Multi-proxy dating of Iceland's major pre-settlement Katla eruption to 822-823 CE ...

Investigations of the impacts of past volcanic eruptions on climate, environment, and society require accurate chronologies. However, eruptions that are not recorded in historical documents can seldom be dated exactly. Here we use annually resolved radiocarbon ($^{14}$C) measurements to isolate the...

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Bibliographic Details
Main Authors: Büntgen, U, Eggertsson, Ó, Wacker, L, Sigl, M, Ljungqvist, FC, Di Cosmo, N, Plunkett, G, Krusic, PJ, Newfield, TP, Esper, J, Lane, C, Reinig, F, Oppenheimer, C
Format: Article in Journal/Newspaper
Language:English
Published: Geological Society of America 2017
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Online Access:https://dx.doi.org/10.17863/cam.11141
https://www.repository.cam.ac.uk/handle/1810/266913
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Summary:Investigations of the impacts of past volcanic eruptions on climate, environment, and society require accurate chronologies. However, eruptions that are not recorded in historical documents can seldom be dated exactly. Here we use annually resolved radiocarbon ($^{14}$C) measurements to isolate the 775 CE cosmogenic $^{14}$C peak in a subfossil birch tree that was buried by a glacial outburst flood in southern Iceland. We employ this absolute time marker to date a subglacial eruption of Katla volcano at late 822 CE to early 823 CE. We argue for correlation between the 822–823 CE eruption and a conspicuous sulfur anomaly evident in Greenland ice cores, which follows in the wake of an even larger volcanic signal (ca. 818–820 CE) as yet not attributed to a known eruption. An abrupt summer cooling in 824 CE, evident in tree-ring reconstructions for Fennoscandia and the Northern Hemisphere, suggests a climatic response to the Katla eruption. Written historical sources from Europe and China corroborate our ...