCLI-D-23-0175.1.xml en eng American Meteorological Society https://nora.nerc.ac.uk/id/eprint/536267/1/clim-JCLI-D-23-0175.1.pdf Wille, Jonathan D.; Alexander, Simon P.; Amory, Charles; Baiman, Rebecca; Barthélemy, Léonard; Bergstrom, Dana M.; Berne, Alexis; Binder, Hanin; Blanchet, Juliette; Bozkurt, Deniz; Bracegirdle, Thomas J. orcid:0000-0002-8868-4739 Casado, Mathieu; Choi, Taejin; Clem, Kyle R.; Codron, Francis; Datta, Rajashree; Di Battista, Stefano; Favier, Vincent; Francis, Diana; Fraser, Alexander D.; Fourré, Elise; Garreaud, René D.; Genthon, Christophe; Gorodetskaya, Irina V.; González-Herrero, Sergi; Heinrich, Victoria J.; Hubert, Guillaume; Joos, Hanna; Kim, Seong-Joong; King, John C. orcid:0000-0003-3315-7568 Kittel, Christoph; Landais, Amaelle; Lazzara, Matthew; Leonard, Gregory H.; Lieser, Jan L.; Maclennan, Michelle; Mikolajczyk, David; Neff, Peter; Ollivier, Inès; Sprenger, Michael; Trusel, Luke; Udy, Danielle; Vance, Tessa; Vignon, Étienne; Walker, Catherine; Weaver, Nander; Zou, Xun. 2024 The Extraordinary March 2022 East Antarctica “Heat” Wave. Part I: Observations and Meteorological Drivers. Journal of Climate, 37 (3). 757-778. https://doi.org/10.1175/JCLI-D-23-0175.1 <https://doi.org/10.1175/JCLI-D-23-0175.1> cc_by_4 Publication - Article PeerReviewed 2024 ftnerc https://doi.org/10.1175/JCLI-D-23-0175.1 2024-01-12T00:03:13Z Between 15 and 19 March 2022, East Antarctica experienced an exceptional heat wave with widespread 30°–40°C temperature anomalies across the ice sheet. This record-shattering event saw numerous monthly temperature records being broken including a new all-time temperature record of −9.4°C on 18 March at Concordia Station despite March typically being a transition month to the Antarctic coreless winter. The driver for these temperature extremes was an intense atmospheric river advecting subtropical/midlatitude heat and moisture deep into the Antarctic interior. The scope of the temperature records spurred a large, diverse collaborative effort to study the heat wave’s meteorological drivers, impacts, and historical climate context. Here we focus on describing those temperature records along with the intricate meteorological drivers that led to the most intense atmospheric river observed over East Antarctica. These efforts describe the Rossby wave activity forced from intense tropical convection over the Indian Ocean. This led to an atmospheric river and warm conveyor belt intensification near the coastline, which reinforced atmospheric blocking deep into East Antarctica. The resulting moisture flux and upper-level warm-air advection eroded the typical surface temperature inversions over the ice sheet. At the peak of the heat wave, an area of 3.3 million km2 in East Antarctica exceeded previous March monthly temperature records. Despite a temperature anomaly return time of about 100 years, a closer recurrence of such an event is possible under future climate projections. In Part II we describe the various impacts this extreme event had on the East Antarctic cryosphere. Article in Journal/Newspaper Antarc* Antarctic Antarctica East Antarctica Ice Sheet Natural Environment Research Council: NERC Open Research Archive Antarctic Concordia Station ENVELOPE(123.333,123.333,-75.100,-75.100) East Antarctica Indian The Antarctic Journal of Climate

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