Delayed Antarctic melt season reduces albedo feedback

Lei Liang; Huadong Guo; Shuang Liang; Xichen Li; John C Moore; Xinwu Li; Xiao Cheng; Wenjin Wu; Yan Liu; Annette Rinke; Gensuo Jia; Feifei Pan; Chen Gong

doi:10.1093/nsr/nwad157

Delayed Antarctic melt season reduces albedo feedback

Lei Liang, Huadong Guo, Shuang Liang, Xichen Li, John C Moore, Xinwu Li, Xiao Cheng, Wenjin Wu, Yan Liu, Annette Rinke, Gensuo Jia, Feifei Pan, Chen Gong

Tutkimustuotokset: Kirjoitus lehdessä tai erikoisnumeron toimittaminen › Artikkeli › Tieteellinen › vertaisarvioitu

7 Sitaatiot (Scopus)

24 Lataukset (Pure)

Abstrakti

Antarctica's response to climate change varies greatly both spatially and temporally. Surface melting impacts mass balance and also lowers surface albedo. We use a 43-year record (from 1978 to 2020) of Antarctic snow melt seasons from space-borne microwave radiometers with a machine-learning algorithm to show that both the onset and the end of the melt season are being delayed. Granger-causality analysis shows that melt end is delayed due to increased heat flux from the ocean to the atmosphere at minimum sea-ice extent from warming oceans. Melt onset is Granger-caused primarily by the turbulent heat flux from ocean to atmosphere that is in turn driven by sea-ice variability. Delayed snowmelt season leads to a net decrease in the absorption of solar irradiance, as a delayed summer means that higher albedo occurs after the period of maximum solar radiation, which changes Antarctica's radiation balance more than sea-ice cover.

Alkuperäiskieli	englanti
Artikkeli	nwad157
Sivumäärä	11
Julkaisu	National Science Review
Vuosikerta	10
Numero	9
DOI - pysyväislinkit	https://doi.org/10.1093/nsr/nwad157
Tila	Julkaistu - 27 toukok. 2023
OKM-julkaisutyyppi	A1 Vertaisarvioitu alkuperäisartikkeli

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10.1093/nsr/nwad157Lisenssi: CC BY

nwad157Lopullinen julkaistu versio, 1,83 MBLisenssi: CC BY

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title = "Delayed Antarctic melt season reduces albedo feedback",

abstract = "Antarctica's response to climate change varies greatly both spatially and temporally. Surface melting impacts mass balance and also lowers surface albedo. We use a 43-year record (from 1978 to 2020) of Antarctic snow melt seasons from space-borne microwave radiometers with a machine-learning algorithm to show that both the onset and the end of the melt season are being delayed. Granger-causality analysis shows that melt end is delayed due to increased heat flux from the ocean to the atmosphere at minimum sea-ice extent from warming oceans. Melt onset is Granger-caused primarily by the turbulent heat flux from ocean to atmosphere that is in turn driven by sea-ice variability. Delayed snowmelt season leads to a net decrease in the absorption of solar irradiance, as a delayed summer means that higher albedo occurs after the period of maximum solar radiation, which changes Antarctica's radiation balance more than sea-ice cover.",

keywords = "Antarctic ice sheet, snowmelt, season delay, sea ice, solar irradiance",

author = "Lei Liang and Huadong Guo and Shuang Liang and Xichen Li and Moore, {John C} and Xinwu Li and Xiao Cheng and Wenjin Wu and Yan Liu and Annette Rinke and Gensuo Jia and Feifei Pan and Chen Gong",

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day = "27",

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TY - JOUR

T1 - Delayed Antarctic melt season reduces albedo feedback

AU - Liang, Lei

AU - Guo, Huadong

AU - Liang, Shuang

AU - Li, Xichen

AU - Moore, John C

AU - Li, Xinwu

AU - Cheng, Xiao

AU - Wu, Wenjin

AU - Liu, Yan

AU - Rinke, Annette

AU - Jia, Gensuo

AU - Pan, Feifei

AU - Gong, Chen

PY - 2023/5/27

Y1 - 2023/5/27

N2 - Antarctica's response to climate change varies greatly both spatially and temporally. Surface melting impacts mass balance and also lowers surface albedo. We use a 43-year record (from 1978 to 2020) of Antarctic snow melt seasons from space-borne microwave radiometers with a machine-learning algorithm to show that both the onset and the end of the melt season are being delayed. Granger-causality analysis shows that melt end is delayed due to increased heat flux from the ocean to the atmosphere at minimum sea-ice extent from warming oceans. Melt onset is Granger-caused primarily by the turbulent heat flux from ocean to atmosphere that is in turn driven by sea-ice variability. Delayed snowmelt season leads to a net decrease in the absorption of solar irradiance, as a delayed summer means that higher albedo occurs after the period of maximum solar radiation, which changes Antarctica's radiation balance more than sea-ice cover.

AB - Antarctica's response to climate change varies greatly both spatially and temporally. Surface melting impacts mass balance and also lowers surface albedo. We use a 43-year record (from 1978 to 2020) of Antarctic snow melt seasons from space-borne microwave radiometers with a machine-learning algorithm to show that both the onset and the end of the melt season are being delayed. Granger-causality analysis shows that melt end is delayed due to increased heat flux from the ocean to the atmosphere at minimum sea-ice extent from warming oceans. Melt onset is Granger-caused primarily by the turbulent heat flux from ocean to atmosphere that is in turn driven by sea-ice variability. Delayed snowmelt season leads to a net decrease in the absorption of solar irradiance, as a delayed summer means that higher albedo occurs after the period of maximum solar radiation, which changes Antarctica's radiation balance more than sea-ice cover.

KW - Antarctic ice sheet

KW - snowmelt

KW - season delay

KW - sea ice

KW - solar irradiance

U2 - 10.1093/nsr/nwad157

DO - 10.1093/nsr/nwad157

M3 - Article

SN - 2095-5138

VL - 10

JO - National Science Review

JF - National Science Review

IS - 9

M1 - nwad157

ER -

Delayed Antarctic melt season reduces albedo feedback

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