Your search keyword '"Edwards, R."' showing total 115 results

1. The Holocene Asian Monsoon: Links to Solar Changes and North Atlantic Climate

Author

Wang, Yongjin, Cheng, Hai, Edwards, R. Lawrence, He, Yaoqi, Kong, Xinggong, An, Zhisheng, Wu, Jiangying, Kelly, Megan J., Dykoski, Carolyn A., and Li, Xiangdong

Published

2005

2. Timing, Duration, and Transitions of the Last Interglacial Asian Monsoon

Author

Yuan, Daoxian, Cheng, Hai, Edwards, R. Lawrence, Dykoski, Carolyn A., Kelly, Megan J., Zhang, Meiliang, Qing, Jiaming, Lin, Yushi, Wang, Yongjin, Wu, Jiangyin, Dorale, Jeffery A., An, Zhisheng, and Cai, Yanjun

Published

2004

3. A High-Resolution Absolute-Dated Late Pleistocene Monsoon Record from Hulu Cave, China

Author

Wang, Y. J., Cheng, H., Edwards, R. L., An, Z. S., Wu, J. Y., and Dorale, J. A.

Published

2001

4. An annually laminated stalagmite from the eastern Qinghai-Tibetan Plateau provides evidence of climate instability during the early MIS5e in the Asian summer monsoon.

Author

Gao, Tao, Zhang, Pingzhong, Cheng, Hai, Zhang, Leilei, Li, Xinhu, Shi, Hongyu, Jia, Wei, Ning, Youfeng, Li, Hanying, and Edwards, R. Lawrence

Subjects

STALACTITES & stalagmites, INTERTROPICAL convergence zone, ATLANTIC multidecadal oscillation, MERIDIONAL overturning circulation, MONSOONS, LITTLE Ice Age, GLOBAL warming

Abstract

The Marine Isotope Stage (MIS5e) is characterized by a warmer climate than that of the pre-industrial period, and serves as an analog for the Current Warm Period (CWP). However, uncertainties persist regarding its climatic stability. Here, we retrieved a stalagmite (WXB075) from Wanxiang Cave in the eastern Qinghai-Tibetan Plateau, and employed absolute 230Th dating and relative annual layer data to establish a high-precision chronological framework for reconstructing the history of the Asian summer monsoon (ASM) and environmental evolution during early MIS5e with multiple proxies. The findings indicate that the annually laminated stalagmite was formed during Cooling Event 27 (C27). The deposition of WXB075 experienced a hiatus (∼125.58 ka BP) due to a significant cooling event in the North Atlantic, which may be linked to the unstable climate in the Northern Hemisphere. Additionally, the impact of meltwater discharge in high northern latitudes results in a two-phase evolution of the ASM, i.e., an initial weaker stage followed by a gradual increase (with the exception of deposition hiatus). The climatic instability of ASM is generally characterized by a quasi-60 year cycle that affects vegetation conditions, biological productivity, and karst hydroclimate dynamics. However, the increase in meltwater and decrease in temperature in the Northern Hemisphere have led to a weakened ASM and subsequent reduction in precipitation. Consequently, vegetation degradation above the cave has occurred along with a slowdown of karst hydroclimate. The vegetation conditions, organic matter content, and wet/drought of the karst hydroclimate were affected by both the large-scale monsoon circulation and local environment during extreme weakening (strengthening) of the monsoon when high-frequency climatic events of ASM occurred. A comparison of δ18O records between early MIS5e and the past 2000 years reveals that the climate during early MIS5e differed significantly from that of CWP, Medieval Warm Period (MWP), and Dark Age Cold Period (DACP) but was similar to Little Ice Age (LIA). Comparison with other geological records from the Northern Hemisphere indicates that climate instability was a widespread phenomenon during MIS5e. The power spectrum analysis of WXB075 δ18O reveals significant quasi-60 and 35 a cycles during the early MIS5e, which is consistent with the Atlantic Multidecadal Oscillation (AMO). The comprehensive results demonstrate that the ASM in the early MIS5e was closely linked to solar activity, Intertropical Convergence Zone (ITCZ) position, and Atlantic Meridional Overturning Circulation (AMOC). [ABSTRACT FROM AUTHOR]

Published

2023

5. 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.

Author

CAI, YANJUN, CHENG, HAI, CHENG, XING, SHI, ZHENGGUO, LU, YANBIN, MA, LE, PÉREZ‐MEJÍAS, CARLOS, ZHANG, HAIWEI, WEI, YINGYING, XUE, GANG, LI, HANYING, HE, MEI, WANG, TING, EDWARDS, R. LAWRENCE, and AN, ZHISHENG

Subjects

SPELEOTHEMS, INTERTROPICAL convergence zone, LOESS, MONSOONS, ATMOSPHERIC circulation, ISOTOPES, CLIMATE change

Abstract

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. [ABSTRACT FROM AUTHOR]

Published

2023

6. High-Latitude Forcing of the South American Summer Monsoon During the Last Glacial

Author

Kanner, Lisa C., Burns, Stephen J., Cheng, Hai, and Edwards, R. Lawrence

Published

2012

7. 800,000 Years of Abrupt Climate Variability

Author

Barker, Stephen, Knorr, Gregor, Edwards, R. Lawrence, Parrenin, Frédéric, Putnam, Aaron E., Skinner, Luke C., Wolff, Eric, and Ziegler, Martin

Published

2011

8. Ice Age Terminations

Author

Cheng, Hai, Edwards, R. Lawrence, Broecker, Wallace S., Denton, George H., Kong, Xinggong, Wang, Yongjin, Zhang, Rong, and Wang, Xianfeng

Published

2009

9. A Test of Climate, Sun, and Culture Relationships from an 1810-Year Chinese Cave Record

Author

Zhang, Pingzhong, Cheng, Hai, Edwards, R. Lawrence, Chen, Fahu, Wang, Yongjin, Yang, Xunlin, Liu, Jian, Tan, Ming, Wang, Xianfeng, Liu, Jinghua, An, Chunlei, Dai, Zhibo, Zhou, Jing, Zhang, Dezhong, Jia, Jihong, Jin, Liya, and Johnson, Kathleen R.

Published

2008

10. Interdecadal to Centennial Climate Variability Surrounding the 8.2 ka Event in North China Revealed Through an Annually Resolved Speleothem Record From Beijing.

Author

Duan, Pengzhen, Li, Hanying, Ma, Zhibang, Zhao, Jingyao, Dong, Xiyu, Sinha, Ashish, Hu, Peng, Zhang, Haiwei, Cai, Yanjun, Ning, Youfeng, Edwards, R. Lawrence, and Cheng, Hai

Subjects

SPELEOTHEMS, CLIMATE change, ATMOSPHERIC circulation, GREENLAND ice, CENTENNIALS, ICE cores, MONSOONS

Abstract

The 8.2 ka event has been extensively studied, whereas its structure is ambiguous in North China. Here we present a high‐resolution (∼1 year) δ18O record from annual laminated speleothem from Beijing to characterize the detailed variability across this event in North China. Our record indicates a dry 8.2 ka event spanning 8.254–8.107 ka BP with a two‐stage structure superimposed by three prominent high δ18O excursions. The identical structure of speleothem δ18O records between North and central China during the event suggests a common forcing/response in East China, whereas the progressively increased offset between their average values may reflect changes in moisture source or rainout effect. A close comparison with the Greenland ice core records suggests a strong linear response of the Asian summer monsoon to the North Atlantic climate changes across the early and middle stages of the event, but a different mechanism in the termination processes. Plain Language Summary: As the most pronounced abrupt climate event in the Holocene, the 8.2 ka event has been studied using various geological archives worldwide, but its detailed structure in North China and its link to other climate systems remain poorly understood. Since the Beijing speleothem δ18O, a proxy of the precipitation δ18O, is sensitive to the Asian summer monsoon (ASM) variations, it allows us to establish precise timing and structure of the 8.2 ka event and estimate the cause of it. Our new speleothem δ18O record from Beijing reveals a two‐stage structure superimposed by three "V‐shape" excursions during the event and almost exactly covaries with another published speleothem record from central China, suggesting coherent climate changes over the east ASM domain in response to the same forcing. The gradually increased offset between them probably results from the changed atmospheric circulations. Our results suggest a fast climatic signal propagation from the North Atlantic to the ASM domain during the early and middle 8.2 ka event, and another forcing mechanism in the termination processes. Key Points: Annual laminated speleothem δ18O record from North China manifests a two‐stage 8.2 ka event superimposed by three positive excursionsHigh consistency in speleothem records from North and central China on interdecadal to multidecadal timescales indicates a common driverThe climate forcing for the termination process is different from the early and middle stages of the 8.2 ka event [ABSTRACT FROM AUTHOR]

Published

2023

11. Hydroclimate variability in the Caribbean during North Atlantic Heinrich cooling events (H8 and H9).

Author

Ait Brahim, Yassine, Peros, Matthew C., Viau, André E., Liedtke, Mercedes, Pajón, Jesús M., Valdes, Julio, Li, Xianglei, Edwards, R. Lawrence, Reinhardt, Eduard G., and Oliva, Frank

Subjects

COOLING, PALEOCLIMATOLOGY, MONSOONS, LOW temperatures, HURRICANE Irma, 2017

Abstract

We present a speleothem record from western Cuba, spanning the period 98.7–84.9 ka BP. Our record shows two distinctive periods of high δ18O corresponding to dry and/or cold periods during 85–87.6 and 90.2–93.1 ka BP, synchronous with Heinrich events 8 and 9 (H8 and H9). Hence, we provide the first proxy evidence of the local Caribbean climate response to H8 and H9. Interestingly, H8 is more pronounced compared to H9, which may be a local response to lower temperatures in the North Atlantic resulting in a weak AMOC and reduced deep water formation, therefore a stronger south shift of the ITCZ. Our data complement existing speleothem records from western Cuba which, collectively, provide a nearly continuous paleoclimate time-series spanning the last 100 ka BP, indicating a consistent response to millennial-scale events as dry and/or cooler conditions. The comparison with regional paleoclimate records reveals an anti-phased relationship with South America, caused by the southern movements of the ITCZ during millennial-scale events which lead to dry conditions in the Caribbean and a stronger South American Monsoon System. [ABSTRACT FROM AUTHOR]

Published

2022

12. Timing and Structure of 10.9 and 10.3 ka BP Events Revealed by Annually Laminated Stalagmite Records From Shihua Cave, Northern China.

