Multidecadally resolved polarity oscillations during a geomagnetic excursion

Yu Min Chou; Xiuyang Jiang; Qingsong Liu; Hsun Ming Hu; Chung Che Wu; Jianxing Liu; Zhaoxia Jiang; Teh Quei Lee; Chun Chieh Wang; Yen Fang Song; Cheng Cheng Chiang; Liangcheng Tan; Mahjoor A. Lone; Yongxin Pan; Rixiang Zhu; Yaoqi He; Yu Chen Chou; An Hung Tan; Andrew P. Roberts; Xiang Zhao; Chuan Chou Shen

doi:10.1073/pnas.1720404115

Multidecadally resolved polarity oscillations during a geomagnetic excursion

Yu Min Chou, Xiuyang Jiang, Qingsong Liu, Hsun Ming Hu, Chung Che Wu, Jianxing Liu, Zhaoxia Jiang, Teh Quei Lee, Chun Chieh Wang, Yen Fang Song, Cheng Cheng Chiang, Liangcheng Tan, Mahjoor A. Lone, Yongxin Pan, Rixiang Zhu, Yaoqi He, Yu Chen Chou, An Hung Tan, Andrew P. Roberts, Xiang ZhaoChuan Chou Shen^*

^*Corresponding author for this work

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

22 Citations (Scopus)

Abstract

Polarity reversals of the geomagnetic field have occurred through billions of years of Earth history and were first revealed in the early 20th century. Almost a century later, details of transitional field behavior during geomagnetic reversals and excursions remain poorly known. Here, we present a multidecadally resolved geomagnetic excursion record from a radioisotopically dated Chinese stalagmite at 107–91 thousand years before present with age precision of several decades. The duration of geomagnetic directional oscillations ranged from several centuries at 106–103 thousand years before present to millennia at 98–92 thousand years before present, with one abrupt reversal transition occurring in one to two centuries when the field was weakest. These features indicate prolonged geodynamo instability. Repeated asymmetrical interhemispheric polarity drifts associated with weak dipole fields likely originated in Earth’s deep interior. If such rapid polarity changes occurred in future, they could severely affect satellites and human society.

Original language	English
Pages (from-to)	8913-8918
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	115
Issue number	36
DOIs	https://doi.org/10.1073/pnas.1720404115
Publication status	Published - 4 Sept 2018

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Chou, Y. M., Jiang, X., Liu, Q., Hu, H. M., Wu, C. C., Liu, J., Jiang, Z., Lee, T. Q., Wang, C. C., Song, Y. F., Chiang, C. C., Tan, L., Lone, M. A., Pan, Y., Zhu, R., He, Y., Chou, Y. C., Tan, A. H., Roberts, A. P., ... Shen, C. C. (2018). Multidecadally resolved polarity oscillations during a geomagnetic excursion. Proceedings of the National Academy of Sciences of the United States of America, 115(36), 8913-8918. https://doi.org/10.1073/pnas.1720404115

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title = "Multidecadally resolved polarity oscillations during a geomagnetic excursion",

abstract = "Polarity reversals of the geomagnetic field have occurred through billions of years of Earth history and were first revealed in the early 20th century. Almost a century later, details of transitional field behavior during geomagnetic reversals and excursions remain poorly known. Here, we present a multidecadally resolved geomagnetic excursion record from a radioisotopically dated Chinese stalagmite at 107–91 thousand years before present with age precision of several decades. The duration of geomagnetic directional oscillations ranged from several centuries at 106–103 thousand years before present to millennia at 98–92 thousand years before present, with one abrupt reversal transition occurring in one to two centuries when the field was weakest. These features indicate prolonged geodynamo instability. Repeated asymmetrical interhemispheric polarity drifts associated with weak dipole fields likely originated in Earth{\textquoteright}s deep interior. If such rapid polarity changes occurred in future, they could severely affect satellites and human society.",

keywords = "Abrupt reversal transition, Asymmetrical interhemispheric polarity drifts, Geomagnetic excursion, Multidecadally resolved polarity oscillations, Stalagmite U-Th dating",

