Tree-rings reveal two strong solar proton events in 7176 and 5259 BCE

Nicolas Brehm; Marcus Christl; Timothy D. J. Knowles; Emmanuelle Casanova; Richard P. Evershed; Florian Adolphi; Raimund Muscheler; Hans-Arno Synal; Florian Mekhaldi; Chiara I. Paleari; Hanns-Hubert Leuschner; Alex Bayliss; Kurt Nicolussi; Thomas Pichler; Christian Schlüchter; Charlotte L. Pearson; Matthew W. Salzer; Patrick Fonti; Daniel Nievergelt; Rashit Hantemirov; David M. Brown; Ilya Usoskin; Lukas Wacker

doi:10.1038/s41467-022-28804-9

Tree-rings reveal two strong solar proton events in 7176 and 5259 BCE

Nicolas Brehm^*, Marcus Christl^*, Timothy D. J. Knowles, Emmanuelle Casanova, Richard P. Evershed, Florian Adolphi, Raimund Muscheler, Hans-Arno Synal, Florian Mekhaldi, Chiara I. Paleari, Hanns-Hubert Leuschner, Alex Bayliss, Kurt Nicolussi, Thomas Pichler, Christian Schlüchter, Charlotte L. Pearson, Matthew W. Salzer, Patrick Fonti, Daniel Nievergelt, Rashit HantemirovDavid M. Brown, Ilya Usoskin, Lukas Wacker^*

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

The Sun sporadically produces eruptive events leading to intense fluxes of solar energetic particles (SEPs) that dramatically disrupt the near-Earth radiation environment. Such events have been directly studied for the last decades but little is known about the occurrence and magnitude of rare, extreme SEP events. Presently, a few events that produced measurable signals in cosmogenic radionuclides such as 14C, 10Be and 36Cl have been found. Analyzing annual 14C concentrations in tree-rings from Switzerland, Germany, Ireland, Russia, and the USA we discovered two spikes in atmospheric 14C occurring in 7176 and 5259 BCE. The ~2% increases of atmospheric 14C recorded for both events exceed all previously known 14C peaks but after correction for the geomagnetic field, they are comparable to the largest event of this type discovered so far at 775 CE. These strong events serve as accurate time markers for the synchronization with floating tree-ring and ice core records and provide critical information on the previous occurrence of extreme solar events which may threaten modern infrastructure.

Original language	English
Pages (from-to)	1-8
Number of pages	8
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-28804-9
Publication status	Published - 7 Mar 2022

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Brehm, N., Christl, M., Knowles, T. D. J., Casanova, E., Evershed, R. P., Adolphi, F., Muscheler, R., Synal, H.-A., Mekhaldi, F., Paleari, C. I., Leuschner, H.-H., Bayliss, A., Nicolussi, K., Pichler, T., Schlüchter, C., Pearson, C. L., Salzer, M. W., Fonti, P., Nievergelt, D., ... Wacker, L. (2022). Tree-rings reveal two strong solar proton events in 7176 and 5259 BCE. Nature Communications, 13(1), 1-8. https://doi.org/10.1038/s41467-022-28804-9

@article{5a0c0f5908ce46bc85a707d28b061917,

title = "Tree-rings reveal two strong solar proton events in 7176 and 5259 BCE",

abstract = "The Sun sporadically produces eruptive events leading to intense fluxes of solar energetic particles (SEPs) that dramatically disrupt the near-Earth radiation environment. Such events have been directly studied for the last decades but little is known about the occurrence and magnitude of rare, extreme SEP events. Presently, a few events that produced measurable signals in cosmogenic radionuclides such as 14C, 10Be and 36Cl have been found. Analyzing annual 14C concentrations in tree-rings from Switzerland, Germany, Ireland, Russia, and the USA we discovered two spikes in atmospheric 14C occurring in 7176 and 5259 BCE. The \textasciitilde{}2\% increases of atmospheric 14C recorded for both events exceed all previously known 14C peaks but after correction for the geomagnetic field, they are comparable to the largest event of this type discovered so far at 775 CE. These strong events serve as accurate time markers for the synchronization with floating tree-ring and ice core records and provide critical information on the previous occurrence of extreme solar events which may threaten modern infrastructure.",