Author

Li, Miaofa, Wang, Fang, Cai, Binggui, Cao, Qi, Cheng, Hai, Shen, Chuan‐Chou, Tan, Ming, and Edwards, R. Lawrence

Subjects

STALACTITES & stalagmites, CAVES, GREENLAND ice, SOLAR activity, ICE cores, TIME series analysis, MONSOONS

Abstract

Studies have shown that East Asia experienced several abrupt centennial‐scale weak monsoonal events in the early Holocene. However, the timing and structure of these climate events remain unclear due to the lack of precisely dated and highly resolved records. In this study, we present a well‐dated high‐resolution East Asia summer monsoon record from 11.32 to 10 ka BP based on two coeval stalagmites, one of which developed clear annual lamina, from Shihua Cave, northern China. Stalagmite δ18O records show 2 weak summer monsoon events at 10.9 and 10.3 ka. The 10.9‐ka event occurred from 10.93 to 10.79 ka BP for ∼140 years and features a "W"‐shaped structure. The 10.3‐ka event, also known as the ice‐rafted debris event 7 in the North Atlantic, lasted ∼260 years with an asymmetric double‐plunging structure. The two events are concurrent with the cold conditions in Greenland ice core record, indicating a close correlation between East Asia summer monsoon and North Atlantic climate. Spectral analyses on Shihua Cave stalagmite δ18O time series and annually lamina thickness sequence both show a statistically significant periodicity of 200 years, indicating that anomalous climate events may be triggered by solar activity. The 10.3‐ka event also coincides with three small freshwater outbursts in the high‐latitude North Atlantic. This agreement suggests that freshwater outbursts may have played a role in reinforcing this weak 10.3‐ka event in monsoonal China. Key Points: 3‐year resolved δ18O record derived from lamina stalagmites in northern China details the East Asia summer monsoon (EASM) history from 11.32 to 10 ka BPTiming and structure of 10.9 and 10.3 ka weak monsoon eventsThe 10.9 and 10.3 ka weak EASM events are linked to high latitudes climate via atmospheric teleconnection and associated with solar changes [ABSTRACT FROM AUTHOR]

Published

2022

13. Timing and structure of early-Holocene climate anomalies inferred from north Chinese stalagmite records.

Author

Duan, Wuhui, Ma, Zhibang, Tan, Ming, Cheng, Hai, Edwards, R. Lawrence, Wen, Xinyu, Wang, Xuefeng, and Wang, Lisheng

Subjects

SPELEOTHEMS, HOLOCENE Epoch, MONSOONS, CAVES, FRESH water, STALACTITES & stalagmites, COOLING

Abstract

In this paper, a new decadal resolution stalagmite δ18O record covering 10.4–6.5 ka BP from Kulishu cave in Beijing, north China is presented in combination with the published stalagmite δ18O record covering 10.4–14.0 ka BP in the same cave. Five significant monsoon collapses were identified around 11.5, 11.0, 10.0, 9.4, and 8.2 ka BP as well as three smaller ones around 10.3, 9.0, and 8.6 ka BP. The weak monsoon episodes around 8.6 and 8.2 ka BP form the two-step structure of the 8.2 ka event. All monsoon collapses, coeval with the cooling in northern high-latitude records, are correlated with Lakes Agassiz-Ojibway outbursts. Thus, our data support the idea of freshwater forcing of abrupt climate anomalies during the early Holocene. Nevertheless, the decreased irradiance together with freshwater outburst may account for the 9.2/9.3 ka event, which is expressed more significantly in low-latitude records. [ABSTRACT FROM AUTHOR]

Published

2021

14. High precise dating on the variation of the Asian summer monsoon since 37 ka BP.

Author

Li, Ting-Yong, Wu, Yao, Shen, Chuan-Chou, Li, Jun-Yun, Chiang, Hong-Wei, Lin, Ke, Tan, Liang-Cheng, Jiang, Xiu-Yang, Cheng, Hai, and Edwards, R. Lawrence

Subjects

MONSOONS, PALEOCLIMATOLOGY, CLIMATE change, STATISTICAL correlation

Abstract

Comprehensive comparison of paleoclimate change based on records constrained by precise chronology and high-resolution is essential to explore the correlation and interaction within earth climate systems. Here, we propose a new stalagmite-based multidecadal resolved Asian summer monsoon (ASM) record spanning the past thirty-seven thousand years (ka BP, before ad 1950) from Furong Cave, southwestern China. This record is consistent with the published Chinese stalagmite sequences and shows that the dominant controls of the ASM dynamics include not only insolation and solar activity but also suborbital-scale hydroclimate events in the high latitudes of the northern hemisphere, such as the Heinrich events, Bølling-Allerød (BA), and Younger Dryas (YD). Benefit from the unprecedented accurate chronology, the timings of these events are precisely dated, with uncertainties of, at most, 40 years (2σ). The onset of the weak ASM during the YD began at 12.92 ka BP and lasted for 430 years. The occurrence of the 200-yr Older Dryas during the BA period was dated from 13.87 to 14.06 ka BP. The durations of the three Heinrich (H) events, H1, H2, and H3, are 14.33–18.29, 23.77–24.48, and 28.98–30.46 ka BP, respectively. Furong record shows surprisingly variable onset transitions of 980, 210, and 40 years for the corresponding weak ASM events. These discrepancies suggest different influences of the H events on ASM dynamics. During the periods of H 1–3, the obvious difference between our Furong record and NGRIP δ18O record indicated the decoupling correlation between the mid-low latitudes and high latitudes. On the other hand, synchronous climate change in high and low latitudes suggests another possibility which different to the dominant role of Northern high latitudes in triggering global climate change. Our high quality records also indicate a plausible different correlation between the high and mid-low latitudes under glacial and inter-glacial background, especially for the ASM regimes. [ABSTRACT FROM AUTHOR]

Published

2021

15. Holocene Monsoon Change and Abrupt Events on the Western Chinese Loess Plateau as Revealed by Accurately Dated Stalagmites.

Author

Tan, Liangcheng, Li, Yanzhen, Wang, Xiqian, Cai, Yanjun, Lin, Fangyuan, Cheng, Hai, Ma, Le, Sinha, Ashish, and Edwards, R. Lawrence

Subjects

STALACTITES & stalagmites, HOLOCENE Epoch, MONSOONS, SOLAR activity, PLATEAUS, MELTWATER

Abstract

Here we present, to date, the highest‐resolved (~5 years) and most precisely dated Holocene monsoon climate reconstruction for the western Chinese Loess Plateau based on five replicated stalagmite δ18O records from Wuya Cave, eastern Gansu, China. Our record suggests the wettest period occurred between 10,500 and 6,600 a BP in this region. After this period, the amplitude of Asian summer monsoon decadal‐scale variability progressively increased likely in response to increasing ENSO frequency since the middle Holocene. Our study reveals similar asymmetric centennial‐scale double‐plunging structures of the 8.2, 5.5, and 2.8 ka events in the western Chinese Loess Plateau, suggesting a possible role of solar activity whose impact was amplified around 8.2 ka BP by the meltwater flood. In contrast, the 4.2 ka event exhibit gradually declining monsoon rainfall with centennial‐ to decadal‐scale fluctuations. Key Points: A 5 year‐resolved Holocene Asian summer monsoon record was reconstructed for the western Loess Plateau based on speleothemsThe wettest period occurred between 10,500 and 6,600 a BP, after that, the amplitude of decadal‐scale monsoon variability increasedSimilar structures were observed during the 8.2, 5.5, and 2.8 ka weak monsoon events, which are different from the 4.2 ka event [ABSTRACT FROM AUTHOR]

Published

2020

16. East Asian summer monsoon climates and cave hydrological cycles over Dansgaard-Oeschger events 14 to 11 revealed by a new stalagmite record from Hulu Cave.

Author

Liang, Yijia, Wang, Yongjin, Wang, Quan, Wu, Jiangying, Shao, Qingfeng, Zhang, Zhenqiu, Yang, Shaohua, Kong, Xinggong, and Edwards, R. Lawrence

Subjects

STALACTITES & stalagmites, HYDROLOGIC cycle, CAVES, MONSOONS, CLIMATOLOGY

Abstract

A 230Th/U-dated stalagmite from Hulu Cave was analyzed for δ18O, δ13C, and trace elements. A ~10-yr-resolution δ18O record, spanning 51.7–42.6 ka, revealed Dansgaard-Oeschger (DO) events 14 to 11. A similar rapid transition and synchronous timing of the onset of DO 12 is evident between the Greenland and Hulu Cave records, which suggests a common forcing mechanism of DO cycles in the North Atlantic and monsoonal region of Asia. Centennial-scale monsoonal oscillations in the cave δ18O record are indicative of hydroclimatic instability during interstadials. After removing the signals of remote moisture sources, the proportion of moisture from nearby sources is found to be higher during stadials than during interstadials. To explain this, we propose that the movement of the westerly jet is an important control on the balance of nearby and distant moisture sources in East Asia. In addition, the records of δ13C and trace element ratios, which are proxies of local environmental changes, resemble the δ18O record on the scale of DO cycles, as well as on even shorter timescales. This suggests that hydrological processes and biological activity at the cave site respond sensitively to the monsoonal changes. [ABSTRACT FROM AUTHOR]

Published

2019

17. Is Chinese stalagmite δ18O solely controlled by the Indian summer monsoon?

Author

Li, Dong, Tan, Liangcheng, Cai, Yanjun, Jiang, Xiuyang, Ma, Le, Cheng, Hai, Edwards, R. Lawrence, Zhang, Haiwei, Gao, Yongli, and An, Zhisheng

Subjects

STALACTITES & stalagmites, ICE cores, OCEAN temperature, MONSOONS, ATMOSPHERIC models, SUMMER

Abstract

As a unique continental archive, speleothem has been widely used in reconstructing paleoclimate change. However, the interpretation of Chinese speleothems δ18O has remained a subject of debate. Recently, a Community Atmosphere Model version 3 (CAM3) study indicated that the stalagmite δ18O from eastern China reflected the Indian summer monsoon (ISM) intensity rather than the East Asian summer monsoon (EASM) intensity during Heinrich events. Here, we present a high-resolution speleothem δ18O record from Xianglong Cave in Shaanxi province, China, covering the period of 25.5–10.9 ka BP. The XL15 record shows similar variations with ice core record from Greenland and other climate records from China and India on millennial scale, including Heinrich 2 (H2), Heinrich 1 (H1), Bølling–Allerød (BA) and Younger Dryas (YD) events, supporting the connection between the Asian monsoon and northern high latitude climate. The δ18O amplitude of our record is larger than or similar to the stalagmite δ18O records from India during these events. In addition, differences of stalagmite δ18O in eastern China and the ISM region were observed on glacial-interglacial as well as decadal timescales. That means the ISM is not the sole controlling factor of Chinese stalagmite δ18O during Heinrich events. When subtracting the Indian stalagmite δ18O series from our XL15 record during H1 period, we found a significant negative correlation with sea surface temperature (SST) record of Western Pacific Warm Pool (WPWP). Consequently, our study suggests that the Chinese stalagmite δ18O is controlled by both the ISM and EASM on orbital-, millennial-, and decadal timescales. [ABSTRACT FROM AUTHOR]

Published

2019

18. A High‐Resolution Speleothem Record of Marine Isotope Stage 11 as a Natural Analog to Holocene Asian Summer Monsoon Variations.

