The Dark Ages Cold Period in China
Volume 8, Number 14: 6 April 2005
http://www.co2science.org/scripts/Template/MainPage.jsp?Page=BrowseCatalogEnlarged&sProductCode=v8n14edit
In a
paper that testifies to the reality of the Dark Ages Cold Period (the existence
of which climate alarmists are loathe to acknowledge, just as they deny the
existence of the other cold and warm nodes of the millennial-scale temperature
oscillation that produced the earlier Roman Warm Period and later Medieval Warm
Period, Little Ice Age and Modern Warm Period), Hsu (2004) recounts some
fascinating climatic history of a region of China south of Inner Mongolia that
lies some 380 km west of Beijing and 500 km north of Luoyang in Shanxi
Province.
The Taiwanese scientist
begins by noting that "Chinese historians often asserted that Emperor
Tuoba Hong's decision to move his capitol from Pingcheng [which is today called
Datong] to Luoyang in 494 AD was motivated by his personal bias towards Chinese
ideals and values, along with other considerations such as politics, military
defense, history and culture." However, he says that "Sima
Guang (1019~1086 AD) wrote in his book Zizhitongjian that 'the Emperor of Wei moved
his capitol to Luoyang because of the severe climate that often occurred at
Pingcheng, where snowfall in June and dust storms are common'."
In evaluating this
analysis of a famous historian who lived some eight centuries nearer the event
in question than more recent historians, Hsu found much corroborating data for
Guang's assessment of climatic conditions at the time of the translocation of
the Beiwei Dynasty's seat of government. In addition to Guang's writings
in Zizhitongjian,
for example, he finds in Dilizhi of Suishu that Hezhenshan, a shrine mountain northeast of
Datong, was covered with snow and frost in both winter and summer at the time
of the capitol's relocation, and in Yulan that "since the peak of Hezhenshan was
covered with snow during summer, birds were frozen to death," whereas such
is not the case today, as Hsu reports that "the peak of Hezhenshan has
been free of snow-cover from May to September for the last 30 years."
Hsu also writes that
"the existence of 'ice-houses' built on Fuzhoushan in Nanjiang around 500
AD showed that the winter temperature and annual temperature during that time
were approximately 2¡C and 1¡C lower, respectively, than that at present"
(Zhu, 1979). In addition, he reports that "tree-ring analyses on the
Tibet Plateau support the conclusion of a cold-spell in the period between 300
AD and 600 AD" (Zhang et al., 2000), that "analyses of organic constituents for
the lake sediment of Daguihu in Taiwan Province showed that there was an
obvious cold and dry trend from 420 AD to 500 AD" (Luo et al., 1997), and that "analyses
of stalagmites collected near Beijing also revealed that a cold period existed
around 500 AD" (Tan et al., 2003).
Last of all, noting that
frost events are meticulously recorded in the ancient documents of Weishu, Zizhitongjian and Shanxitongzhi, Hsu was able to compare the
30-year Beiwei Frost Season (BFS) of the period 479 AD to 509 AD with the
Recent Frost Season (RFS) of the last 30 years. In doing so, he found
that "the BFS, on average, started 13.55 days earlier and ended 8.97 days
later than the RFS," indicative of a 22.52-day extension of the BFS
compared to the RFS. And since "changes in the duration of frost
period are directly related to air temperature," according to Hsu,
"the additional 22.52 days of frost from 479 AD to 509 AD could correspond
to a decrease of the lowest temperature by 2.48¡C when compared with the
RFS."
These observations
suggest that the transference of governmental powers from the location of
present-day Datong to Luoyang in 494 AD may indeed have been prompted by the
severe cold of that time, which is part of the 210 to 560 AD cold period that Ge
et al. (2004) describe as
"the only one comparable with [the] Little Ice Age for the past 2000
years." It is little wonder, therefore, that this earlier period of
close-to-equivalent low temperatures is known far and wide as the Dark Ages
Cold Period, but truly amazing that the world's climate alarmists claim that it
never existed. On the other hand, it's not so amazing, considering that to
acknowledge the existence of the Roman Warm Period, Dark Ages Cold Period,
Medieval Warm Period and Little Ice Age is to acknowledge the existence of the
millennial-scale oscillation of climate that is likely responsible for bringing
us the Modern Warm Period, totally independent of the 20th-century increase in
the air's CO2 content. Now that's something the world's climate
alarmists truly can't acknowledge, for it undermines everything they've ever worked for in
the political arena.
Sherwood, Keith and Craig
Idso
References
Ge, Q., Zheng, J., Man, Z., Fang, X. and Zhang, P. 2004. Key points
on temperature change of the past 2000 years in China. Progress in
Natural Science 14: 730-737.
Hsu, S. 2004.
From Pingcheng to Luoyang - Substantiation of the climatic cause for capital
relocation of the Beiwei Dynasty. Progress in Natural Science 14: 725-729.
Luo, J.Y., et al. 1997.
Paleoclimatological information reflected from the constituents of lake
sediment in Daguihu. Academia Sinica, 99-104.
Tan, M., Liu, T.S., Hou,
J. Qin, X., Zhang, H. and Li, T. 2003. Cyclic rapid warming on
centennial-scale revealed by a 2650-year stalagmite record of warm season
temperature. Geophysical Research Letters 30: 10.1029/2003GL017352.
Zhang, L.S., et al. 2000. Global
Change.
Higher Education Publishing Company, Beijing, China.
Zhu, K.Z.
1979. Summaries of Climate Change in the Recent Five Thousand Years of
China. Collected Articles of Professor Zhu, K.Z. Science Press, Beijing, China, pp. 475-498.