Your search keyword '"Zhang, Muhui"' showing total 3 results

1. First Records of Late Triassic Conodont Fauna and δ13Ccarb from the Dengdengqiao Section, Dangchang County, Gansu Province, Northwestern China

Author

Li, Hanxiao, Wang, Miaoyan, Zhang, Muhui, Wignall, Paul B., Rigo, Manuel, Chen, Yanlong, Wu, Xianlang, Ouyang, Zhumin, Wu, Baojin, Yi, Zhaoyang, Zhang, Zaitian, and Lai, Xulong

Published

2021

2. A review of carbon isotope excursions, redox changes and marine red beds of the Early Triassic with insights from the Qinling Sea, northwest China.

Author

Li, Hanxiao, Wignall, Paul B., Jiang, Haishui, Zhang, Muhui, Wu, Xianlang, and Lai, Xulong

Subjects

*RED beds, *CARBON isotopes, *ANOXIC waters, *OXIDATION-reduction reaction, *SEAWATER

Abstract

The Early Triassic was an interval characterized by frequent, large global carbon isotope excursions (CIEs), multiple and widespread anoxic phases, and generally high but fluctuating temperatures. In order to comprehensively understand their inter-relationship, we have investigated the Yiwagou section from the little-known Qinling shelf sea, at the eastern corner of Paleo-Tethys, and evaluated the global marine red bed (MRB) occurrences, redox conditions and CIEs. The anoxic episodes show great variations between different regions, but only during the earliest Griesbachian were they of almost global extent, whilst during other Early Triassic intervals there is great regional variation of redox trends. Even during the early Griesbachian anoxia was absent in South Tibet and Qinling shelf seas. Smithian MRBs in the latter region are dominated by intraclasts or ooids and are likely to be caused by ferruginous ocean waters advected from the adjacent Paleo-Tethys Ocean. The more widespread Spathian MRBs, mostly developed in the middle Spathian, were also likely a product of advection of anoxic ferruginous waters into shelf areas. Vigorous upwelling at this time is unlikely because this would stimulate high productivity and diagenetic conditions that would have reduced the iron oxyhydroxides responsible for the MRBs. Compilation of 54 δ13C carb records reveals that the negative excursion in the Smithian, from P2 to N3, ranges in magnitude from −2.9‰ to −9.7‰, the positive excursion from N3 to P3 across the Smithian–Spathian boundary ranges from 2.6‰ to 11.9‰ and its amplitude is greatest in the Northern Yangtze Platform. The similarity of N3 values at Yiwagou with those from the seamount carbonates of the Panthalassa Ocean indicates a good oceanic connectivity at the time of Smithian MRBs formation. The global average of δ13C values during the P2 and N3 CIEs shows that values are 2.0‰ and 1.1‰ heavier in shallow settings compared to deep settings respectively. In contrast, there is no consistent variation with water depth of the subsequent P3 CIE. Analysis of Δδ13C vert values shows that there are large differences between regions that likely reflects the different stratification histories of epicontinental basins, but there is no global signal at this time. Previous studies have suggested a collapse of the water column carbon isotope gradient during P3 associated with vigorous upwelling, but this pattern is not widespread and is likely a regional signal. The origins of the extreme light carbon isotope values during the mid-Smithian N3 excursion, and the heavy early Spathian P3 excursion, remain unclear and are not easily reconciled with global redox changes. Changes in the proportions of carbonate carbon and organic carbon burial may be important. • New model for Early Triassic marine red beds - advection of anoxic ferruginous waters • The origins of P2, N3 and P3 carbon isotope excursions remain unclear and are not easily reconciled with global redox changes • Large variation of Δδ13C vert values in Early Triassic are likely a response to evolution in distinct epicontinental basins [ABSTRACT FROM AUTHOR]

Published

2023

3. Integrated conodont biostratigraphy and δ13Ccarb records from end Permian to Early Triassic at Yiwagou Section, Gansu Province, northwestern China and their implications.

Author

Li, Hanxiao, Dong, Hanxinshuo, Jiang, Haishui, Wignall, Paul B., Chen, Yanlong, Zhang, Muhui, Ouyang, Zhumin, Wu, Xianlang, Wu, Baojin, Zhang, Zaitian, and Lai, Xulong

Subjects

*BIOSTRATIGRAPHY, *CARBON isotopes, *PROVINCES, CHINESE history

Abstract

The South Qinling Belt is a key area for understanding the collisional history of the South China and North China blocks during the Lopingian (late Permian) and Triassic. This paper establishes the first integrated timescale based on conodont biostratigraphy and δ13C carb records from a continuous end Permian to the end-Early Triassic succession at Yiwagou, South Qinling Platform (SQP). Ten Early Triassic conodont zones are established. They are, in ascending order, Hindeodus parvus , H. postparvus , Neospathodus dieneri , Eurygnathodus costatus and E. hamadai , Novispathodus waageni - Scythogondolella mosheri , Pachycladina - Parachirognathus assemblage, Triassospathodus hungaricus , Ns. robustispinus and T. clinatus zones. Our record of δ13C carb fluctuations shows close correspondence to known Early Triassic carbon isotope fluctuations and, in combination with the conodont data, helps achieve a high-resolution age model for the region. The use of E. costatus as a good auxiliary marker for the Induan-Olenekian boundary (IOB), within palaeolatitudes of 40°N-40°S, is supported but it can not replace the use of Nv. waageni , because the former is absent in higher-latitude and cooler regions. The conodont faunas from the Palaeo-Tethyan Yiwagou section closely resemble those from the Northern Yangtze Platform (NYP), but they differ somewhat from the contemporaneous Nanpanjiang Basin at species level. Thus, the Qinling Sea was likely well connected with the NYP in the Early Triassic, but was more isolated from the Nanpanjiang Basin. The remarkable reappearance of Hindeodus fauna around the IOB at Yiwagou implies that the shallow-water Qinling Sea was a refuge area for this genus long after its disappearance elsewhere. • Conodont biostratigraphy and δ13C carb records from end Permian to the end-Early Triassic succession at Yiwagou, South Qinling Platform. • Discussion of index conodont for the Induan-Olenekian boundary. • Comparison of the conodont faunas between the eastern Paleo-Tethyan Yiwagou, South China and the western Paleo-Tethyan Europe. • The shallow-water Qinling Sea was a refuge area for Hindeodus fauna after Griesbachian. [ABSTRACT FROM AUTHOR]

Published

2022