Interannual and Interdecadal Variations of the East Asian Summer Monsoon and Tropical Pacific SSTs. Part I: Roles of the Subtropical Ridge

Chang, C. P.; Zhang, Yongsheng; Li, Tim

doi:10.1175/1520-0442(2000)013<4310:iaivot>2.0.co;2

Cited by 706 publications

(447 citation statements)

References 32 publications

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“…However, the presence of such climate signals in the Beijing temperature record clearly indicates the impacts of ocean-atmosphere interactions in modulating the decadal variability of summer temperature in the mid-latitudes. This interpretation is supported by modern observations [32][33][34][35][36], consistently showing the influences of tropical SST on the East Asian monsoon climate.…”

Section: Resultssupporting

confidence: 66%

Decadal-scale variability of warm season temperature in Beijing over the past 2650 years

Dai

Zhang

2011

Chin. Sci. Bull.

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A continuous record of surface temperature for the past 2650 years was obtained in an earlier study from a Beijing stalagmite based on sedimentary layer counting and thickness measurements. Singular spectrum analysis, multi-taper and wavelet spectral analyses are used in this study to identify decadal-scale signals and their origins in this record. Besides long-term cycles of solar origin identified in earlier studies, this record contains cycles that dominate temperature with periods of 102-70, 66-50, 31, 25-22, 19, 15, 12 and 9 years. The 102-70, 25-22, 12 and 9 year cycles are attributable to solar variation, while the others are likely to be related to low-latitude ocean forcing. These results suggest that century-scale changes in the Beijing summer temperature over the past 2650 years are primarily controlled by solar variation, while ocean-atmospheric interactions play a prominent role in modulating decadal-scale variability.

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Section: Resultssupporting

confidence: 66%

Decadal-scale variability of warm season temperature in Beijing over the past 2650 years

Dai

Zhang

2011

Chin. Sci. Bull.

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“…This is typically located over the south coast in May, propagates north to reach the Yangtze basin by June and northern China by July, and retreats in August with the end of the East Asian monsoon (e.g., Chang et al 2000). Drought occurs in northern China when the southerly flow over east China is weak, and the propagation of the Mei-Yu front stagnates in the Yangtze River valley (e.g., Zhu et al 2011).…”

Section: S105mentioning

confidence: 99%

The 2014 Hot, Dry Summer in Northeast Asia

Wilcox

Dong

Sutton

et al. 2015

Bulletin of the American Meteorological Society

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“…Some investigators have studied the effect of the inter-annual and interdecadal variability of sea surface temperatures (SSTs) in the tropical Pacific and Indian Oceans on the East Asian summer monsoon and the associated summer precipitation in China (e.g. Chang et al, 2000;Yang and Lau, 2004). They all pointed out that the strong inter-decadal 1927 changes in SSTs in the Pacific Ocean may account for the observed variations in the meridional structure of the SST-monsoon relationship in the East Asian monsoon region.…”

Section: Introductionmentioning

confidence: 99%

Inter‐decadal variation of the summer precipitation in China and its association with decreasing Asian summer monsoon Part II: Possible causes

Ding

Sun

Wang

et al. 2009

Intl Journal of Climatology

400

270

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ABSTRACT:The present article is the second part of a study on the inter-decadal variability of the summer precipitation in East China, which mainly addresses the possible cause of this change. Firstly, an updated analysis of the long-term variations of snow cover, snow days and snow depth in the preceding winter and spring over the Tibetan Plateau (TP) was done by using station and satellite data. The abrupt increase in the winter and spring snow over the TP since around 1977 has been well documented. At that time, the inter-decadal variation of the atmospheric heating over the TP in spring and summer had been estimated. It has been revealed that the atmospheric heating fields in subsequent spring and summer over the TP assumed a significant weakening after the late 1970s. This weakening is closely related to the significantly reduced surface sensible heat flux into the atmosphere and subsequent cooling over the TP and its surrounding atmosphere. The latter was produced by the increase of surface albedo and soil hydrological effect of melting snow under the condition of abrupt increase in the preceding winter and spring snow over the TP. On the other hand, three phases of significant inter-decadal warming of the sea surface temperature (SST) in the tropical central and eastern Pacific, which occurred in the mid-1960s, the late 1970s and the early 1990s, respectively, have been found. The above inter-decadal variability of heating fields over the land area in the Asian region and neighbouring oceanic region of the West Pacific has consistently reduced the land-sea thermal contrast in summer in the Asian monsoon region based on the estimate of atmospheric heating fields. This cause is likely to lead to weakening of the Asian summer monsoon. In such case, the northward moisture transport in East Asia is greatly weakened and cannot reach North China, thus causing the condition of less precipitation or droughts. In contrast, the Yangtze River basin and South China receive a large amount of moisture supply and have strong upward motion, creating favourable conditions for frequent occurrence of heavy rainfall. In the process of the southward shift of the high-precipitation zone, two abrupt or rapid regime shifts observed in the late 1970s and the early 1990s were possibly in response to the increase in the winter and spring snow over the TP, and two major rapid warming events of the SST in the tropical central and eastern Pacific in the late 1970s and the early 1990s.Correlative analysis has further confirmed that high TP snow and oceanic forcing factors have a positive correlation with the subsequent summer precipitation in the Yangtze River basin and most of South China, and a negative correlation with the summer precipitation in North China. This correlative relationship implies that if the TP has excessive (deficient) snow in the preceding winter and spring and the tropical central and eastern Pacific anomalously warms up (cools down), North China will have decreasing (increasing) summer precipitation, whereas the ...

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Interannual and Interdecadal Variations of the East Asian Summer Monsoon and Tropical Pacific SSTs. Part I: Roles of the Subtropical Ridge

Cited by 706 publications

References 32 publications

Decadal-scale variability of warm season temperature in Beijing over the past 2650 years

Decadal-scale variability of warm season temperature in Beijing over the past 2650 years

The 2014 Hot, Dry Summer in Northeast Asia

Inter‐decadal variation of the summer precipitation in China and its association with decreasing Asian summer monsoon Part II: Possible causes

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