author = "Chou, {Yu Min} and Xiuyang Jiang and Qingsong Liu and Hu, {Hsun Ming} and Wu, {Chung Che} and Jianxing Liu and Zhaoxia Jiang and Lee, {Teh Quei} and Wang, {Chun Chieh} and Song, {Yen Fang} and Chiang, {Cheng Cheng} and Liangcheng Tan and Lone, {Mahjoor A.} and Yongxin Pan and Rixiang Zhu and Yaoqi He and Chou, {Yu Chen} and Tan, {An Hung} and Roberts, {Andrew P.} and Xiang Zhao and Shen, {Chuan Chou}",

year = "2018",

month = sep,

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doi = "10.1073/pnas.1720404115",

language = "English",

volume = "115",

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Chou, YM, Jiang, X, Liu, Q, Hu, HM, Wu, CC, Liu, J, Jiang, Z, Lee, TQ, Wang, CC, Song, YF, Chiang, CC, Tan, L, Lone, MA, Pan, Y, Zhu, R, He, Y, Chou, YC, Tan, AH, Roberts, AP, Zhao, X & Shen, CC 2018, 'Multidecadally resolved polarity oscillations during a geomagnetic excursion', Proceedings of the National Academy of Sciences of the United States of America, vol. 115, no. 36, pp. 8913-8918. https://doi.org/10.1073/pnas.1720404115

TY - JOUR

T1 - Multidecadally resolved polarity oscillations during a geomagnetic excursion

AU - Chou, Yu Min

AU - Jiang, Xiuyang

AU - Liu, Qingsong

AU - Hu, Hsun Ming

AU - Wu, Chung Che

AU - Liu, Jianxing

AU - Jiang, Zhaoxia

AU - Lee, Teh Quei

AU - Wang, Chun Chieh

AU - Song, Yen Fang

AU - Chiang, Cheng Cheng

AU - Tan, Liangcheng

AU - Lone, Mahjoor A.

AU - Pan, Yongxin

AU - Zhu, Rixiang

AU - He, Yaoqi

AU - Chou, Yu Chen

AU - Tan, An Hung

AU - Roberts, Andrew P.

AU - Zhao, Xiang

AU - Shen, Chuan Chou

PY - 2018/9/4

Y1 - 2018/9/4

N2 - Polarity reversals of the geomagnetic field have occurred through billions of years of Earth history and were first revealed in the early 20th century. Almost a century later, details of transitional field behavior during geomagnetic reversals and excursions remain poorly known. Here, we present a multidecadally resolved geomagnetic excursion record from a radioisotopically dated Chinese stalagmite at 107–91 thousand years before present with age precision of several decades. The duration of geomagnetic directional oscillations ranged from several centuries at 106–103 thousand years before present to millennia at 98–92 thousand years before present, with one abrupt reversal transition occurring in one to two centuries when the field was weakest. These features indicate prolonged geodynamo instability. Repeated asymmetrical interhemispheric polarity drifts associated with weak dipole fields likely originated in Earth’s deep interior. If such rapid polarity changes occurred in future, they could severely affect satellites and human society.

AB - Polarity reversals of the geomagnetic field have occurred through billions of years of Earth history and were first revealed in the early 20th century. Almost a century later, details of transitional field behavior during geomagnetic reversals and excursions remain poorly known. Here, we present a multidecadally resolved geomagnetic excursion record from a radioisotopically dated Chinese stalagmite at 107–91 thousand years before present with age precision of several decades. The duration of geomagnetic directional oscillations ranged from several centuries at 106–103 thousand years before present to millennia at 98–92 thousand years before present, with one abrupt reversal transition occurring in one to two centuries when the field was weakest. These features indicate prolonged geodynamo instability. Repeated asymmetrical interhemispheric polarity drifts associated with weak dipole fields likely originated in Earth’s deep interior. If such rapid polarity changes occurred in future, they could severely affect satellites and human society.

KW - Abrupt reversal transition

KW - Asymmetrical interhemispheric polarity drifts

KW - Geomagnetic excursion

KW - Multidecadally resolved polarity oscillations

KW - Stalagmite U-Th dating

UR - http://www.scopus.com/inward/record.url?scp=85052751331&partnerID=8YFLogxK

U2 - 10.1073/pnas.1720404115

DO - 10.1073/pnas.1720404115

M3 - Article

SN - 0027-8424

VL - 115

SP - 8913

EP - 8918

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 36

ER -

Multidecadally resolved polarity oscillations during a geomagnetic excursion

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