Your search keyword '"Sun, Chunqing"' showing total 10 results

1. Ongoing India–Asia convergence controlled differential growth of the eastern Tibetan Plateau.

Author

Zhang, Bin, Liu, Jiaqi, Chen, Wen, Zhang, Zhiliang, Yang, Li, Zhang, Lei, Zhu, Zeyang, Sun, Chunqing, and Sun, Zhihao

Abstract

[Display omitted] • The eastern Tibetan Plateau expanded from its center to the margin since the Eocene. • Neogene–Quaternary surface uplift contributed ∼25% to current elevation. • Tectonic deformation substantially amplified climate-driven exhumation. The eastern Tibetan Plateau is known for its unique topography and active tectonics, serves as a crucial region for investigating geodynamics and lithosphere–atmosphere interaction. Despite its importance, the formation process and geodynamics of this region remain controversial. We integrated new and reported thermochronological data, and paleo-crustal thickness reconstruction to explore the tectonic deformation, climate–tectonic coupling, and geodynamics of the area. New apatite fission track data, collected from the upstream areas of major rivers in the eastern Tibetan Plateau, revealed multiple rapid river incision phases during the Eocene and Neogene–Quaternary. Apatite (U-Th)/He data obtained from a borehole near the Gaoligong shear zone indicates that the Yingjiang fault experienced two rapid exhumation phases, which initiated at ∼22 Ma and ∼18 Ma, respectively. Thermo-kinematic modeling (Pecube), based on multiple thermochronometers, predicted three phases of thrusting along the Longmenshan fault, which were initiated at ∼34 Ma, ∼17 Ma and ∼14 Ma, respectively. During the late Eocene period, Sr/Y and (La/Yb) n ratios suggest that the eastern Qiangtang and Songpan–Ganzi terranes underwent considerable uplift, followed by outward uplift in the collisional front zone and the southeastern margin of the plateau during the late Oligocene. Paleo-crustal thickness reconstruction also indicate another ∼1 km surface uplift during the Neogene–Quaternary. Our findings, when combined with reported thermochronological data, suggest that during the Neogene–Quaternary, the collisional front zone and the eastern margin of the plateau underwent greater exhumation compared to the eastern Qiangtang and Songpan–Ganzi terranes. The temporally and spatially varied exhumation shaped the landscape of the eastern Tibetan Plateau, driven mainly by precipitation-related erosion and promoted by fold-thrust and strike-slip thrust. This was controlled primarily by eastward lithosphere/asthenosphere extrusion associated with ongoing India–Asia convergence. [ABSTRACT FROM AUTHOR]

Published

2024

2. The Connotation of Gender Culture in the Ancient Female Prose Works.

Author

Sun Chunqing

Abstract

The prose works composed by the ancient female writers revealed the rich images and the mental worlds of female authors. Influenced by the trend of liberation of individual personality after the Mid-Ming Dynasty, on the one hand, they were discernibly guarded by the attitude highlighting "virtues" in the compositions by female writers; on the other hand, they were reconstructed with the stance of "developing virtues" by emphasizing emotions somehow and its tradition of composition, reflecting the values which integrated both talents and virtues as well as virtues and emotions. Part of the female writers had the consciousness of "achieving glory from writing" and expected attaining immortality from their writing. They sought potential pursuit for accomplishing their individual values. Their works expressed their sympathy and pity for the unfortunate women, and were also integrated somehow with their examination and questioning on the experiences of traditional women. [ABSTRACT FROM AUTHOR]

Published

2019

3. High-resolution ∼55 ka paleomagnetic record of Biển Hồ maar lake sediment from Vietnam in relation to detailed 14C and 137Cs geochronologies.

Author

Ojala, Antti E.K., Nguyễn-Văn, Hướng, Unkel, Ingmar, Nguyễn-Thùy, Dương, Nguyễn-Đình, Thái, Đỗ-Trọng, Quốc, Sun, Chunqing, Sauer, Peter E., and Schimmelmann, Arndt

Subjects

VOLCANIC craters, LAKE sediment analysis, LAKE sediments, SEDIMENTATION & deposition, HOLOCENE Epoch, PLEISTOCENE Epoch, FACIES