Author

Zhao, Xinnan, Cheng, Hai, Sinha, Ashish, Zhang, Haiwei, Baker, Jonathan L., Chen, Shitao, Kong, Xinggong, Wang, Yongjin, Edwards, R. Lawrence, Ning, Youfeng, and Zhao, Jingyao

Subjects

SPELEOTHEMS, STALACTITES & stalagmites, CLIMATE change detection, INTERGLACIALS, MONSOONS, ISOTOPES, SUMMER

Abstract

A full‐spectrum characterization of past interglacial climate is a necessary prerequisite for the detection and attribution of climate changes during the current interglacial. Here we present a speleothem record of Asian summer monsoon (ASM) during Marine Isotope Stage (MIS) 11 interglacial (MIS 11c), from Yongxing cave, China. The record's unprecedented chronologic constraints and decadal‐scale temporal resolution allow a precise and direct comparison of ASM between the MIS 11c and the Holocene. Our data suggest that orbital‐centennial patterns of ASM were remarkably similar during both interglacial, including their pacing and structure. Notably, a multi‐millennial stronger monsoon late in MIS 11c, the "Late‐MIS 11c shift," is similar to the Late Holocene strengthening of the ASM, the "2‐Kyr shift." Thus, the multicentennial ASM weakening at the end of the Late‐MIS 11c shift could imply that the current century‐long ASM waning trend may persist into the future, if only natural forcings are considered. Plain Language Summary: The interglacial of Marine Isotope Stage 11 (MIS 11c) is generally considered to be an appropriate natural climate analog to the current interglacial, the Holocene. A new speleothem oxygen‐isotope (δ18O) record is reconstructed to characterize Asian summer monsoon (ASM) variability across MIS 11c on a wide range of timescales. This new record has an unprecedented high resolution (~11 years) and precise chronology constrained by 230Th dating and annual band counting. It thus allows for the first time a precise comparison of ASM variability between MIS 11c and the Holocene. We find that the observed pattern of decreasing ASM strength during the late portion of MIS 11c was interrupted by a multi‐millennial period of stronger monsoon (the "Late‐MIS 11c shift"), which is similar to the Late Holocene increase in ASM strength (the "2‐Kyr shift"), which also occurred against a backdrop of long‐term decline in Northern Hemisphere summer insolation. Notably, the Late‐MIS 11c shift was terminated by a multicentennial ASM weakening trend, thus suggesting that the current century‐long ASM waning trend could persist into the future, provided that the anthropogenic forcing does not supersede the natural variability. Key Points: A new high‐resolution record of the Asian summer monsoon is reconstructed over Marine Isotope Stage 11 as a natural analog to the HoloceneThe Marine Isotope Stage 11 record with a chronology constrained by annual band counting shows climate variability similar to the HoloceneThe projection of the Marine Isotope Stage 11‐Holocene comparison into the future suggests a weakening trend for the Asian summer monsoon [ABSTRACT FROM AUTHOR]

Published

2019

19. Early-Holocene monsoon instability and climatic optimum recorded by Chinese stalagmites.

Author

Yang, Xunlin, Yang, Hong, Wang, Baoyan, Huang, Li-Jung, Shen, Chuan-Chou, Edwards, R Lawrence, and Cheng, Hai

Subjects

STALACTITES & stalagmites, STABLE isotope analysis, MONSOONS

Abstract

The timing and duration of the Holocene East Asian summer monsoon (EASM) maximum and the interpretation of Chinese stalagmite δ18O records have long been disputed. Notably, interpretations of Holocene EASM variations are frequently based on a single record or study area and are often contradictory. In this study, we conducted stable isotope analyses of four Holocene stalagmites from Chongqing, southwest China. The results reveal differences in the timing of the Holocene EASM maximum and to try to resolve the inconsistency we analyzed and statistically integrated a total of 16 Holocene stalagmite records from 14 caves in the EASM region. The resulting synthesized Holocene stalagmite δ18O (δ18Osyn) record is in agreement with other EASM records and confirms that stalagmite δ18O records are a valid indicator of EASM intensity, rather of local precipitation amount. The δ18Osyn record shows that the EASM intensified rapidly from the onset of the early Holocene; notably, however, there were distinct EASM oscillations in the early Holocene, consisting of three abrupt millennial-scale events. This indicates that, contrary to several previous interpretations, the early Holocene EASM was unstable. Subsequently, during 8–6 kyr BP, the EASM was relatively stable and strong, with the strongest monsoon occurring during 8–7 kyr BP. This evidence of a stable and strong mid-Holocene EASM in eastern China is in accord with the classical view of a mid-Holocene Optimum in China. [ABSTRACT FROM AUTHOR]

Published

2019

20. Evaluating the timing and structure of the 4.2 ka event in the Indian summer monsoon domain from an annually resolved speleothem record from Northeast India.

Author

Kathayat, Gayatri, Cheng, Hai, Sinha, Ashish, Berkelhammer, Max, Zhang, Haiwei, Duan, Pengzhen, Li, Hanying, Li, Xianglei, Ning, Youfeng, and Edwards, R. Lawrence

Subjects

MONSOONS, SUMMER, METEOROLOGICAL precipitation, SPELEOTHEMS, HOLOCENE Epoch

Abstract

A large array of proxy records suggests that the "4.2 ka event" marks an approximately 300-year long period (∼3.9 to 4.2 ka) of major climate change across the globe. However, the climatic manifestation of this event, including its onset, duration, and termination, remains less clear in the Indian summer monsoon (ISM) domain. Here, we present new oxygen isotope (δ18O) data from a pair of speleothems (ML.1 and ML.2) from Mawmluh Cave, Meghalaya, India, that provide a high-resolution record of ISM variability during a period (∼3.78 and 4.44 ka) that fully encompasses the 4.2 ka event. The sub-annually to annually resolved ML.1 δ18O record is constrained by 18 230Th dates with an average dating error of ±13 years (2σ) and a resolution of ∼40 years, which allows us to characterize the ISM variability with unprecedented detail. The inferred pattern of ISM variability during the period contemporaneous with the 4.2 ka event shares broad similarities and key differences with the previous reconstructions of ISM from the Mawmluh Cave and other proxy records from the region. Our data suggest that the ISM intensity, in the context of the length of our record, abruptly decreased at ∼4.0 ka (∼±13 years), marking the onset of a multi-centennial period of relatively reduced ISM, which was punctuated by at least two multi-decadal droughts between ∼3.9 and 4.0 ka. The latter stands out in contrast with some previous proxy reconstructions of the ISM, in which the 4.2 ka event has been depicted as a singular multi-centennial drought. [ABSTRACT FROM AUTHOR]

Published

2018

21. Timing and duration of the East Asian summer monsoon maximum during the Holocene based on stalagmite data from North China.

Author

Zhang, Na, Yang, Yan, Cheng, Hai, Zhao, Jingyao, Yang, Xunlin, Liang, Sha, Nie, Xudong, Zhang, Yinhuan, and Edwards, R. Lawrence

Subjects

MONSOONS, STALACTITES & stalagmites, CLIMATOLOGY -- History, HOLOCENE paleoclimatology

Abstract

We present a continuous C-O isotope series that shows the detailed variability of East Asian summer monsoon (EASM) since 11.0 ka BP. The series is based on two stalagmites, namely, DSY1 and LM2, which were, respectively, obtained from Dongshiya and Laomu caves. The δ18O profiles of stalagmite excurse negatively in early Holocene and gradually become positive after around 6.9 ka BP, tracking the change in Northern Hemisphere summer insolation. Moreover, the ‘early-Holocene maximum’ supported by stalagmite δ18O records differs from the ‘mid-Holocene maximum’ indicated by geological archives, such as lake sediments and loess. This difference may be caused by different definition indicators of monsoon intensity. Stalagmite δ18O is relative to EASM intensity, but irrelative to precipitation in the East Asian monsoon region. The time intervals of EASM maximum and Holocene climatic optimum are desynchronized, which is confirmed by the variation in the stalagmite δ13C series. Stalagmite δ13C and δ18O have different variation tendencies. The tendency of δ13C in early mid-Holocene was generally light, but it was discontinuity and disrupted by rapid positive shift between 8.2 and 7.7 ka BP. We conclude that a rapid shift of about 8 ka BP is a turning point, before and after which δ13 C acquires different controlling factors. Stalagmite δ13 C showed no signs of positive excurse in late Holocene but it exhibited another characteristic, namely, millennial time scale oscillations. The few changes in stalagmite δ13 C is attributed to weakened insolation during summer in the northern hemisphere, which leads to low evaporation rate, thereby modulating effective humidity change. The edge of the seasonal monsoonal front in northern China during monsoon recession is sensitive to the rain belt and causes the δ13 C of the stalagmite to fluctuate greatly. This phenomenon shows that the climate in the study area is unstable in the late Holocene [ABSTRACT FROM AUTHOR]

Published

2018

22. South American monsoon response to iceberg discharge in the North Atlantic.

Author

Stríkis, Nicolás M., Cruz, Francisco W., Barreto, Eline A. S., Naughton, Filipa, Vuille, Mathias, Hai Cheng, Voelker, Antje H. L., Haiwei Zhang, Karmann, Ivo, Edwards, R. Lawrence, Auler, Augusto S., Santos, Roberto Ventura, and Sales, Hamilton Reis

