Lunar eclipses illuminate timing and climate impact of medieval volcanism.

Guillet, Sébastien; Corona, Christophe; Oppenheimer, Clive; Lavigne, Franck; Khodri, Myriam; Ludlow, Francis; Sigl, Michael; Toohey, Matthew; Atkins, Paul S; Yang, Zhen; Muranaka, Tomoko; Horikawa, Nobuko; Stoffel, Markus (2023). Lunar eclipses illuminate timing and climate impact of medieval volcanism. Nature, 616(7955), pp. 90-95. Springer Nature 10.1038/s41586-023-05751-z

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Explosive volcanism is a key contributor to climate variability on interannual to centennial timescales1. Understanding the far-field societal impacts of eruption-forced climatic changes requires firm event chronologies and reliable estimates of both the burden and altitude (that is, tropospheric versus stratospheric) of volcanic sulfate aerosol2,3. However, despite progress in ice-core dating, uncertainties remain in these key factors4. This particularly hinders investigation of the role of large, temporally clustered eruptions during the High Medieval Period (HMP, 1100-1300 CE), which have been implicated in the transition from the warm Medieval Climate Anomaly to the Little Ice Age5. Here we shed new light on explosive volcanism during the HMP, drawing on analysis of contemporary reports of total lunar eclipses, from which we derive a time series of stratospheric turbidity. By combining this new record with aerosol model simulations and tree-ring-based climate proxies, we refine the estimated dates of five notable eruptions and associate each with stratospheric aerosol veils. Five further eruptions, including one responsible for high sulfur deposition over Greenland circa 1182 CE, affected only the troposphere and had muted climatic consequences. Our findings offer support for further investigation of the decadal-scale to centennial-scale climate response to volcanic eruptions.

Item Type:	Journal Article (Original Article)
Division/Institute:	08 Faculty of Science > Physics Institute > Climate and Environmental Physics 10 Strategic Research Centers > Oeschger Centre for Climate Change Research (OCCR)
UniBE Contributor:	Sigl, Michael
Subjects:	500 Science > 520 Astronomy 500 Science > 530 Physics 500 Science > 540 Chemistry 500 Science > 550 Earth sciences & geology 900 History
ISSN:	1476-4687
Publisher:	Springer Nature
Funders:	[18] European Research Council
Projects:	[1314] Timing of Holocene volcanic eruptions and their radiative aerosol forcing
Language:	English
Submitter:	Pubmed Import
Date Deposited:	06 Apr 2023 10:13
Last Modified:	07 Apr 2023 03:39
Publisher DOI:	10.1038/s41586-023-05751-z
PubMed ID:	37020006
BORIS DOI:	10.48350/181552
URI:	https://boris.unibe.ch/id/eprint/181552

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