Abstract

Vietnam's Central Highlands in Pleiku feature numerous volcanic craters (i.e. maars) formed over 0.2 Ma ago that contain continuous high-resolution lacustrine sediment records extending from the Late Pleistocene through the Holocene. Their evolution and sedimentary proxies are potentially powerful archives for interpretation of East-Asian monsoon variability across Vietnam, as well as for local to regional changes in landcover. The focus of this study is to develop a reliable chronology for the Biển Hồ 25-m-long lake sediment sequence in Vietnam's Central Highlands. We present a combined sediment chronology extending back to 55 ka cal BP that is based on 137Cs surface sediment chronology, paleomagnetic dating, and 47 14C dates distributed evenly throughout the sequence. Based on sedimentary facies analysis and a smooth age-depth model based on 137Cs and 14C data, we infer a long-term stable rate of sedimentation in Biển Hồ lake without unconformities or erosional hiatuses, except for the uppermost section (ca. 100 years) where human activities increase the rate of sedimentation significantly. The Biển Hồ sequence thus provides a complete and uninterrupted record of the lake's depositional history. The present contribution is a geochronologic opening salvo for future contributions from Biển Hồ lake featuring multi-disciplinary evidence for longer-term paleoclimate and environmental changes. [ABSTRACT FROM AUTHOR]

Published

2023

4. The first tephra evidence for a Late Glacial explosive volcanic eruption in the Arxan-Chaihe volcanic field (ACVF), northeast China.

Author

Sun, Chunqing, Liu, Qiang, Wu, Jing, Németh, Károly, Wang, Luo, Zhao, Yongwei, Chu, Guoqiang, and Liu, Jiaqi

Subjects

VOLCANISM, VOLCANIC fields, VOLCANIC eruptions, VOLCANIC ash, tuff, etc., RADIOCARBON dating, TEPHROCHRONOLOGY, MAGNETIC susceptibility, GLACIOLOGY

Abstract

A 5 mm thick tephra layer has been identified in the lacustrine sediments of Moon Lake in the Arxan-Chaihe volcanic field (ACVF) in Greater Khingan Mountains (NE China). The visible tephra layer is clearly revealed as a distinct peak in magnetic susceptibility measurements. The tephra layer consists mainly of brown vesicular glass shards and minor amounts of plagioclase, olivine and clinopyroxene. Major and minor element analysis has been carried out on the glass shards and plagioclase minerals. Glass shards show low concentrations of K 2 O, similar to the eruptive products derived from post-Miocene volcanoes of the ACVF. The plagioclase phenocrysts in both lava and tephra from ACVF, and in the tephra recorded in Moon Lake are labradorites. During the Late Pleistocene to Holocene, there were also extensive explosive eruptions in the nearby Nuominhe volcanic field (NVF). Volcanic rocks from the ACVF are easily distinguished from those derived from the NVF, having distinctly different K 2 O concentrations. This compositional variation is likely the result of different magmatic processes operating in the ACVF and NVF. Radiocarbon dating on organic materials from the lacustrine sediments dates the tephra layer to ca. 14,200 cal yrs BP, which implies that it was generated by a previously unknown Late Pleistocene explosive eruption in the ACVF. These results, for the first time, give a direct tephra record in this area, and suggest that identification of further tephra and/or cryptotephra in local sedimentary basins such as crater lakes of scoria cones and maars will be significant for dating the Late Pleistocene to Holocene volcanic eruptions and will help to establish a detailed record of the volcanic activity in the ACVF. The newly discovered tephra layer also provides a dated tephrochronological marker layer, which will in future studies provide a means to synchronise local sedimentary records of the climatically variable Late Glacial. [ABSTRACT FROM AUTHOR]

Published

2017

5. Ash From the Changbaishan Qixiangzhan Eruption: A New Early Holocene Marker Horizon Across East Asia

Author

Sun, Chunqing, Wang, Luo, Plunkett, Gill, You, Haitao, Zhu, Zeyang, Zhang, Lei, Zhang, Bin, Chu, Guoqiang, and Liu, Jiaqi

Abstract

Prehistoric Holocene eruptions of Changbaishan volcano in Northeast China are poorly dated, with the exception of the 946 CE Millennium eruption. Poorly refined age estimates for the earlier eruptions present problems for the reconstruction of the eruptive history of the volcano. The Qixiangzhan eruption (QE) is a major controversial event in terms of its eruptive timing (ranging from ~88 to ~4 kyr) and style (effusive or explosive). As a result of the imprecise age estimates for the eruption, a geomagnetic field excursion recorded within the QE comendite has been variably correlated with a number of different excursion events observed elsewhere. In this study, a visible early Holocene tephra was identified in Yuanchi Lake, ~30 km east of the Changbaishan volcanic vent, and was dated to 8831‐8100 cal yr BP using Bayesian age modelling. Glass shard compositions enable the correlation of this tephra with the poorly dated QE, as well as with a tephra (SG14‐1058) recorded in Lake Suigetsu, in central Japan. These correlations confirm that the QE was explosive and that the ash from the QE can serve as an important early Holocene marker bed across East Asia. In addition, we propose an age of ~8100 cal yr BP for the QE based on the precise date of the Suigetsu SG14‐1058 tephra. Our results also confirm that the geomagnetic field excursion recorded in the Qixiangzhan comendite dates to ~8100 cal yr BP. A tephra layer from Qixiangzhan eruption was identified in Yuanchi Lake ~30 km east of the Changbaishan volcanoQixiangzhan explosive eruption was dated to ~8100 cal yr BPAsh from Qixiangzhan eruption can serve as a marker layer around East Asia

Published

2018

6. New evidence for the presence of Changbaishan Millennium eruption ash in the Longgang volcanic field, Northeast China.

