Your search keyword '"Cui, Yingfang"' showing total 4 results

1. Orbital- and millennial-scale hydroclimate changes in central China during the last glacial period.

Author

Wang, Quan, Zhao, Kan, Wang, Yongjin, Chen, Jianshun, Liang, Yijia, Cui, Yingfang, Shao, Qingfeng, Zhai, Xiumin, Zhang, Zhenqiu, Kong, Xinggong, Cheng, Hai, Edwards, R. Lawrence, Dong, Hongan, and Dai, Lili

Subjects

*GLACIATION, *TROPICAL conditions, *STALACTITES & stalagmites, *RAINFALL, *SOLAR radiation

Abstract

Spatial differences of rainfall in monsoonal China during the last glacial period remain contentious. Here, we present new 230Th-dated stalagmite records (δ13C and δ18O) from central China (the Yangtze River valley), spanning approximately 75–10 ka BP, to address this issue. We interpret the stalagmite δ13C variations primarily as indicators of regional rainfall changes, which show significantly decreased rainfall during MIS 4 and late MIS 3 to MIS 2. On the millennial timescale, the δ13C record indicates decreased rainfall during Heinrich (H) events and increased rainfall during Dansgaard-Oeschger interstadials. The strong correlations between our δ13C record and the westerly proxies suggest that the westerly jet played a crucial role in influencing rainfall patterns in monsoonal China throughout the last glacial period. We propose that rainfall changes in central China were consistent with northern China on both orbital and millennial timescales during the last glacial period. This observation contrasts with the modern rainfall differences between northern and central China. Our results imply that with a colder climate in high northern latitudes, the rain belt over monsoonal China influenced by the westerly jet shifted further south beyond the Yangtze River Valley during MIS 4, late MIS 3 to MIS 2 and H events, leading to a consistent decrease in rainfall over central and northern China. In contrast to the rainfall records, the stalagmite δ18O values were more negative during late MIS 3. The δ18O variations on the orbital timescale are likely related to the changes in the tropical ocean conditions controlled by insolation, which determines the δ18O values in evaporated moisture before its transport into the Asian continent. On the millennial timescale, our δ13C and δ18O records exhibit coupled variations, implying that the stalagmite δ18O variations are consistent with the rainfall changes in central and northern China. • New stalagmite δ13C and δ18O records spanning the last glacial period (75–10 ka BP) from central China. • Consistent rainfall changes in central and northern China on both orbital and millennial timescales. • Coupled variations between δ13C and δ18O records on the millennial timescale. [ABSTRACT FROM AUTHOR]

Published

2024

2. Decadal modulation of East Asian summer monsoon variations by external forcing and internal variability.

Author

Zhu, Junji, Zhao, Kan, Wang, Yongjin, Cui, Yingfang, Liang, Yijia, Cheng, Hai, Edwards, R. Lawrence, Kong, Xinggong, Shao, Xiaohua, Chen, Shitao, and Pang, Lin

Subjects

*MONSOONS, *VOLCANIC eruptions, *GLOBAL warming, *STALACTITES & stalagmites, *SUMMER, EL Nino

Abstract

Both external forcing and internal climate variability are playing significant roles in driving the East Asian summer monsoon (EASM) changes. However, dynamic linkages between these natural forcings and EASM on decadal timescales remain uncertain, partly due to the limited instrumental climate data. Here, we present a high-resolution EASM record over the past 200 years based on 2315 δ18O measurements from two annually laminated stalagmites (YX92 and YX120) in Yongxing Cave over the middle Yangtze River Valley (mid-YRV). Our records match well with the δ18O records from the nearby Heshang Cave, showing that EASM intensity in the mid-YRV varies at a dominant periodicity of ∼80 years. The multidecadal-scale oscillations in the EASM intensity are closely related to the ENSO-like states, supporting a notion that the ENSO dominantly modulates the EASM variability. Furthermore, the decadal oscillations in EASM and ENSO are synchronous with tropical volcanic eruptions during the solar minima, probably leading to the enhanced El Niño-like response, intensified EASM and strengthened ENSO-EASM coupling. Our findings imply that external forcings potentially contribute to the anomalies in ENSO and EASM during the ongoing global warming. • EASM changes at a dominant periodicity of ∼80 years over the past 200 years. • Multidecadal-scale oscillations in EASM intensity closely related to ENSO-like states. • Decadal oscillations in EASM and ENSO evolution synchronous with tropical volcanic eruptions during the solar minima. • Tropical volcanic eruptions likely enhanced the ENSO-EASM coupling. [ABSTRACT FROM AUTHOR]

