TY - JOUR
T1 - Patterns and frequencies of the East Asian winter monsoon variations during the past million years revealed by wavelet and spectral analyses
AU - Lu, Huayu
AU - Zhang, Fuqing
AU - Liu, Xiaodong
N1 - Funding Information:
The authors are grateful to Dr. Ko Van Huissteden and an anonymous reviewer for their insightful comments which lead to significant improvement of our early manuscript. Thanks also go to Prof. Zhisheng An and Prof. Jef Vandenberghe who arranged the field and laboratory works, to Dr. Ziwang Deng and Dr. Li Li for their helpful suggestions and to Mr. Yanjun Cai for his help in printing Fig. 2 . This research is under the auspices of the Chinese Academy of Sciences (KZCX1-10-01 and KZCX2-SW-118), National Key Project for Basic Research (G199804800) and the Dutch Academy of Sciences.
PY - 2003/1
Y1 - 2003/1
N2 - The wavelet and spectral analyses are used to investigate the variations of patterns and frequencies of the East Asian winter monsoon system during the past million years. Grain size of the loess-paleosol deposit at the central Chinese Loess Plateau is employed as a proxy indicator of the winter monsoon strength. On the bases of palaeomagnetic dates and a sedimentation rate model, an absolute, not orbitally tuned time scale for the loess deposit is developed. Wavelet analyses on this time series show that the patterns and frequencies of the East Asian winter monsoon climate vary with time during the past million years. The wavelet analyses also revealed a shift of climatic pattern from predominantly quasi-200- to quasi-100-ka cycle at around 500 ka BP which is also supported by previous studies using the sedimentation rate analysis as well as paleosol observations. Traditional spectral analysis on the same time series shows that the East Asian winter monsoon changes at Milankovich cycles, but there are also cycles which may not be related to orbital forcing. The predominant 41-ka cycle identified from previous studies is not evident in this time series from both wavelet and spectral analyses. Our results present new evidence that not only solar radiation, but also other boundary conditions, may have forced the monsoon system changes at the 104-105 years time scale.
AB - The wavelet and spectral analyses are used to investigate the variations of patterns and frequencies of the East Asian winter monsoon system during the past million years. Grain size of the loess-paleosol deposit at the central Chinese Loess Plateau is employed as a proxy indicator of the winter monsoon strength. On the bases of palaeomagnetic dates and a sedimentation rate model, an absolute, not orbitally tuned time scale for the loess deposit is developed. Wavelet analyses on this time series show that the patterns and frequencies of the East Asian winter monsoon climate vary with time during the past million years. The wavelet analyses also revealed a shift of climatic pattern from predominantly quasi-200- to quasi-100-ka cycle at around 500 ka BP which is also supported by previous studies using the sedimentation rate analysis as well as paleosol observations. Traditional spectral analysis on the same time series shows that the East Asian winter monsoon changes at Milankovich cycles, but there are also cycles which may not be related to orbital forcing. The predominant 41-ka cycle identified from previous studies is not evident in this time series from both wavelet and spectral analyses. Our results present new evidence that not only solar radiation, but also other boundary conditions, may have forced the monsoon system changes at the 104-105 years time scale.
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U2 - 10.1016/S0921-8181(02)00136-4
DO - 10.1016/S0921-8181(02)00136-4
M3 - Article
AN - SCOPUS:18744380968
SN - 0921-8181
VL - 35
SP - 67
EP - 74
JO - Global and Planetary Change
JF - Global and Planetary Change
IS - 1-2
ER -