Solar particle events from the sun are infrequent but powerful, significantly influencing the creation of cosmic genic isotopes. For instance, radiocarbon (14c) in the terrestrial environment leaves a distinct mark on natural archives, such as dating artifacts. Over the last 12,000 years, eight such events have been identified, the most notable occurring in 775 AD. Recently, a candidate for a new extreme solar particle event was discovered, marked by the largest known radiocarbon peak dating back to 12350 BC. A recent study indicates this event was 18% more intense than the 775 CE event and likely transpired between January and April of that year, with early March being the most probable time frame.
Illustration of the artist of Solar Storm. Image credit: NASA.
“Solar particle storms significantly enhance the natural production of cosmic isotopes, such as radiocarbon, in the atmosphere due to cosmic rays from galaxies,” stated Kseniia Golubenko, a postdoctoral researcher at the University of Oulu, along with her colleagues.
“Such enhancements, preserved in annual tree rings, act as clear timestamps in the universe, enabling absolute dating of tree samples.”
“These dramatic spikes, referred to as Miyake Events, are named after the Japanese researcher who first identified them. They provide crucial data for scientists examining solar activity, ancient Earth systems, and space climate.”
“Miyake events help us pinpoint the exact calendar year of floating archaeological timelines,” added Professor Ilya Usoskin from Oulu University.
“The radiocarbon signals from such events have enabled researchers to accurately date Viking settlements in Newfoundland and Neolithic communities in Greece.”
For the reconstruction of solar particle storms under ancient glacial climate conditions, the authors developed and utilized a new chemical climate model called SOCOL:14C-EX.
This model was successfully validated using tree ring data from the 775 CE event and applied to ice age conditions to analyze the event from 12350 BC.
“The ancient events of 12350 BC are the only known extreme solar particle occurrences aside from the stable warm climate of the last 12,000 years,” Dr. Golubenko stated.
“Our estimates reveal that, compared to the largest events of the modern satellite era, the Particle Storm of 2005 was over 500 times weaker.”
“Other documented solar particle storms took place in 994 BC, 663 BC, 5259 BC, and 7176 BC, with several more candidates currently under investigation.”
“The 12350 BCE occurrence also establishes new worst-case scenarios,” she added.
“Understanding its magnitude is vital for assessing the risks posed by future solar storms.”
The team’s paper was published in the journal Earth and Planet Science Letters.
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Kseniia Golubenko et al. 2025. The new SOCOL:14C-EX model reveals that radiocarbon spikes from the late glacial age of 12350 BC were caused by record extreme solar storms. Earth and Planet Science Letters 661:119383; doi:10.1016/j.epsl.2025.119383
Source: www.sci.news
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