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1. Northern high-latitude sea ice variation linked with East Asian monsoon anomalies during the Younger Dryas

   https://doi.org/10.1016/j.palaeo.2023.111702  

   Chen, Xiaolong; Zhang, Hongbin; Griffiths, Michael L.; Peng, Xiaogui; Yang, Liangzhe; Yu, Ming; Huang, Junhua; Xue, Shuyu; Cheng, Hai; Chen, Shuai (September 2023, Palaeogeography, Palaeoclimatology, Palaeoecology)

   The abrupt weakening of the East Asian summer monsoon (EASM) during Younger Dryas (YD) has been attributed to freshwater discharge into the North Atlantic ocean and resultant Northern Hemisphere cooling. Recent studies have found that sea ice variability in the Nordic Sea during the YD exerted a great influence upon the northern high-latitude climate. However, the influence of sea ice upon EASM evolution during YD event remains unclear. In this paper, we report two precisely-dated speleothem oxygen isotope records from the EASM-dominated region of central China. Our records archive abrupt changes in EASM variability during the YD event. Initially, there was a significant strengthening of the EASM during the mid-YD following the gradually increased Atlantic meridional overturning circulation (AMOC). Later this trend reversed at ∼12.15 ka due to northern high-latitude sea ice fluctuations and a consequent reduction of AMOC. At the YD termination, abrupt intensification of the EASM was synchronous with the rapid decline of sea-ice and recovery of the AMOC indicating that sea ice variability was a significant influence on high latitude climate and EASM variation during the YD. 

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2. Orbital‐ to millennial‐scale variation of the speleothem δ18O record during Marine Isotope Stages 5 to 3 on the southeast Chinese Loess Plateau and its climatic and environmental implications

   https://doi.org/10.1002/jqs.3489  

   CAI, YANJUN; CHENG, HAI; CHENG, XING; SHI, ZHENGGUO; LU, YANBIN; MA, LE; PÉREZ‐MEJÍAS, CARLOS; ZHANG, HAIWEI; WEI, YINGYING; XUE, GANG; et al (April 2023, Journal of Quaternary Science)

   The Chinese Loess Plateau (CLP) is located in northern China, a region climatically dominated by the East Asian monsoon. Speleothem records from this region are crucial to fully understand the variability of the East Asian summer monsoon (EASM) and reconcile the disparity seen between loess records and speleothem δ18O records for the EASM. Here, we present an absolutely dated stalagmite isotope record spanning most of Marine Isotope Stage (MIS) 5 to MIS 3 from Xiaotian Cave, southeast CLP. The Xiaotian speleothem δ18O record is dominated by precessional variations and punctuated by notable millennial‐scale oscillations; in particular, the δ18O values in MIS 5e, 5c and 5a were in the same range, consistent with other speleothem δ18O records from the EASM region within quoted errors, verifying the difference between speleothem δ18O and loess records (e.g. magnetic susceptibility) and the proposition that those two archives may record different aspects of the EASM changes. The similar values in MIS 5e, 5c and 5a observed from the speleothem δ18O records in EASM regions, incompatible with the relatively higher North Hemisphere Summer Insolation (NHSI) during MIS 5e, were probably caused by an equivalent or even increased contribution of 18O‐enriched moisture from the South China Sea and North Pacific, implying that an El Niño‐like state existed during MIS 5e. The Xiaotian δ18O values increased abruptly at ~121.7 thousand years (kyr) before the present (bp, present refers to ad 1950), consistent with the trend seen in previously reported Chinese speleothem δ18O records, indicating an abrupt regime shift in atmospheric circulations or hydroclimate conditions in the Asian monsoon systems. It cannot be definitely ruled out that an increase in sea ice extent in the northern North Atlantic, responding to a decrease of NHSI, reached a threshold to have led to abrupt changes in the Asian summer monsoon (ASM) through rapid shifts in the position of circulation of the westerlies and/or in the position of Intertropical Convergence Zone (ITCZ). Here, we hypothesized that sea surface cooling in the tropical Indian and Pacific Ocean caused by the decreased summer insolation reached a threshold that eventually resulted in an abrupt shift to more positive precipitation δ18O, either through weakened convection over the tropical ocean, or through abrupt shifts in moisture transport and cycling of tropical moisture sources for the ASM. The Xiaotian speleothem δ18O record also shows centennial‐scale variability with amplitude up to 3‰ within MIS 5e. These changes are similar to variations recorded by the speleothem δ18O record from Tianmen Cave on the south‐central Tibetan Plateau and Shangxiaofeng Cave in Shandong Province, northern China, suggesting a heightened sensitivity of precipitation δ18O to climate changes at the marginal zone of the ASM even during the warm and humid MIS 5e interglacial. Climatic oscillations during MIS 5e appear to be comparable to those typical of the Holocene, implying rather unstable climate conditions during the Last Interglacial. 

