The timing of the ca-660 BCE Miyake solar-proton event constrained to between 664 and 663 BCE

Irina P. Panyushkina; A. J.Timothy Jull; Mihaly Molnár; Tamás Varga; Ivan Kontul’; Rashit Hantemirov; Vladymir Kukarskih; Igor Sljusarenko; Vladymir Myglan; Valerie Livina

doi:10.1038/s43247-024-01618-x

The timing of the ca-660 BCE Miyake solar-proton event constrained to between 664 and 663 BCE

Irina P. Panyushkina, A. J.Timothy Jull, Mihaly Molnár, Tamás Varga, Ivan Kontul’, Rashit Hantemirov, Vladymir Kukarskih, Igor Sljusarenko, Vladymir Myglan, Valerie Livina

Tree-Ring Research, Laboratory of

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

Abstract

Extreme solar energetic particle events, known as Miyake events, are rare phenomena observed by cosmogenic isotopes, with only six documented. The timing of the ca. 660 BCE Miyake event remains undefined until now. Here, we assign its occurrence to 664–663 BCE through new radiocarbon measurements in gymnosperm larch tree rings from arctic-alpine biomes (Yamal and Altai). Using a 22-box carbon cycle model and Bayesian statistics, we calculate the radiocarbon production rate during the event that is 3.2–4.8 times higher than the average solar modulation, and comparable to the 774–775 CE solar-proton event. The prolonged radiocarbon signature manifests a 12‰ rise over two years. The non-uniform signal in the tree rings is likely driven by the low rate of CO₂ gas exchange between the trees and the ambient atmosphere, and the high residence time of radiocarbon in the post-event stratosphere. We caution about using the event’s pronounced signature for precise single-year-dating.

Original language	English (US)
Article number	454
Journal	Communications Earth and Environment
Volume	5
Issue number	1
DOIs	https://doi.org/10.1038/s43247-024-01618-x
State	Published - Dec 2024

ASJC Scopus subject areas

General Environmental Science
General Earth and Planetary Sciences

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title = "The timing of the ca-660 BCE Miyake solar-proton event constrained to between 664 and 663 BCE",

abstract = "Extreme solar energetic particle events, known as Miyake events, are rare phenomena observed by cosmogenic isotopes, with only six documented. The timing of the ca. 660 BCE Miyake event remains undefined until now. Here, we assign its occurrence to 664–663 BCE through new radiocarbon measurements in gymnosperm larch tree rings from arctic-alpine biomes (Yamal and Altai). Using a 22-box carbon cycle model and Bayesian statistics, we calculate the radiocarbon production rate during the event that is 3.2–4.8 times higher than the average solar modulation, and comparable to the 774–775 CE solar-proton event. The prolonged radiocarbon signature manifests a 12‰ rise over two years. The non-uniform signal in the tree rings is likely driven by the low rate of CO2 gas exchange between the trees and the ambient atmosphere, and the high residence time of radiocarbon in the post-event stratosphere. We caution about using the event{\textquoteright}s pronounced signature for precise single-year-dating.",

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doi = "10.1038/s43247-024-01618-x",

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T1 - The timing of the ca-660 BCE Miyake solar-proton event constrained to between 664 and 663 BCE

AU - Panyushkina, Irina P.

AU - Jull, A. J.Timothy

AU - Molnár, Mihaly

AU - Varga, Tamás

AU - Kontul’, Ivan

AU - Hantemirov, Rashit

AU - Kukarskih, Vladymir

AU - Sljusarenko, Igor

AU - Myglan, Vladymir

AU - Livina, Valerie

PY - 2024/12

Y1 - 2024/12

N2 - Extreme solar energetic particle events, known as Miyake events, are rare phenomena observed by cosmogenic isotopes, with only six documented. The timing of the ca. 660 BCE Miyake event remains undefined until now. Here, we assign its occurrence to 664–663 BCE through new radiocarbon measurements in gymnosperm larch tree rings from arctic-alpine biomes (Yamal and Altai). Using a 22-box carbon cycle model and Bayesian statistics, we calculate the radiocarbon production rate during the event that is 3.2–4.8 times higher than the average solar modulation, and comparable to the 774–775 CE solar-proton event. The prolonged radiocarbon signature manifests a 12‰ rise over two years. The non-uniform signal in the tree rings is likely driven by the low rate of CO2 gas exchange between the trees and the ambient atmosphere, and the high residence time of radiocarbon in the post-event stratosphere. We caution about using the event’s pronounced signature for precise single-year-dating.

AB - Extreme solar energetic particle events, known as Miyake events, are rare phenomena observed by cosmogenic isotopes, with only six documented. The timing of the ca. 660 BCE Miyake event remains undefined until now. Here, we assign its occurrence to 664–663 BCE through new radiocarbon measurements in gymnosperm larch tree rings from arctic-alpine biomes (Yamal and Altai). Using a 22-box carbon cycle model and Bayesian statistics, we calculate the radiocarbon production rate during the event that is 3.2–4.8 times higher than the average solar modulation, and comparable to the 774–775 CE solar-proton event. The prolonged radiocarbon signature manifests a 12‰ rise over two years. The non-uniform signal in the tree rings is likely driven by the low rate of CO2 gas exchange between the trees and the ambient atmosphere, and the high residence time of radiocarbon in the post-event stratosphere. We caution about using the event’s pronounced signature for precise single-year-dating.

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The timing of the ca-660 BCE Miyake solar-proton event constrained to between 664 and 663 BCE

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