PP44B-01
Climatic Impacts of a Volcanic Double Event: 536/540 CE

Thursday, 17 December 2015: 16:00
2003 (Moscone West)
Matthew Toohey1,2, Kirstin Krüger3, Michael Sigl4, Frode Stordal5 and Henrik Svensen3, (1)GEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, Germany, (2)Max Planck Institute for Meteorology, Hamburg, Germany, (3)University of Oslo, Oslo, Norway, (4)Paul Scherrer Institut, Villigen, Switzerland, (5)University of Oslo, Department of geosciences, Oslo, Norway
Abstract:
Volcanic activity in and around the year 536 CE led to the coldest decade of the Common Era, and has been speculatively linked to large-scale societal crises around the world. Using a coupled aerosol-climate model, with eruption parameters constrained by recently re-dated ice core records and historical observations of the aerosol cloud, we reconstruct the radiative forcing resulting from a sequence of two major volcanic eruptions in 536 and 540 CE. Comparing with a reconstruction of volcanic forcing over the past 1200 years, we estimate that the decadal-scale Northern Hemisphere (NH) extra-tropical radiative forcing from this volcanic “double event” was larger than that of any known period. Earth system model simulations including the volcanic forcing are used to explore the temperature and precipitation anomalies associated with the eruptions, and compared to available proxy records, including maximum latewood density (MXD) temperature reconstructions. Special attention is placed on the decadal persistence of the cooling signal in tree rings, and whether the climate model simulations reproduce such long-term climate anomalies. Finally, the climate model results will be used to explore the probability of socioeconomic crisis resulting directly from the volcanic radiative forcing in different regions of the world.