Subjects

METEOROLOGICAL precipitation, OCEAN temperature, CLIMATE change, MONSOONS, ICEBERGS

Abstract

Heinrich Stadials significantly affected tropical precipitation through changes in the interhemispheric temperature gradient as a result of abrupt cooling in the North Atlantic. Here, we focus on changes in South American monsoon precipitation during Heinrich Stadials using a suite of speleothem records covering the last 85 ky B.P. from eastern South America. We document the response of South American monsoon precipitation to episodes of extensive iceberg discharge, which is distinct from the response to the cooling episodes that precede the main phase of ice-rafted detritus deposition. Our results demonstrate that iceberg discharge in the western subtropical North Atlantic led to an abrupt increase in monsoon precipitation over eastern South America. Our findings of an enhanced Southern Hemisphere monsoon, coeval with the iceberg discharge into the North Atlantic, are consistent with the observed abrupt increase in atmospheric methane concentrations during Heinrich Stadials. [ABSTRACT FROM AUTHOR]

Published

2018

23. Abrupt climate changes during Termination III in Southern Europe.

Author

Moreno, Ana, Pérez-Mejías, Carlos, Bartolomé, Miguel, Sancho, Carlos, Stoll, Heather, Cacho, Isabel, Edwards, R. Lawrence, and Hai Cheng

Subjects

CLIMATE change, QUATERNARY paleoclimatology, WATER supply, MONSOONS, OCEAN-atmosphere interaction

Abstract

The Late Quaternary glacial-interglacial transitions represent the highest amplitude climate changes over the last million years. Unraveling the sequence of events and feedbacks at Termination III (T-III), including potential abrupt climate reversals similar to those of the last Termination, has been particularly challenging due to the scarcity of well-dated records worldwide. Here, we present speleothem data from southern Europe covering the interval from 262.7 to 217.9 kyBP, including the transition from marine isotope stage (MIS) 8 to MIS 7e. High-resolution δ13C, δ18O, and Mg/Ca profiles reveal major millennial-scale changes in aridity manifested in changing water availability and vegetation productivity. uranium-thorium dates provide a solid chronology for two millennial-scale events (S8.1 and S8.2) which, compared with the last two terminations, has some common features with Heinrich 1 and Heinrich 2 in Termination I (T-I). [ABSTRACT FROM AUTHOR]

Published

2017

24. Evolution of the Asian summer monsoon during Dansgaard/Oeschger events 13-17 recorded in a stalagmite constrained by high-precision chronology from southwest China.

Author

Ting-Yong Li, Li-Yin Han, Hai Cheng, Edwards, R. Lawrence, Chuan-Chou Shen, Hong-Chun Li, Jun-Yun Li, Chun-Xia Huang, Tao-Tao Zhang, and Xin Zhao

Subjects

MONSOONS, CLIMATE change, STALACTITES & stalagmites, CAVES

Abstract

A stalagmite with high 238U content from Yangkou Cave, China, revealed the evolution of the Asian summer monsoon (ASM) between 49.1 and 59.5 ka, and the δ18O values recorded Dansgaard/Oeschger (D/O) events 13-17. The Yangkou record shows a relatively gradual transition into the D/O 14 and 16 events. The discrepancy between the abrupt and gradual transitions of D/O 14 in the records from northern and southern China, respectively, suggests different responses of the ASM to climate changes in the high northern latitudes. The higher resolution δ18O record and more precise 230Th dating indicate that the timing of D/O 14 and 17 in the Hulu records at 53 and 58 ka should be shifted to 54.3 and 59 ka, respectively. The gradual strengthening of the ASM at the onsets of D/O 16 and 14 in our record is different from the abrupt temperature rise in the northern high latitudes. Some other factors must contribute to this relatively gradual ASM change in southern China, but the actual reason is still unknown. [ABSTRACT FROM AUTHOR]

Published

2017

25. Decreasing monsoon precipitation in southwest China during the last 240 years associated with the warming of tropical ocean.

Author

Tan, Liangcheng, Cai, Yanjun, An, Zhisheng, Cheng, Hai, Shen, Chuan-Chou, Gao, Yongli, and Edwards, R.

Subjects

MONSOONS, METEOROLOGICAL precipitation, SPELEOTHEMS, DROUGHTS, THERMAL gradient measurment

Abstract

Based on an absolutely dated stalagmite δO record from Yunnan province, China, we reconstructed monsoon precipitation variations in southwest China since 1760 AD with a resolution of about 2 years. Combining the speleothem δO and observed rainfall records, we find an overall decreasing trend in monsoon precipitation in this region and suggest that the recent drought in 2009-2012 AD has been the driest since 1760 AD. Our speleothem record is consistent with the monsoon precipitation records reconstructed from tree rings in the Nepal Himalaya and southeastern Tibetan Plateau. However, it is anti-correlated with a speleothem record from central India, which confirms the observed anti-phase variations of Indian monsoon precipitation with moistures from the Bay of Bengal and Arabian Sea on multi-decadal to centennial timescales during historical time. The long-term warming of tropical ocean may have caused the decrease of the land-sea thermal gradient and the amount of moisture transported from the Bay of Bengal, which may reduce precipitations in southwest China during the last 240 years. On decadal scale, El Nińo-like conditions of tropical Pacific sea surface temperature may cause drought in this region. Climate model simulations suggest El Niño-like conditions exist in tropical Pacific under global warming scenarios. As a result, it is crucial to have adaptive strategies to overcome future declines in precipitation and/or drought events in southwest China. [ABSTRACT FROM AUTHOR]

Published

2017

26. Strong coupling of centennial-scale changes of Asian monsoon and soil processes derived from stalagmite δ18O and δ13C records, southern China.

Author

Liu, Dianbing, Wang, Yongjin, Cheng, Hai, Edwards, R. Lawrence, Kong, Xinggong, and Li, Ting-Yong

Subjects

MAGNETIC coupling, MONSOONS, SOIL mechanics, STALACTITES & stalagmites, PALEOCLIMATOLOGY, HOLOCENE Epoch, HUMIDITY control

Abstract

The paleoclimate application of speleothem δ 13 C is influenced by site-specific processes. Here we present four stalagmite δ 13 C records from two caves in southern China, covering early and late Marine Isotope Stage (MIS) 3 and the Holocene, to investigate the spatio-temporal pattern of calcite δ 13 C changes and the relationship with Asian monsoon (AM) variability. In each growth period, precessional- to millennial-scale changes are clear in the δ 18 O record. In contrast, millennial variability is absent in the δ 13 C record, which characterizes persistent centennial oscillations. However, centennial-scale δ 18 O variations agree well with those of δ 13 C, with a larger amplitude in δ 13 C changes (about twice that of δ 18 O). This suggests that soil humidity balance associated with regional hydrological circulations is important for these centennial δ 13 C changes, although evaporation-related kinetic fractionation can induce concurrent enrichments in δ 18 O and δ 13 C. In frequency, the detrended δ 18 O and δ 13 C records are coupled at a periodicity of about 300 yr during the last glacial period and 150 yr during the Holocene. Those centennial-scale δ 13 C variations are generally consistent with Greenland temperature variability, indicating a climate response over broad regions. Thus, strong co-variation of δ 18 O and δ 13 C records should have a climatic origin, even if it is amplified by kinetic effects. [ABSTRACT FROM AUTHOR]

Published

2016

27. A tropical speleothem record of glacial inception, the South American Summer Monsoon from 125 to 115 ka.

Author

Burns, S. J., Kanner, L. C., Cheng, H., and Edwards, R. Lawrence

Subjects

GLACIATION, MONSOONS, SPELEOTHEMS, ATMOSPHERIC circulation, PALEOCLIMATOLOGY

Abstract

Relatively few marine or terrestrial paleoclimate studies have focused on glacial inception, the transition from an interglacial to a glacial climate state. As a result, neither the timing and structure of glacial inception nor the spatial pattern of glacial inception in different parts of the world is well known. Here we present results of a study of a speleothem from the Peruvian Andes that records changes in the intensity of South American Summer Monsoon (SASM) rainfall over the period from 125 to 115 ka. The results show that late in the last interglacial period, at 123 ka, SASM rainfall decreased, perhaps in response to a decrease in temperature and ice cover in the high northern latitudes and associated changes in atmospheric circulation. Then at 120.8 ka, a rapid increase in SASM rainfall marks the end of the last interglacial. After a more gradual increase between 120 and 117 ka, a second abrupt increase occurs at 117 ka. This pattern of change is mirrored to a remarkable degree by changes in the East Asian Monsoon. It is interpreted to reflect both a long-term gradual response of the monsoons to orbitally driven insolation changes and to rapid changes in Northern Hemisphere ice volume and temperature. Both monsoon systems are close to their full glacial conditions by 117 ka, before any significant decrease in atmospheric CO2. [ABSTRACT FROM AUTHOR]

Published

2015

28. Centennial-scale monsoon climate fluctuations from a stalagmite record during the mid-Holocene Epoch in Fulu cave of Huaping, Yunnan, China.

Author

Zhu, Xiaoyan, Zhang, Meiliang, Cheng, Hai, Wu, Xia, and Edwards, R.

Subjects

MONSOONS, STALACTITES & stalagmites, CAVES, OXYGEN isotopes, CARBON isotopes, HOLOCENE Epoch, CLIMATE change

Abstract

The mid-Holocene dynamics of the East Asian Monsoon (EAM) and Indian Monsoon (IM) are important for understanding the Holocene climate system. To clarify the relationship between EAM and IM subsystems during the mid-Holocene, a 2085-year (6,270-4,185 a BP) high-resolution record from stalagmite (FL4) in Yunnan, China was reconstructed using ICP-MS-Th series dating and carbon and oxygen isotope analysis (δC and δO). In the study period, successive positive δO trends revealed a generally weakening Asian monsoon, with the monsoon climate tending toward gradual drying, especially during three centennial-scale drought events in 6,270-6,126 a BP, 5,347-5,140 a BP, and 4,810-4,620 a BP. On the other hand, the uninterrupted negative trend in δC signified natural improvements in vegetation overlying the cave, and a serious deficit (~2.5 ‰) in δC during 5,519-5,345 a BP implied a heavy rainfall event, in precise phase with δO, demonstrating an enhanced Indian Monsoon subsystem. The dense sawtooth-shaped pattern of the carbon and oxygen isotope records indicates that a series of decadal-scale abrupt climate changes were superimposed on the centennial-scale monsoon climate changes. FL4 stalagmite records in the mid-Holocene reflect a gradually weakening monsoon climate with superimposed decadal-centennial events, but natural improvements in local vegetation through self-adjustment. [ABSTRACT FROM AUTHOR]

Published

2015

29. Direct measurements of deglacial monsoon strength in a Chinese stalagmite.

Author

Orland, Ian J., Edwards, R. Lawrence, Hai Cheng, Kozdon, Reinhard, Cross, Mellissa, and Valley, John W.

