Researchers find repeated link between volcanic eruptions and dynastic collapse in China's Imperial Era
Date:
November 11, 2021
Source:
Trinity College Dublin
Summary:
Volcanic eruptions may have triggered abrupt climate changes
contributing to the repeated collapse of Chinese dynasties over
the past 2,000 years, according to new research. The study also
illustrates how volcanic eruptions can profoundly impact vulnerable
or unstable regions and highlights the need to prepare for future
eruptions.
FULL STORY ========================================================================== [Volcanic eruption | Credit: (c) James Thew / stock.adobe.com] Volcanic eruption illustration (stock image).
Credit: (c) James Thew / stock.adobe.com [Volcanic eruption | Credit:
(c) James Thew / stock.adobe.com] Volcanic eruption illustration
(stock image).
Credit: (c) James Thew / stock.adobe.com Close Volcanic eruptions may
have triggered abrupt climate changes contributing to the repeated
collapse of Chinese dynasties over the past 2,000 years, according to
new research published today [Thursday, 11 November 2021].
==========================================================================
The study also illustrates how volcanic eruptions can profoundly impact vulnerable or unstable regions and highlights the need to prepare for
future eruptions.
The research, which combines historical evidence with polar ice-core
records of volcanic eruptions, was led jointly by historians and
environmental scientists from Trinity College Dublin and Zhejiang
University, China. It will be published today in Communications Earth & Environment, a new high-profile journal from Nature Portfolio.
Scientists have identified explosive volcanic eruptions as one of the
most important drivers of dramatic changes in climate, often triggering
sudden cooling and drying that can cause livestock death and crop
damage. However, our understanding of the role played by such abrupt
climate shocks in state or societal collapse has been limited by the
precision and accuracy of dating of available historical and climate
evidence.
Dr Francis Ludlow, Associate Professor of Medieval Environmental History
at Trinity, who jointly led the study, commented: "China has a remarkably
long and richly documented history of multiple ruling dynasties, including major world powers like the Tang Dynasty, which collapsed in 907 CE,
or the Ming Dynasty, which collapsed in 1644. With so many precisely
dated collapses, we can look not just at individual cases of collapse
that may or may not have followed a change in climate, but rather look simultaneously at many collapses to see whether there is a repeated
pattern where a change in climate was followed by collapse. This can
tell us whether climatic change played a very minor role in dynastic
collapse, or whether it posed a systematic threat to these powerful
and sophisticated societies." The study compared the dates of volcanic eruptions gleaned from ice-core measurements of sulphate deposited on the
polar icesheets with the dates known from historical records of Chinese dynastic collapse across the first two millennia of the Common Era. This exercise found that 62 of the 68 dynastic collapses were closely preceded
by at least one volcanic eruption.
==========================================================================
John Matthews, postdoctoral fellow at the Trinity Centre for Environmental Humanities and co-author on the paper, explained: "Researchers have
identified a lot of historical eruptions through sulphate deposits in the
polar ice, so we expect that some collapses will have been preceded by eruptions purely by chance. To convince ourselves we were seeing something significant, we ran the numbers and found there would be just a 0.05%
chance of seeing so many collapses preceded by so many eruptions if
that had actually happened randomly. This study shows a repeated link
between volcanic eruptions and dynastic collapse." Some dynasties,
the authors note, withstood numerous large eruptions before eventually succumbing, suggesting that the role of volcanism in collapse is far
from straightforward and that dynasties were often resilient to sudden, volcanically triggered, climate shocks.
To gain further insight, the researchers assessed the role of explosive volcanism in tandem with other sources of stress or instability that a
dynasty might experience by examining levels of warfare prevailing in
the decades before collapse. Warfare was found to be elevated before most collapses, but the study also revealed a strong link between the magnitude
of a volcanic climatic shock and the level of pre-existing stress.
"We found that even a small volcanic eruption might help trigger a
collapse when pre-existing instability was high. Larger eruptions,
however, could trigger a collapse even when pre-existing instability
was minimal. So as ever, historical context is key to understanding
how climate can impact a society. It is also clear that we should be
preparing for the impacts of the next big eruption -- so far in the
twentieth and twenty-first centuries, the eruptions we've experienced
have been minnows compared to some that these dynasties had to deal
with." Chaochao Gao, Associate Professor, Zhejiang University,
China, who co-led the research concluded: "This study tells us
how important it is to build a resilient society to cope with the
natural hazards that we face, be they volcanically-induced or otherwise." ========================================================================== Story Source: Materials provided by Trinity_College_Dublin. Note:
Content may be edited for style and length.
========================================================================== Journal Reference:
1. Chaochao Gao, Francis Ludlow, John A. Matthews, Alexander R. Stine,
Alan
Robock, Yuqing Pan, Richard Breen, Briana'n Nolan, Michael
Sigl. Volcanic climate impacts can act as ultimate and proximate
causes of Chinese dynastic collapse. Communications Earth &
Environment, 2021; 2 (1) DOI: 10.1038/s43247-021-00284-7 ==========================================================================
Link to news story:
https://www.sciencedaily.com/releases/2021/11/211111214623.htm
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