Author

Sun, Chunqing, You, Haitao, He, Huaiyu, Zhang, Lei, Gao, Jinliang, Guo, Wenfeng, Chen, Shuangshuang, Mao, Qian, Liu, Qiang, Chu, Guoqiang, and Liu, Jiaqi

Abstract

The Changbaishan Millennium eruption (~ AD 940s) produced a widely distributed tephra layer around northeast Asia. This tephra layer serves as a marker bed in Greenland ice cores and in marine, lake, archeological and tsunami sediments in Japan and the surrounding region. However, little attention has been paid to the widespread sediments west of Changbaishan volcano. Here we present new stratigraphic, geochemical, varve chronology, and 14 C geochronological data from the varved sediments in Lake Sihailongwan, Longgang volcanic field, Northeast China, extending the westerly margin of this eruption. The distinctive geochemical characteristic of volcanic glass (ranging from trachyte to rhyolite), similar to those of proximal and distal tephra, confirmed the occurrence of Changbaishan Millennium eruption ash in the lake, illustrating the westward dispersal fan of the ash deposits. The position of the peak concentration of glass shards of this tephra was dated to 953 ± 37 AD by varve chronology, and the radiocarbon samples immediately above this tephra gave a date of 940–1020 AD, overlapping the most recent ages for this eruption. The occurrence of Changbaishan Millennium eruption ash in this lake enables a direct and precise synchronization with other high-resolution archives in Northeast Asia, such as maar lakes and peat and marine sediments, thus providing an isochronous marker for a range of sedimentary contexts. [ABSTRACT FROM AUTHOR]

Published

2015

7. Clinopyroxene and Fe-Ti oxides for correlating the ash from Changbaishan Millennium eruption

Author

Sun, ChunQing, Liu, JiaQi, You, HaiTao, and Chu, GuoQiang

Abstract

Volcanic glass compositions and tephra layer age are critical for anchoring their sources and correlating among different sites; however, such work may be imprecise when the tephra has varied compositions. The ash from Changbaishan Millennium eruption (940s AD), a widely distributed tephra layer, has been detected in the far-east areas of Russia, the Korean Peninsula, Japan, and in Greenland ice cores. There are some debates on the presence of this tephra from sedimentary archives to the west of Changbaishan volcano, such as lake and peat sediments in the Longgang volcanic field. In this paper, major element compositions for clinopyroxene and Fe-Ti oxides were performed on proximal tephra from Changbaishan and the Millennium eruption ash record in Lake Sihailongwan. Clinopyroxene and Fe-Ti oxides microlites from Sihailongwan show augite- ferroaugite and titanmagnetite compositions, similar to those from dark pumice in Changbaishan proximal tephra, but different from the light grey pumice, which has ferrohedenbergite and ilmenite microlite compositions. This result implies that the tephra recorded in Sihailongwan was mainly from the trachytic eruptive phase of the Millennium eruption, and the rhyolitic eruptive phase made a relatively small contribution to this area. Analyzing clinopyroxene and Fe-Ti oxides microlites is a new method for correlating tephra layers from Changbaishan Millennium eruption.

Published

2016

8. Reawaking of Tonga volcano

Author

Zhao, Wenbin, Sun, Chunqing, and Guo, Zhengfu

Published

2022

9. Recording Fidelity of Relative Paleointensity Characteristics in the North Pacific Ocean

Author

Gai, Congcong, Liu, Yanguang, Shi, Xuefa, Sun, Chunqing, Jiang, Xiaodong, Liu, Jianxing, Zhong, Yi, and Liu, Qingsong