Subjects

*SPELEOTHEMS, *PALEOCLIMATOLOGY, *RAINFALL, *MONSOONS, *STALACTITES & stalagmites

Abstract

Chinese speleothems (cave deposits) preserve a remarkable paleoclimate record in their oxygen isotope ratios (δ18O); the precise interpretation of this record has been the subject of stimulating discussion. Most studies link the (δ18O variability in Chinese speleothems to regional summer monsoon rainfall and/or rainfall integrated between tropical sources and cave sites. Discussion has centered on mechanisms behind this link as well as the location and seasonality of hypothesized rainfall changes. Until now, these hypotheses were not directly tested in speleothems because conventional drill sampling techniques are insuffi- cient for measuring speleothem (δ18O at seasonal resolution. Here we use an ion microprobe to analyze seasonal (δ18O variability in an annually banded stalagmite from Kulishu Cave (northeastern China) that grew during the last deglaciation. The new seasonal resolution data show that the stalagmite (δ18O values record two aspects of regional monsoon dynamics: (1) changes in the isotopic fractionation of water vapor sourced from both the Indian and Pacific Oceans, and (2) the annual proportion of summer monsoon rainfall, which was systematically greater during the Holocene and Bølling-Allerød than during the Younger Dryas. Both relate to regional rainfall; the isotopic fractionation changes also relate to rainfall integrated from tropical sources. [ABSTRACT FROM AUTHOR]

Published

2015

30. Variability of stalagmite-inferred Indian monsoon precipitation over the past 252,000 y.

Author

Yanjun Cai, Fung, Inez Y., Lawrence Edwards, R., Zhisheng An, Hai Cheng, Jung-Eun Lee, Liangcheng Tan, Chuan-Chou Shen, Xianfeng Wang, Day, Jesse A., Weijian Zhou, Kelly, Megan J., and Chiang, John C. H.

Subjects

MONSOONS, DIFFERENCES, HUMIDITY, METEOROLOGY, MOISTURE

Abstract

A speleothem δ18O record from Xiaobailong cave in southwest China characterizes changes in summer monsoon precipitation in Northeastern India, the Himalayan foothills, Bangladesh, and northern Indochina over the last 252 kyr. This record is dominated by 23-kyr precessional cycles punctuated by prominent millennialscale oscillations that are synchronous with Heinrich events in the North Atlantic. It also shows clear glacial-interglacial variations that are consistent with marine and other terrestrial proxies but are different from the cave records in East China. Corroborated by isotope-enabled global circulation modeling, we hypothesize that this disparity reflects differing changes in atmospheric circulation and moisture trajectories associated with climate forcing as well as with associated topographic changes during glacial periods, in particular redistribution of air mass above the growing ice sheets and the exposure of the "land bridge" in the Maritime continents in the western equatorial Pacific. [ABSTRACT FROM AUTHOR]

Published

2015

31. Cyclic precipitation variation on the western Loess Plateau of China during the past four centuries.

Author

Liangcheng Tan, Zhisheng An, Chih-An Huh, Yanjun Cai, Chuan-Chou Shen, Liang-Jian Shiau, Libin Yan, Hai Cheng, and Edwards, R. Lawrence

Subjects

METEOROLOGICAL precipitation, GEOGRAPHIC spatial analysis, MONSOONS, METEOROLOGICAL research

Abstract

Precipitation variation on the Loess Plateau (LP) of China is not only important for rain-fed agriculture in this environmentally sensitive region, but also critical for the water and life securities over the whole Yellow River basin. Here we reconstruct high resolution precipitation variation on the western LP during the past 370 years by using two replicated, annually-laminated stalagmites. Spatial analysis suggests that the reconstruction can be also representative for the whole LP region. The precipitation variations show a significant quasi-50 year periodicity during the last 370 years, and have an important role in determining the runoff of the middle Yellow River. The main factor controlling the decadal scale variations and long-term trend in precipitation over this region is southerly water vapour transport associated with the Asian summer monsoon. The Pacific Decadal Oscillation is also an important influence on precipitation variation in this region, as it can affect the East Asian summer monsoon and the West Pacific Subtropical High. [ABSTRACT FROM AUTHOR]

Published

2014

32. The Global Paleomonsoon as seen through speleothem records from Asia and the Americas.

Author

Cheng, Hai, Sinha, Ashish, Wang, Xianfeng, Cruz, Francisco, and Edwards, R.

Subjects

PALEOCLIMATOLOGY, MONSOONS, SPELEOTHEMS, ATMOSPHERIC circulation, CLIMATE change

Abstract

The regional monsoons of the world have long been viewed as seasonal atmospheric circulation reversal-analogous to a thermally-driven land-sea breeze on a continental scale. This conventional view of monsoons is now being integrated at a global scale and accordingly, a new paradigm has emerged which considers regional monsoons to be manifestations of global-scale seasonal changes in response to overturning of atmospheric circulation in the tropics and subtropics, and henceforth, interactive components of a singular Global Monsoon (GM) system. The paleoclimate community, however, tends to view 'paleomonsoon' (PM), largely in terms of regional circulation phenomena. In the past decade, many high-quality speleothem oxygen isotope (δO) records have been established from the Asian Monsoon and the South American Monsoon regions that primarily reflect changes in the integrated intensities of monsoons on orbital-to-decadal timescales. With the emergence of these high-resolution and absolute-dated records from both sides of the Equator, it is now possible to test a concept of the 'Global-Paleo-Monsoon' (GPM) on a wide-range of timescales. Here we present a comprehensive synthesis of globally-distributed speleothem δO records and highlight three aspects of the GPM that are comparable to the modern GM: (1) the GPM intensity swings on different timescales; (2) their global extent; and (3) an anti-phased inter-hemispheric relationship between the Asian and South American monsoon systems on a wide range of timescales. [ABSTRACT FROM AUTHOR]

Published

2012

33. Comment on "On linking climate to Chinese dynastic change: Spatial and temporal variations of monsoonal rain.".

Author

CHENG Hai, EDWARDS, R. Lawrence, and HAUG, Gerald H.

Subjects

*CLIMATE change, *MONSOONS, *RAINFALL, *OXYGEN isotopes, *SEDIMENTS, *TITANIUM, *CULTURAL history

Abstract

An article by Zhang et al. questions the interpretation of our oxygen isotope record from Wanxiang Cave and the sediment titanium record from Lake Huguang Maar, and the possible linkage between climate change and Chinese culture. In response, we explain that their approach lacks logical rigor and their major argument is broadly consistent with, rather than contradictory to our original conclusions. We also note that climate-culture relationships similar to those that we observe in China have been observed for other cultures around the world. [ABSTRACT FROM AUTHOR]

Published

2010

34. A high-resolution stalagmite record of the Holocene East Asian monsoon from Mt Shennongjia, central China.

Author

Jinguo Dong, Yongjin Wang, Hai Cheng, Hardt, Ben, Edwards, R. Lawrence, Xinggong Kong, Jiangying Wu, Shitao Chen, Dianbing Liu, Xiuyang Jiang, and Kan Zhao

Subjects

STALACTITES & stalagmites, MONSOONS, INTERTROPICAL convergence zone, OXYGEN isotopes

Abstract

High-resolution oxygen isotope (δ18O) profiles of six stalagmites from Sanbao Cave in Hubei province, central China, established with 1413 oxygen isotope data and 65 230Th ages, provide a continuous history of East Asian Summer Monsoon (EASM) intensity for the period from 13-0.2 thousand years before present (ky BP, relative to AD 1950). The δ18O record includes four distinct stages in the evolution of the EASM: (1) an abrupt transition (∼11.5 ky BP) into the Holocene; (2) a period of gradual increase in monsoon intensity (11.5-9.5 ky BP); (3) the maximum humid period (9.5-6.5 ky BP); and (4) a period of gradual decline in monsoon intensity (6.5-0.2 ky BP). Comparison of Sanbao with regional records of comparable resolution reveals that the timing of the beginning and end of the Holocene Optimum (as defined by the minimum in δ18O) was similar in the Indian and East Asian monsoon systems. This supports the idea that shifts in the monsoon tied to shifts in the mean position of the Inter-Tropical Convergence Zone (ITCZ) may control monsoon intensity throughout the entire low-latitude region of Asia on orbital timescales. This observation also supports the idea that the fluctuations in δ18O recorded across southern Asia reflect broad changes in the monsoon, as opposed to local meteoric precipitation. The EASM records from Sanbao largely follow orbital-scale insolation changes, yet exhibit similar variability to Greenland ice core δ18O on millennial to centennial scales during the early to middle Holocene (&#x03B3l = 0.94). [ABSTRACT FROM AUTHOR]

Published

2010

35. Ice Age Terminations.

Author

Hai Cheng, Edwards, R. Lawrence, Broecker, Wallace S., Denton, George H., Xinggong Kong, Yongjin Wang, Rong Zhang, and Xianfeng Wang

Subjects

*GLACIOLOGY, *SOLAR radiation, *RAINFALL, *MONSOONS, *MELTWATER, *RESEARCH methodology, *OXYGEN isotopes, *MARINE sediment sampling, *STALACTITES & stalagmites, *CAVES, ENVIRONMENTAL aspects

Abstract

230Th-dated oxygen isotope records of stalagmites from Sanbao Cave, China, characterize Asian Monsoon (AM) precipitation through the ends of the third- and fourthmost recent ice ages. As a result, AM records for the past four glacial terminations can now be precisely correlated with those from ice cores and marine sediments, establishing the timing and sequence of major events. In all four cases, observations are consistent with a classic Northern Hemisphere summer insolation intensity trigger for an initial retreat of northern ice sheets. Meltwater and icebergs entering the North Atlantic alter oceanic and atmospheric circulation and associated fluxes of heat and carbon, causing increases in atmospheric CO2 and Antarctic temperatures that drive the termination in the Southern Hemisphere. Increasing CO2 and summer insolation drive recession of northern ice sheets, with probable positive feedbacks between sea level and CO2. [ABSTRACT FROM AUTHOR]