author = "Nicolas Brehm and Marcus Christl and Knowles, \{Timothy D. J.\} and Emmanuelle Casanova and Evershed, \{Richard P.\} and Florian Adolphi and Raimund Muscheler and Hans-Arno Synal and Florian Mekhaldi and Paleari, \{Chiara I.\} and Hanns-Hubert Leuschner and Alex Bayliss and Kurt Nicolussi and Thomas Pichler and Christian Schl{\"u}chter and Pearson, \{Charlotte L.\} and Salzer, \{Matthew W.\} and Patrick Fonti and Daniel Nievergelt and Rashit Hantemirov and Brown, \{David M.\} and Ilya Usoskin and Lukas Wacker",

year = "2022",

month = mar,

day = "7",

doi = "10.1038/s41467-022-28804-9",

language = "English",

volume = "13",

pages = "1--8",

journal = "Nature Communications",

issn = "2041-1723",

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Brehm, N, Christl, M, Knowles, TDJ, Casanova, E, Evershed, RP, Adolphi, F, Muscheler, R, Synal, H-A, Mekhaldi, F, Paleari, CI, Leuschner, H-H, Bayliss, A, Nicolussi, K, Pichler, T, Schlüchter, C, Pearson, CL, Salzer, MW, Fonti, P, Nievergelt, D, Hantemirov, R, Brown, DM, Usoskin, I & Wacker, L 2022, 'Tree-rings reveal two strong solar proton events in 7176 and 5259 BCE', Nature Communications, vol. 13, no. 1, pp. 1-8. https://doi.org/10.1038/s41467-022-28804-9

TY - JOUR

T1 - Tree-rings reveal two strong solar proton events in 7176 and 5259 BCE

AU - Brehm, Nicolas

AU - Christl, Marcus

AU - Knowles, Timothy D. J.

AU - Casanova, Emmanuelle

AU - Evershed, Richard P.

AU - Adolphi, Florian

AU - Muscheler, Raimund

AU - Synal, Hans-Arno

AU - Mekhaldi, Florian

AU - Paleari, Chiara I.

AU - Leuschner, Hanns-Hubert

AU - Bayliss, Alex

AU - Nicolussi, Kurt

AU - Pichler, Thomas

AU - Schlüchter, Christian

AU - Pearson, Charlotte L.

AU - Salzer, Matthew W.

AU - Fonti, Patrick

AU - Nievergelt, Daniel

AU - Hantemirov, Rashit

AU - Brown, David M.

AU - Usoskin, Ilya

AU - Wacker, Lukas

PY - 2022/3/7

Y1 - 2022/3/7

N2 - The Sun sporadically produces eruptive events leading to intense fluxes of solar energetic particles (SEPs) that dramatically disrupt the near-Earth radiation environment. Such events have been directly studied for the last decades but little is known about the occurrence and magnitude of rare, extreme SEP events. Presently, a few events that produced measurable signals in cosmogenic radionuclides such as 14C, 10Be and 36Cl have been found. Analyzing annual 14C concentrations in tree-rings from Switzerland, Germany, Ireland, Russia, and the USA we discovered two spikes in atmospheric 14C occurring in 7176 and 5259 BCE. The ~2% increases of atmospheric 14C recorded for both events exceed all previously known 14C peaks but after correction for the geomagnetic field, they are comparable to the largest event of this type discovered so far at 775 CE. These strong events serve as accurate time markers for the synchronization with floating tree-ring and ice core records and provide critical information on the previous occurrence of extreme solar events which may threaten modern infrastructure.

AB - The Sun sporadically produces eruptive events leading to intense fluxes of solar energetic particles (SEPs) that dramatically disrupt the near-Earth radiation environment. Such events have been directly studied for the last decades but little is known about the occurrence and magnitude of rare, extreme SEP events. Presently, a few events that produced measurable signals in cosmogenic radionuclides such as 14C, 10Be and 36Cl have been found. Analyzing annual 14C concentrations in tree-rings from Switzerland, Germany, Ireland, Russia, and the USA we discovered two spikes in atmospheric 14C occurring in 7176 and 5259 BCE. The ~2% increases of atmospheric 14C recorded for both events exceed all previously known 14C peaks but after correction for the geomagnetic field, they are comparable to the largest event of this type discovered so far at 775 CE. These strong events serve as accurate time markers for the synchronization with floating tree-ring and ice core records and provide critical information on the previous occurrence of extreme solar events which may threaten modern infrastructure.

U2 - 10.1038/s41467-022-28804-9

DO - 10.1038/s41467-022-28804-9

M3 - Article (Academic Journal)

C2 - 35256613

SN - 2041-1723

VL - 13

SP - 1

EP - 8

JO - Nature Communications

JF - Nature Communications

IS - 1

ER -

Tree-rings reveal two strong solar proton events in 7176 and 5259 BCE

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