Global and Polar Region Temperature Change Induced by Single Mega Volcanic Eruption Based on Community Earth System Model Simulation

In order to understand the pure long-term influence of single mega volcanic eruption (SMVE) of universal significance on global and polar region temperature changes, the AD 1258 Samalas mega volcanic eruption in Indonesia which is the largest eruption over the past millennium is selected as an ideal...

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Bibliographic Details
Published in:Geophysical Research Letters
Main Authors: Liu, Bin, Wang, Bin, Liu, Jian, Chen, Deliang, Ning, Liang, Yan, Mi, Sun, Weiyi, Chen, Kefan
Format: Report
Language:English
Published: AMER GEOPHYSICAL UNION 2020
Subjects:
mega volcanic eruption
temperature change
Arctic
Antarctic
Samalas
climate simulation
ANTARCTIC SEA-ICE
CLIMATE RESPONSE
LAST MILLENNIUM
AMPLIFICATION
IMPACT
RECONSTRUCTIONS
VARIABILITY
Geology
Geosciences
Multidisciplinary
The Antarctic
albedo
Antarc*
Sea ice
Online Access:http://ir.ieecas.cn/handle/361006/15399
https://doi.org/10.1029/2020GL089416
Description
Summary:In order to understand the pure long-term influence of single mega volcanic eruption (SMVE) of universal significance on global and polar region temperature changes, the AD 1258 Samalas mega volcanic eruption in Indonesia which is the largest eruption over the past millennium is selected as an ideal eruption for simulation study based on Community Earth System Model. Both reconstructions and simulations show that the Northern Hemisphere experienced nearly two decades of strong cooling after the Samalas mega eruption. The significant cooling in the Arctic lasts for 16 years, while the cooling in the Antarctic lasts only 2 years. As the volcanic aerosol gradually disappears, stronger cooling occurs in Arctic winter, and warming occurs in Antarctic winter. This asymmetric temperature changes over Arctic and Antarctic after SMVE (such as Samalas) are caused by the combined effects of albedo feedback and ocean-atmosphere heat exchange related to sea ice.

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