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3. Distinct Features of Atmospheric Rivers in the Early Versus Late East Asian Summer Monsoon and Their Impacts on Monsoon Rainfall

   https://doi.org/10.1029/2020JD033537  

   Park, Chanil; Son, Seok‐Woo; Kim, Hyemi (March 2021, Journal of Geophysical Research: Atmospheres)

   Abstract Atmospheric river (AR) and its impact on monsoon rainfall in East Asia are investigated by considering their month‐to‐month variations during the East Asian summer monsoon (EASM). The AR in the EASM, defined as an anomalously enhanced plume‐like water vapor transport, frequently forms over eastern China, Korea and western Japan. However, its characteristics vary from the early (June‐July) to the late (August‐September) period of the EASM. In the early EASM, AR is typically characterized by a quasi‐stationary monsoon southwesterly along the northern boundary of the western North Pacific subtropical high (WNPSH), which is further intensified by a migrating extratropical cyclone in the north. In contrast, the late‐EASM AR, which is less frequent than the early EASM AR, is primarily organized by a migrating extratropical cyclone. The quasi‐stationary monsoon southwesterly is less influential as the northern boundary of the WNPSH shifts northward, being decoupled from the subtropical ocean. Both the early‐ and late‐EASM ARs contribute substantially to monsoon rainfall, especially to heavy rainfall events. In the early EASM, 35%–70% of total rainfall amount and 60%–80% of heavy rainfall events in eastern China, Korea and western Japan are associated with AR. Although weakened, AR‐related rainfall is still significant in the late EASM in Korea and western Japan. These results indicate that AR is a key ingredient of EASM precipitation and its subseasonal variations should be taken into account to better understand and predict AR‐related extreme precipitation in East Asia. 

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4. The Asian Summer Monsoon: Teleconnections and Forcing Mechanisms - A Review from Chinese Speleothem d18O Records

   Zhang, H.W. (July 2019, Quaternary)

   Asian summer monsoon (ASM) variability significantly affects hydro-climate, and thus socio-economics, in the East Asian region, where nearly one-third of the global population resides. Over the last two decades, speleothem δ18O records from China have been utilized to reconstruct ASM variability and its underlying forcing mechanisms on orbital to seasonal timescales. Here, we use the Speleothem Isotopes Synthesis and Analysis database (SISAL_v1) to present an overview of hydro-climate variability related to the ASM during three periods: the late Pleistocene, the Holocene, and the last two millennia. We highlight the possible global teleconnections and forcing mechanisms of the ASM on different timescales. The longest composite stalagmite δ18O record over the past 640 kyr BP from the region demonstrates that ASM variability on orbital timescales is dominated by the 23 kyr precessional cycles, which are in phase with Northern Hemisphere summer insolation (NHSI). During the last glacial, millennial changes in the intensity of the ASM appear to be controlled by North Atlantic climate and oceanic feedbacks. During the Holocene, changes in ASM intensity were primarily controlled by NHSI. However, the spatio-temporal distribution of monsoon rain belts may vary with changes in ASM intensity on decadal to millennial timescales. 

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5. Hydroclimatic variations in southeastern China during the 4.2 ka event reflected by stalagmite records

   https://doi.org/10.5194/cp-14-1805-2018  

   Zhang, Haiwei; Cheng, Hai; Cai, Yanjun; Spötl, Christoph; Kathayat, Gayatri; Sinha, Ashish; Edwards, R. Lawrence; Tan, Liangcheng (January 2018, Climate of the Past)

   Abstract. Although the collapses of several Neolithic cultures in China areconsidered to have been associated with abrupt climate change during the4.2kaBP event (4.2–3.9kaBP), the timing and nature of this event andthe spatial distribution of precipitation between northern and southern Chinaare still controversial. The hydroclimate of this event insoutheastern China is still poorly known, except for a few published recordsfrom the lower reaches of the Yangtze River. In this study, a high-resolutionrecord of monsoon precipitation between 5.3 and 3.57kaBP based on astalagmite from Shennong Cave, Jiangxi Province, southeast China, ispresented. Coherent variations in δ¹⁸O and δ¹³Creveal that the climate in this part of China was dominantly wet between 5.3and 4.5kaBP and mostly dry between 4.5 and 3.57kaBP, interrupted by awet interval (4.2–3.9kaBP). A comparison with other records frommonsoonal China suggests that summer monsoon precipitation decreased innorthern China but increased in southern China during the 4.2kaBP event.We propose that the weakened East Asian summer monsoon controlled by thereduced Atlantic Meridional Overturning Circulation resulted in thiscontrasting distribution of monsoon precipitation between northern andsouthern China. During the 4.2kaBP event the rain belt remained longer atits southern position, giving rise to a pronounced humidity gradient betweennorthern and southern China. 

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