Published

2009

36. Millennial- and orbital-scale changes in the East Asian monsoon over the past 224,000 years.

Author

Yongjin Wang, HaiCheng, Edwards, R. Lawrence, Xinggong Kong, Xiaohua Shao, Shitao Chen, Jiangyin Wu, Xiouyang Jiang, Xianfeng Wang, and Zhisheng An

Subjects

MONSOONS, WINDS, GLACIAL climates, ICE sheets, OXYGEN, CLIMATOLOGY, EXPERIMENTAL design, SPELEOTHEMS

Abstract

High-resolution speleothem records from China have provided insights into the factors that control the strength of the East Asian monsoon. Our understanding of these factors remains incomplete, however, owing to gaps in the record of monsoon history over the past two interglacial–glacial cycles. In particular, missing sections have hampered our ability to test ideas about orbital-scale controls on the monsoon, the causes of millennial-scale events and relationships between changes in the monsoon and climate in other regions. Here we present an absolute-dated oxygen isotope record from Sanbao cave, central China, that completes a Chinese-cave-based record of the strength of the East Asian monsoon that covers the past 224,000 years. The record is dominated by 23,000-year-long cycles that are synchronous within dating errors with summer insolation at 65° N (ref. 10), supporting the idea that tropical/subtropical monsoons respond dominantly and directly to changes in Northern Hemisphere summer insolation on orbital timescales. The cycles are punctuated by millennial-scale strong-summer-monsoon events (Chinese interstadials), and the new record allows us to identify the complete series of these events over the past two interglacial–glacial cycles. Their duration decreases and their frequency increases during glacial build-up in both the last and penultimate glacial periods, indicating that ice sheet size affects their character and pacing. The ages of the events are exceptionally well constrained and may thus serve as benchmarks for correlating and calibrating climate records. [ABSTRACT FROM AUTHOR]

Published

2008

37. High resolution characterization of the Asian Monsoon between 146,000 and 99,000 years B.P. from Dongge Cave, China and global correlation of events surrounding Termination II

Author

Kelly, Megan J., Edwards, R. Lawrence, Cheng, Hai, Yuan, Daoxian, Cai, Yanjun, Zhang, Meiliang, Lin, Yushi, and An, Zhisheng

Subjects

*SPELEOTHEMS, *GEOMORPHOLOGY, *MONSOONS, *PLEISTOCENE stratigraphic geology

Abstract

Abstract: Speleothem samples from Hulu (eastern China, 32°30′N, 119°10′E) and Dongge (southern China, 25°17′N, 108°5′E) Caves provide a nearly continuous record of the Asian monsoon over the last 160 ka [Wang, Y.J., Cheng, H., Edwards, R.L., An, Z.S., Wu, J.Y., Shen, C.-C., Dorale, J.A., 2001. A high-resolution absolute-dated Late Pleistocene monsoon record from Hulu Cave, China. Science 294, 2345–2348; Yuan, D., Cheng, H., Edwards, R.L., Dykoski, C.A., Kelly, M.J., Zhang, M., Qing, J., Lin, Y., Wang, Y., Wu, J., Dorale, J.A., An, Z., Cai, Y., 2004. Timing, duration, and transitions of the last interglacial Asian Monsoon. Science 304, 575–578]. We have obtained higher resolution data in the interval between ∼99 and 146 ka B.P., providing a detailed account of δ 18O variations over most of MIS 5 and the latter portion of MIS 6. Precise 230Th dating has replicated the chronology of the samples within error. The higher resolution data set confirms the timing of Asian Monsoon Termination II (the midpoint of the negative shift in δ 18O marking the onset of the Last Interglacial Asian Monsoon), placing it at 129.0±0.9 ka B.P. The bulk of this transition (∼1.7‰) took place within approximately 70 years, with the total range of the transition being ∼3‰. The most abrupt portion of the shift in δ 18O values (∼1.1‰) marking the end of the Last Interglacial Asian Monsoon occurred in ∼120 years, the midpoint of which is 120.7±1.0 ka B.P. The Dongge Cave monsoon δ 18O record over late MIS 6 exhibits a series of sub-orbital millennial-scale climate shifts that average 1.3‰ in magnitude and occur on average every 1.8 ky. Abrupt shifts in δ 18O of up to 1‰ also occurred throughout the Last Interglacial Asian Monsoon, with periods at multi-decadal to centennial timescales. Similar to the amplitude and periodicities of events found by Dykoski et al. [Dykoski, C.A., Edwards, R.L., Cheng, H., Yuan, D., Cai, Y., Zhang, M., Lin, Y., An, Z., Revenaugh, J., 2005. A high resolution, absolute-dated Holocene and deglacial Asian monsoon record from Dongge Cave, China. Earth and Planetary Science Letters 233, 71–86.] during the Holocene in the Dongge record, these shifts cover more than 1/2 of the amplitude of millennial-scale and multi-centennial-scale interstadial events during the Last Glacial Period [Wang, Y.J., Cheng, H., Edwards, R.L., An, Z.S., Wu, J.Y., Shen, C.-C., Dorale, J.A., 2001. A high-resolution absolute-dated Late Pleistocene monsoon record from Hulu Cave, China. Science 294, 2345–2348], and millennial-scale and multi-centennial-scale interstadial events during the Penultimate Glacial Period in China (this study). Abrupt decadal to millennial-scale climate events therefore appear to be a general feature of both glacial and interglacial climate. We demonstrate that monsoon intensity correlates well with atmospheric CH4 concentrations over the transition into the Bølling-Allerød, the Bølling-Allerød, and the Younger Dryas. In addition, we correlate an abrupt jump in CH4 concentration with Asian Monsoon Termination II. On the basis of this correlation, we conclude that the rise in atmospheric CO2, Antarctic warming, and the gradual portion of the rise in CH4 around Termination II occur within our “Weak Monsoon Interval” (WMI), an extended interval of heavy δ 18O between 135.5±1.0 and 129.0±1.0 ka B.P., prior to Asian Monsoon Termination II and Northern Hemisphere warming. Antarctic warming over the millennia immediately preceding abrupt northern warming may result from the “bipolar seesaw” mechanism. As such warming (albeit to a smaller extent) also preceded Asian Monsoon Termination I, the “bipolar seesaw” mechanism may play a critical role in glacial terminations. [Copyright &y& Elsevier]

Published

2006

38. A penultimate glacial monsoon record from Hulu Cave and two-phase glacial terminations.

Author

Hai Cheng, Edwards, R. Lawrence, Yongjin Wang, Xinggong Kong, Yanfang Ming, Kelly, Megan J., Xianfeng Wang, Gallup, Christina D., and Weiguo Liu

Subjects

*STALACTITES & stalagmites, *MONSOONS, *SOLAR radiation, *MARINE debris, *ICE sheets, *ICE caps, *MONSOON Experiment, *PHYSICAL geology, *GEOLOGY

Abstract

Oxygen isotope records of three stalagmites from Hulu Cave, China, extend the previous high-resolution absolute-dated Hulu Asian Monsoon record from the last to the penultimate glacial and deglacial periods. The penultimate glacial monsoon broadly follows orbitally induced insolation variations and is punctuated by at least 16 millennial-scale events. We confirm a Weak Monsoon Interval between 135.5 ± 1.0 and 129.0 ± 1.0 ka, prior to the abrupt increase in monsoon intensity at Asian Monsoon Termination II. Based on correlations with both marine ice-rafted debris and atmospheric CH4 records, we demonstrate that most of marine Termination II, the full rise in Antarctic temperature and atmospheric CO2, and much of the rise in CH4 occurred within the Weak Monsoon Interval, when the high northern latitudes were probably cold. From these relationships and similar relationships observed for Termination I, we identify a two-phase glacial termination process that was probably driven by orbital forcing in both hemispheres, affecting the atmospheric hydrological cycle, and combined with ice sheet dynamics. [ABSTRACT FROM AUTHOR]

Published

2006

39. Long-term trend and abrupt events of the Holocene Asian monsoon inferred from a stalagmite δ18O record from Shennongjia in Central China.

Author

Shao Xiaohua, Wang Yongjin, Cheng Hal, Kong Xinggong, Wu Jiangying, and Lawrence, Edwards R.

Subjects

MONSOONS, CLIMATE change, STALACTITES & stalagmites

Abstract

A high-resolution oxygen-isotope record from a thorium-uranium-dated stalagmite from Shanbao Cave at Shennongjia reflects variations in the amount of monsoon precipitation for the period from 11.5 to 2.1 ka (1 ka = 1000 cal aBP). Between 11.5 and 9.3 ka, a sharp decrease in δ18O indicates a rapid increase in monsoon precipitation. An interval of generally high monsoon precipitation is observed between 9.3 and 4.4 ka. An arid period has prevailed between 4.4 and 2.1 ka. The long-term trend of Shanbao record appears to follow summer insolation at 33°N latitude. An abrupt decrease in monsoon precipitation around 4.3 ka is synchronous with the collapse of Neolithic culture in central China. This abrupt change could have resulted from the amplification of the gradually decreased summer insolation by the positive vegetation-atmosphere-aerosol feedback. The weakened Asian monsoon events were in concert with decreased Greenland temperature during the early Holocene, centered at 8.2, 8.6, 9.3, 10.2 and 11.0 ka. This correlation suggests that changes in low-latitude monsoon are connected with climate change in high-latitude polar region. [ABSTRACT FROM AUTHOR]

Published

2006

40. A high-resolution, absolute-dated Holocene and deglacial Asian monsoon record from Dongge Cave, China

Author

Dykoski, Carolyn A., Edwards, R. Lawrence, Cheng, Hai, Yuan, Daoxian, Cai, Yanjun, Zhang, Meiliang, Lin, Yushi, Qing, Jiaming, An, Zhisheng, and Revenaugh, Justin