Abstract

North Pacific Ocean sediments are important archives of geomagnetic field and paleoenvironmental evolutions, yet late Quaternary sedimentary sequences in the North Pacific Ocean are less explored because of generally low sedimentation rates and the challenge of dating sediments deposited below the calcite compensation depth. Core NP02 sediments from the North Pacific Ocean contain three visible tephra layers, which are identified as the To‐Of, Spfa‐1, and Kt‐3 tephra, respectively. An age model for core NP02 is established based on tephra correlation and one radiocarbon date, which gives a mean sedimentation rate of ∼11.6 cm/kyr. Magnetic analyses suggest the dominance of two remanence carriers; detrital vortex state and biogenic single domain magnetite. Variable depth offsets between the relative paleointensity (RPI) signals carried by the two remanence carriers adds a negligible age error (<0.5 kyr) to the core NP02 RPI record. Pronounced RPI amplitude variations are observed, and the Rockall and Laschamp excursions are identified in the core NP02 RPI record based on the age model. The fidelity of the core NP02 RPI record is further verified by comparison with other RPI stacks and records, and we demonstrate that the RPI variations can assist in chronology refinement. The North Pacific Ocean is too deep to preserve materials effectively for the oxygen isotope chronology, and sediments deposit slowly in this region. Therefore, dating is a big problem for late Quaternary sedimentary cores. In this study, core NP02 sediments from the North Pacific Ocean are studied. The To‐Of, Spfa‐1, and Kt‐3 tephra layers are identified in core NP02 sediments based on the geochemical features. An age model for this core is reconstructed with the aid of tephra ages and one radiocarbon date. Magnetic analyses suggest that both small biogenic and relatively large detrital magnetite record geomagnetic information, and the two groups of magnetite deposit at about the same time. Based on the age model, core NP02 RPI record preserves the Rockall and Laschamp excursions, and the RPI pattern is consistent with other RPI stacks and records, which verifies core NP02 RPI fidelity. Therefore, we demonstrate that RPI variations is a promising dating tool for North Pacific Ocean sediments. We use an age model based on tephra correlation and one radiocarbon date to assess the fidelity of relative paleointensity variationsDetrital vortex state and biogenic single domain magnetite are the dominant remanence carriers, and they introduced <0.5 kyr age errorAssessment of component‐specific magnetic properties should be considered to ensure the reliability of relative paleointensity variations We use an age model based on tephra correlation and one radiocarbon date to assess the fidelity of relative paleointensity variations Detrital vortex state and biogenic single domain magnetite are the dominant remanence carriers, and they introduced <0.5 kyr age error Assessment of component‐specific magnetic properties should be considered to ensure the reliability of relative paleointensity variations

Published

2021

10. An Integrated Late Pleistocene to Holocene Tephrostratigraphic Framework for South‐East and East Asia

Author

Sun, Chunqing, Wang, Luo, Plunkett, Gill, Zhang, Enlou, and Liu, Jiaqi

Abstract

Volcanic ash has been widely used as unique independent marker horizons for dating and synchronizing paleoenvironments and archeological records. Here, we report a series of key widespread late Pleistocene to Holocene tephras horizons from a lake sequence in southern China that have significant potential for dating and synchronizing paleoenvironmental records from East Asia. Translatitudinal paleoclimatological, paleoenvironmental, and archeological correlations from the tropical Philippines, mainland China, and midlatitude Japan are achievable through these extensively distributed tephras, including synthetic studies of the Younger Dryas and mid‐Holocene climate events. Additionally, we establish refined ages for four pre‐1991 Pinatubo eruptions and date three late Pleistocene Luzon eruptions based on the lake sequence age model, which will facilitate future studies of tropical volcanic eruptions’ forcing of climate change. Our results highlight the volcanic hazards around densely populated East Asia, and bring solutions to resolving dating uncertainty in the synchronization of rapid climate events across the region. Tephra layers have been hailed as valuable independent age‐equivalent marker layers for precisely correlating archives of past environmental change. Japan and south‐east Asia have the most active land‐based volcanoes on Earth, and ash from their eruptions can be traced as far as the polar ice cores. However, the volcanic histories and products from the regions are poorly constrained, limiting the ability to recognize the eruptions' wider climate and societal impacts, and to use far‐traveled ash as dating horizons. In this study, we investigated cryptotephra (volcanic ash particles that are invisible to the naked eye) in a lake sequence from southern China. Cryptotephra from the Philippines, Japan, and South Korea was identified in the lake sediment. The discovery of these tephras in southern China significantly extends the volcanic ash distributions of several known late Pleistocene to Holocene eruptions from this region, and indicates that these prehistoric eruptions may have frequently impacted on some of the most densely populated parts of East Asia. These extensively distributed tephras will provide excellent dating horizons for future climate studies in this region. We present the first high‐resolution late Pleistocene to Holocene cryptotephra sequence in mainland ChinaA series of key widespread late Pleistocene to Holocene tephra isochrons around East Asia is establishedWe refine the dating of late Pleistocene to Holocene eruptions from Pinatubo and a volcano from southwest Luzon We present the first high‐resolution late Pleistocene to Holocene cryptotephra sequence in mainland China A series of key widespread late Pleistocene to Holocene tephra isochrons around East Asia is established We refine the dating of late Pleistocene to Holocene eruptions from Pinatubo and a volcano from southwest Luzon

Published

2021