Published

2022

3. ENSO effect on hydroclimate changes in southeastern China over the past two millennia.

Author

Chen, Jianshun, Zhao, Kan, Wang, Yongjin, Cui, Yingfang, Liang, Yijia, Shao, Qingfeng, Cheng, Hai, Edwards, R. Lawrence, Duan, Fucai, Chen, Shitao, Pian, Chuang, and Zhu, Junji

Subjects

*LITTLE Ice Age, *METEOROLOGICAL observations, *SOUTHERN oscillation, *MIDDLE Ages, *STALACTITES & stalagmites, EL Nino

Abstract

Meteorological observations indicate that both natural and anthropogenic forcing contribute to regional drought/flood in the East Asian summer monsoon (EASM) domain. However, spatiotemporal rainfall pattern and its dynamics during natural climatic variability remains unclear. Here we reconstruct a ∼3 year-resolution EASM precipitation record over the past two millennia, based on 13 230Th dates and 600 δ18O in a stalagmite from Songya Cave, southeastern China. The δ18O sequence shows a long-term decreasing trend, indicating an increasing monsoon precipitation over the past two millennia. A series of centennial-scale fluctuations are superimposed on the long-term trend, with a wetter Little Ice Age than the Medieval Warm Period. The long-term trend and centennial-scale oscillations in EASM rainfall are broadly related to El Niño-Southern Oscillation (ENSO) and Pacific decadal oscillation (PDO) variations, with an increased (decreased) EASM rainfall corresponding to El Niño-like (La Niña-like) conditions and positive (negative) phase of PDO. Comparison of δ18O records from Songya and Wanxiang Cave shows an anti-phased spatial rainfall pattern between southeastern and northwestern China. This spatiotemporal rainfall pattern, consistent with the modern observations, is possibly regulated by the ENSO, through changes in the location and strength of the Western Pacific Subtropical High (WPSH). • A long-term increasing monsoon precipitation in southeastern China over the past two millennia. • An anti-phased "southeastern-northwestern" rainfall pattern in the monsoonal China. • The spatiotemporal pattern of EASM precipitation modulated by ENSO and PDO. [ABSTRACT FROM AUTHOR]

Published

2022

4. Late Holocene monsoon precipitation changes in southern China and their linkage to Northern Hemisphere temperature.

Author

Zhao, Kan, Wang, Yongjin, Edwards, R. Lawrence, Cheng, Hai, Kong, Xinggong, Liu, Dianbing, Shao, Qingfeng, Cui, Yingfang, Huang, Changchun, Ning, Youfeng, and Yang, Xunlin

Subjects

*INTERGLACIALS, *INTERTROPICAL convergence zone, *METEOROLOGICAL precipitation, *LITTLE Ice Age, *MONSOONS, *TEMPERATURE

Abstract

Observations and models suggest a latitudinal redistribution of precipitation as a result of ongoing global climatic warming. However, the dynamic link between temperature and regional precipitation in the course of natural climatic variability during the current interglacial period remains unclear, especially in the monsoon regions of China. Here we present a reconstruction of a ∼5 year-resolution summer monsoon rainfall record for the past 3200 years, based on 622 pairs of δ18O and δ13C and 29 230Th dates from a stalagmite (Wu37) from Wulu Cave in southern China. A close similarity between the δ18O and δ13C records on centennial to decadal timescales suggests that calcite δ18O is most likely a proxy associated with monsoon precipitation. The record reveals that the Little Ice Age (650 - 100 yr B.P.) was a relatively humid period, with two centennial-scale wet events, compared with the Medieval Warm Period (1050 - 650 yr B.P.). In contrast with previous observations in India and northern China, monsoon precipitation variations indicated by our record and other cave records nearby were inversely related to changes in Northern Hemisphere (NH) temperature over the past two millennia, in particular to variations in the thermal gradient between the Northern and Southern hemispheres. This suggests that NH temperature has an important influence on summer precipitation in southern China, via the interhemispheric thermal gradient and land-ocean thermal contrast. In addition, we find that variations of monsoon rainfall in southern China on multi-centennial to centennial timescales are inversely correlated with observed rainfall in the core monsoon region of India and in the northern fringe of the Asian summer monsoon region in China. This spatial pattern of rainfall variability can be interpreted as a result of the migration of the intertropical convergence zone that is likely dominated by the interhemispheric thermal gradient via cross-equatorial airflows. • Increase of monsoon precipitation in southern China (SC) since the LIA. • Anti-phase relationship between SC precipitation and NH temperature. • A negative correlation between precipitation in SC and India, northern China. • A direct control of NH temperature on the shifts of the ITCZ rainbelt. [ABSTRACT FROM AUTHOR]

Published

2020