Subjects

*MONSOONS, *HOLOCENE paleoclimatology, *STALACTITES & stalagmites

Abstract

Abstract: We present a continuous record of the Asian monsoon over the last 16 ka from δ18O measurements of stalagmite calcite. Over 900 oxygen isotopic measurements providing information on shifts in monsoon precipitation are combined with a chronology from 45 precise 230Th dates. δ18O and therefore Asian monsoon intensity generally follows changes in insolation, although changes in δ18O are generally accommodated in abrupt shifts in contrast to smoothly varying insolation, indicating that threshold effects may be important. δ18O decreased dramatically (∼3‰) at the start of the Holocene (∼11.5 ka) and remained low for ∼6 ka. Four positive δ18O events centered at 11225±97 yr BP (1.05‰), 10880±117 yr BP (1.15‰), 9165±75 yr BP (1.4‰), and a double event centered at 8260±64 yr BP (1.1‰) and 8080±74 yr BP (1.0‰) punctuated this period of high monsoon intensity. All four events correlate within error with climate changes in Greenland ice cores. Thus, the relationship between the Asian monsoon and the North Atlantic observed during the glacial period appears to continue into the early Holocene. In addition, three of the four events correlate within error with outburst events from Lake Agassiz. The decline of monsoon intensity in the mid-late Holocene is characterized by an abrupt positive shift in δ18O which occurs at 3550±59 yr BP (1.1‰ in ∼100 yr). In addition, the Holocene is punctuated by numerous centennial- and multi-decadal-scale events (amplitudes 0.5 to 1‰) up to half the amplitude of the glacial interstadial events seen in the last glacial period. Thus, Holocene centennial- and multi-decadal-scale monsoon variability is significant, although not as large as glacial millennial-scale variability. The monsoon shows a strong connection with northern South American hydrological changes related by changes in ITCZ position. Spectral analysis of the δ18O record shows significant peaks at solar periodicities of 208 yr and 86 yr suggesting variation is influenced by solar forcing. However, there are numerous other significant peaks including peaks at El Niño frequencies (observed for high-resolution portions of the record between 8110 and 8250 yr) which suggest that changes in oceanic and atmospheric circulation patterns in addition to those forced by solar changes are important in controlling Holocene monsoon climate. In addition, for this high-resolution portion, we observe a distinctive biennial oscillation of the Asian monsoon, which has been associated with the Tropospheric Biennial Oscillation (TBO). [Copyright &y& Elsevier]

Published

2005

41. A 6000-year high-resolution climatic record from a stalagmite in Xiangshui Cave, Guilin, China.

Author

Meiliang Zhang, DaoXian Yuan, Yushi Lin, Jiaming Qin, Li Bin, Hai Cheng, and Edwards, R. Lawrence

Subjects

CLIMATE change, STALACTITES & stalagmites, HOLOCENE paleoclimatology, CARBON isotopes, MONSOONS

Abstract

Middle- to late-Holocene palaeoclimate change has been reconstructed at high resolution by the analysis of the carbon and oxygen isotopes from a thermal ionization mass spectrometric (TIMS) U / Th dated stalagmite from Xiangshui Cave, near Guilin, Guangxi Province, China. The carbon and oxygen isotopic records from the stalagmite suggest that changes in the Asian monsoon since the middle Holocene (6000 BP) can be divided into two periods: (1) an interval from 6000 to 3800 BP when a strong East Asian summer monsoon gradually weakened and climate was relatively warm and humid; (2) a cool period from 3800 to 373 BP when the East Asian summer monsoon was relatively weak and the winter monsoon was probably relatively strong. This cooler interval was interspersed with a number of short warm periods. This interpretation is largely based upon the general increase in δ18O values of the stalagmite between 6000 and 3800 BP and shifts in δ18O about a relatively heavy mean value between 3800 and 373 BP. The 6000 to 3800 BP trend is probably associated with decrease in precipitation and temperature subsequent to the mid-Holocene climatic optimum. [ABSTRACT FROM AUTHOR]

Published

2004

42. Timing and structure of the weak Asian Monsoon event about 73,000 years ago.

Author

Du, Wenjing, Cheng, Hai, Xu, Yao, Yang, Xunlin, Zhang, Pingzhong, Sha, Lijuan, Li, Hanying, Zhu, Xiaoyan, Zhang, Meiliang, Stríkis, Nicolás M., Cruz, Francisco W., Edwards, R. Lawrence, Zhang, Haiwei, and Ning, Youfeng

Subjects

SPELEOTHEMS, ICE cores, GREENLAND ice, MONSOONS, GLACIATION, OXYGEN isotopes, STALACTITES & stalagmites

Abstract

Oxygen isotope (δ18O) records of cave speleothem have played an important role in the past two decades in characterizing the Asian Monsoon (AM) variability and correlating the monsoonal events with other global climate events on millennial timescales. Of a series of millennial events occurred during the last glacial period, the Chinese Stadial-20 (CS-20, corresponding to the Greenland Stadial-20, GS-20) event around ∼73 kyr BP (thousand years before present, where present = 1950 AD) is distinctive, since it is the weakest AM event during the last glacial period and is likely linked to the Toba volcanic super-eruption. While Greenland ice core records are commonly used to correlate the last glacial millennial events, yet their absolute age uncertainties around the GS-20 is larger than 1000 years. This prohibits precise correlations of the event between global climate archives from different climate systems to investigate the underlying climatic dynamics. Here, we present three Chinese cave stalagmite δ18O records from the AM region, covering a period from 76 to 71 kyr BP, across the CS-20. All stalagmites have high uranium contents and relatively fast growth rates, allowing acquisition of high-resolution (∼10 years) δ18O records with precise 230Th age controls (≤200 years, 2σ) to precisely characterize the structure and timing of the CS-20. Our results demonstrate that the onset and termination of the CS-20 are more gradual in Chinese cave records relative to the GS-20 event in Greenland ice core records. As such, we suggest a new 'break-point' approach to correlate CS-20 with GS-20, at either the initial onset or initial termination shifts of the events, instead of the conventional 'mid-point' match. We dated the initial onset and initial termination of CS-20 to ~74.0 ± 0.2 and 72.5 ± 0.2 kyr BP, respectively, confirming the Greenland ice core chronology well within the quoted uncertainty. The 'break-point' correlation at the GS-20/CS-20 initial termination suggests a lagged onset of CS-20 relative to the onset of GS-20. The lagged onset is in line with a northern high-latitude forcing mechanism triggering the event and a central role of oceanic reorganizations in the propagation of the climate signal. An alternative 'break-point' correlation at the GS-20/CS-20 initial onset suggests that the CS-20 initial termination leads the GS-20 initial termination by a few hundred years. This apparent paradox thus calls for further empirical and theoretical studies to better understand the underlying climatic dynamics and in turn the correlation strategy. • New cave δ18O records characterize Greenland Stadial 20 events in monsoon regions. • Break-points replaced mid-points to correlate Greenland and Asian Monsoon events. • The end of the Greenland Stadial 20 event was initiated at 72.5 ± 0.2 kyr BP. • Our data lend age-benchmarks for correlating climate variability around 73 kyr BP. [ABSTRACT FROM AUTHOR]

Published

2019

43. Contribution of ENSO variability to the East Asian summer monsoon in the late Holocene.

Author

Zhao, Kan, Wang, Yongjin, Edwards, R. Lawrence, Cheng, Hai, Liu, Dianbing, Kong, Xinggong, and Ning, Youfeng

Subjects

*MONSOONS, *SUMMER, *ATMOSPHERIC circulation, *HOLOCENE Epoch, *CLIMATE change, EL Nino

Abstract

The Asian monsoon (AM) is an important atmosphere circulation system of the global climate system, acting as a bridge across high-northern latitude and tropic climates. However, dynamical origins of AM variations during the Holocene remain unclear. Here we present stable isotope records (δ 18 O and δ 13 C) of a Holocene stalagmite from Niu Cave, central China, to address the nature and causes of East Asian summer monsoon (EASM) changes. Our δ 18 O record shows a gradual weakening of the EASM intensity from the middle to the late Holocene, corresponding with a decrease in Northern Hemisphere summer insolation and an enhancement of ENSO activity. The δ 13 C profile exhibits similar variability to δ 18 O record, suggesting that regional hydrological changes were primarily controlled by the large-scale summer monsoon circulation. Power spectrum analyses of δ 18 O and δ 13 C records show that the EASM intensity varies at a dominant periodicity of ~ 830 yr, probably correlated to an ENSO-like cycle. Furthermore, millennial-scale shifts in our records exhibit a strong correlation with that in ENSO proxies over the past 3000 years. The EASM-ENSO relationship may be related to the shifts in the mean position of Walker circulation and western North Pacific subtropical high. Our finding suggests that millennial-scale monsoon changes in the late Holocene are primarily modulated by changes in tropical ocean–atmosphere circulation, rather than variations in the North Atlantic thermohaline circulation. [ABSTRACT FROM AUTHOR]

Published

2016

44. A high-resolved record of the Asian Summer Monsoon from Dongge Cave, China for the past 1200 years.

Author

Zhao, Kan, Wang, Yongjin, Edwards, R. Lawrence, Cheng, Hai, Liu, Dianbing, and Kong, Xinggong

Subjects

*MONSOONS, *THORIUM, *STALACTITES & stalagmites, *OXYGEN isotopes, *SOLAR activity

Abstract

Two annually-laminated and 230 Th-dated stalagmite oxygen isotope (δ 18 O) records from Dongge Cave, China, provided a high-resolution Asian Summer Monsoon (ASM) history for the past 1200 years. A close similarity between annual band thickness and stable isotope analyses (δ 13 C and δ 18 O) suggests the calcite δ 18 O is most likely a proxy associated with ASM precipitation. The two duplicated stalagmite δ 18 O records show that the ASM varies at a periodicity of ∼220 years, concordant with a dominant cycle of solar activity. A period of strong ASM activity occurred during the Spörer Minimum (1450–1550 A.D.), followed by a striking drop circa 1580 A.D., potentially consistent with the social unrest in the final decades of China's Ming Dynasty (1368–1644 A.D.). Centennial-scale changes in ASM precipitation over the last millennium match well with changes in tropical Atlantic sea surface temperatures (SSTs) and South American summer monsoon precipitation. Our findings suggest that variations in low-latitude monsoon precipitation are probably driven by shifts in the mean position of the intertropical convergence zone (ITCZ), which is further mediated by solar activity and tropical SSTs. [ABSTRACT FROM AUTHOR]

Published

2015

45. High-resolution stalagmite δ18O records of Asian monsoon changes in central and southern China spanning the MIS 3/2 transition

Author

Zhao, Kan, Wang, Yongjin, Edwards, R. Lawrence, Cheng, Hai, and Liu, Dianbing

Subjects

*MONSOONS, *STALACTITES & stalagmites, *SEESAW, *OXYGEN isotopes, *CALCITE, *ICE cores, *ATMOSPHERIC circulation

Abstract

Abstract: High-resolution oxygen isotope records of three stalagmites from Sanbao (central China), Wulu (southern China) and Dashibao (southern China) Caves, based on 876 oxygen isotope measurements and 25 precise 230Th dates, provide a detailed Asian monsoon (AM) history from 32.5 to 20.8kaB.P., spanning the shift between Marine Isotope Stages 3 and 2. The calcite δ18O records, although geographically widespread (about 1000km between them), including the previously-reported Hulu record, are similar in timing, shape, and amplitude. These observations support the idea that changes in speleothem δ18O largely represent variations of precipitation isotopic composition associated with large-scale summer monsoon circulation over a large portion of China. These profiles show four centennial to millennial scale strong summer monsoon events, analogous in timing and structure to Greenland Interstadials 5 through 3 (GIS 5–3). Chronology of the events refines the Hulu record and broadly supports the NGRIP GICC05 timescale. Five weak monsoon events are identified at 31.2, 30.1, 28.1, 25.7 and 24.2kaB.P., all of which correspond to stadial events in Greenland. The 30.1 and 24.2ka events correlate with Heinrich stadials 3 and 2. Furthermore, these events correlate to warm episodes in Antarctic ice cores, indicating that the climatic response to North Atlantic cooling is similar in China and in Antarctica, but in an opposite sense. These observations are consistent with the bi-polar seesaw hypothesis. The strong coupling between AM circulation and climate at both high latitudes at the centennial scale indicates that atmospheric circulation changes are important in transmitting abrupt climate signals globally. [ABSTRACT FROM AUTHOR]

Published

2010

46. Interhemispheric anti-phasing of rainfall during the last glacial period

Author

Wang, Xianfeng, Auler, Augusto S., Edwards, R. Lawrence, Cheng, Hai, Ito, Emi, and Solheid, Maniko

Subjects

*ISOTOPES, *OXYGEN, *CLIMATE change, *MONSOONS

Abstract

Abstract: We have obtained a high-resolution oxygen isotopic record of cave calcite from Caverna Botuverá (27°13′S, 49°09′W), southern Brazil, which covers most of the last 36 thousand years (ka), with an average resolution of a few to several decades. The chronology was determined with 46U/Th ages from two stalagmites. Tests for equilibrium conditions show that oxygen isotopic variations are primarily caused by climate change. We interpret our record in terms of meteoric precipitation changes, hence the variability of South American Monsoon (SAM) intensity. The oxygen isotopic profile broadly follows local insolation changes and shows clear millennial-scale variations during the last glacial period with amplitudes as large as 3‰ but with smaller centennial-scale shifts during the Holocene. The overall record is strikingly similar to, but strongly anti-correlated with, a number of records from the Northern Hemisphere. We compared our record to other precisely dated contemporaneous records from Hulu Cave eastern China. Minima in δ 18O (wet periods, intense SAM) at our site are synchronous with maxima in δ 18O (dry periods, weak East Asian Monsoon, EAM) in eastern China (within precise dating errors) and vice versa. This anti-phased precipitation relationship between two low-latitude locations may be interhemispheric in extent, based on comparison with records from other sites. Precipitation anti-phasing may be related to north–south shifts in the mean position of the intertropical convergence zone (ITCZ) and asymmetry in Hadley circulation in two hemispheres, associated not with seasonal changes as observed today, but with millennial-scale climate shifts. The millennial-scale atmospheric see-saw patterns that we observe could have important controls and feedbacks on climate within hemispheres because of water vapor''s greenhouse properties. [Copyright &y& Elsevier]

Published

2006

47. East Asian monsoon changes early in the last deglaciation and insights into the interpretation of oxygen isotope changes in the Chinese stalagmite record.

Author

Liang, Yijia, Zhao, Kan, Edwards, R. Lawrence, Wang, Yongjin, Shao, Qingfeng, Zhang, Zhenqiu, Zhao, Bin, Wang, Quan, Cheng, Hai, and Kong, Xinggong

Subjects

*OXYGEN isotopes, *STALACTITES & stalagmites, *GLACIAL melting, *MONSOONS, *MERIDIONAL overturning circulation, *SEA ice

Abstract

Stalagmite oxygen isotope (δ18O) records have enhanced our understanding of the history of the East Asian monsoon. However, abrupt changes in the monsoon are not constrained well enough to address certain issues and there are still unknowns in the interpretation of cave δ18O records. Here we present a new high-resolution stalagmite record from Shima Cave, central China. Anchored with 24 230Th/U dates, our sample grew from 19.7 to 17.8 ka and from 16.3 to 13.3 ka, covering much of the early portion of the last deglaciation with a temporal resolution of 7 years. Using this record and other available Asian δ18O records, we test model predictions for shifts in δ18O in Asian caves and further investigate monsoon variations on centennial to decadal timescales during the early portion of the last termination. We conclude the following regarding the interpretation of δ18O in Chinese caves. Two mechanisms affect δ18O: changes in the fraction of monsoon rainfall in annual totals (the Wang-Cheng mechanism) and changes in the amount of rainout between tropical sources and cave sites (the Yuan mechanism). The former is caused by changes in the seasonal migration of the sub-tropical jet and likely has a smaller effect on cave δ18O than the latter. The latter involves changes in rainout from both the Pacific and the Indian Ocean sources. Precisely how that change in rainout is partitioned between sources and cave sites is not fully understood; however, it is clear that some of the change takes place in China; i.e. it is not restricted to upstream sites. Rough calculations for our site suggest that mean annual rainfall may have been two-thirds of modern values at the time of the highest δ18O values during Heinrich Stadial 1 (HS1) (16.1 ka) and one fifth again higher than modern values during the Bølling (14.3 ka). Within HS1, consistent with observations from other localities, Chinese cave records exhibit a twofold structure. Within the phases, we observe a truly remarkable relationship between the North Atlantic ice rafted debris record and the Hulu-Shima Cave record, where events ranging from multi-centennial to sub-decadal timescale can be related across Eurasia. The origin of this two-phased structure may relate to different sources and extent of ice-rafted debris in the North Atlantic as well as the extent of sea ice and the Atlantic Meridional Overturning Circulation. • Two mechanisms affect Chinese stalagmite δ18O: the Wang-Cheng mechanism and the Yuan mechanism. • A two-phased structure of East Asian Monsoon during Heinrich Stadial 1, an early weakening and a subsequent weaker condition. • A remarkable relationship between ice-rafting events and weak monsoon events on the multi-centennial to sub-decadal scale. [ABSTRACT FROM AUTHOR]

Published

2020

48. A Test of Climate, Sun, and Culture Relationships from an 1810-Year Chinese Cave Record.

Author

Pingzhong Zhang, Hai Cheng, Edwards, R. Lawrence, Fahu Chen, Yongjin Wang, Xunlin Yang, Jian Liu, Ming Tan, Xianfeng Wang, Jinghua Liu, Chunlei An, Zhibo Dai, Jing Zhou, Dezhong Zhang, Jihong Jia, Liya Jin, and Johnson, Kathleen R.

Subjects

*MONSOONS, *FORCING (Model theory), *DIURNAL variations in meteorology, *GEOLOGICAL time scales, *CLIMATE change, *CAVE paintings, *ROYAL houses, CHINESE civilization

Abstract

A record from Wanxiang Cave, China, characterizes Asian Monsoon (AM) history over the past 1810 years. The summer monsoon correlates with solar variability, Northern Hemisphere and Chinese temperature, Alpine glacial retreat, and Chinese cultural changes. It was generally strong during Europe's Medieval Warm Period and weak during Europe's Little Ice Age, as well as during the final decades of the Tang, Yuan, and Ming Dynasties, all times that were characterized by popular unrest. It was strong during the first several decades of the Northern Song Dynasty, a period of increased rice cultivation and dramatic population increase. The sign of the correlation between the AM and temperature switches around 1960, suggesting that anthropogenic forcing superseded natural forcing as the major driver of AM changes in the late 20th century. [ABSTRACT FROM AUTHOR]

Published

2008

49. 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

50. Spatio-temporal evolution of Australasian monsoon hydroclimate over the last 40,000 years.

Author

Krause, Claire E., Gagan, Michael K., Dunbar, Gavin B., Hantoro, Wahyoe S., Hellstrom, John C., Cheng, Hai, Edwards, R. Lawrence, Suwargadi, Bambang W., Abram, Nerilie J., and Rifai, Hamdi

Subjects

*CLIMATE change models, *MONSOONS, *CLIMATE change

Abstract

Abstract Maritime Continent (MC) convection drives zonal and meridional climate modes, including the Australasian monsoon system, but its role in past global climate change remains uncertain. Here we use speleothem oxygen isotope (δ 18 O) records from a latitudinal transect across the MC, and a new critically located record for southwest Sulawesi, Indonesia, to reconstruct spatial hydroclimate variability in the Australasian monsoon domain over the last 40,000 yr. Our results show that atmospheric convection in the core MC region was reduced from ∼40,000 to 12,000 yr ago and strengthened rapidly only after the inundation of shallow continental shelves in the region, well after the onset of deglaciation. Interestingly, the millennial-scale climatic impacts of North Atlantic Heinrich events are not evident in Sulawesi. Together with climate model simulations, we demonstrate that changes in deep atmospheric convection dominate glacial–interglacial hydroclimate over the MC, whereas latitudinal shifts in the mean location of the InterTropical Convergence Zone control rainfall patterns during abrupt climate changes. Highlights • We present new speleothem results from Sulawesi, Indonesia for the past 40,000 yr. • Atmospheric convection over the Maritime Continent was reduced from ∼40 to 12 kyr. • Convection strengthened following the inundation of shallow continental shelves. • Convection dominates glacial–interglacial hydroclimate over the Maritime Continent. • Latitudinal shifts in the ITCZ control rainfall patterns during abrupt climate events. [ABSTRACT FROM AUTHOR]

Published

2019