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Li, Le, Chen, Jun, Hedding, David William, Fu, Yuanhe, Ye, Maolin, Li, Gaojun (2020) Uranium isotopic constraints on the nature of the prehistoric flood at the Lajia site, China. Geology, 48 (1) 15-18 doi:10.1130/g46306.1

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Reference TypeJournal (article/letter/editorial)
TitleUranium isotopic constraints on the nature of the prehistoric flood at the Lajia site, China
JournalGeology
AuthorsLi, LeAuthor
Chen, JunAuthor
Hedding, David WilliamAuthor
Fu, YuanheAuthor
Ye, MaolinAuthor
Li, GaojunAuthor
Year2020 (January 1)Volume48
Issue1
PublisherGeological Society of America
DOIdoi:10.1130/g46306.1Search in ResearchGate
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Mindat Ref. ID144059Long-form Identifiermindat:1:5:144059:5
GUID0
Full ReferenceLi, Le, Chen, Jun, Hedding, David William, Fu, Yuanhe, Ye, Maolin, Li, Gaojun (2020) Uranium isotopic constraints on the nature of the prehistoric flood at the Lajia site, China. Geology, 48 (1) 15-18 doi:10.1130/g46306.1
Plain TextLi, Le, Chen, Jun, Hedding, David William, Fu, Yuanhe, Ye, Maolin, Li, Gaojun (2020) Uranium isotopic constraints on the nature of the prehistoric flood at the Lajia site, China. Geology, 48 (1) 15-18 doi:10.1130/g46306.1
In(2020, January) Geology Vol. 48 (1) Geological Society of America
Abstract/NotesAbstract
The catastrophic landslide-dam outburst flood, possibly caused by the same earthquake that destroyed the well-dated Lajia archaeological site, in the upper reaches of the Yellow River in China, may provide an accurate constraint on the age of the first Chinese dynasty (Xia Dynasty), which, according to Chinese ancient documents, has been associated with flood-control activities. The key link between the destructive earthquake and the megaflood is a flood-related blackish sand layer (BSL) covering the Lajia site on terraces high above the Yellow River channel. However, the BSL, which mainly consists of debris of local schist, may have originated from mudflows in local gullies rather than an outburst flood from the Yellow River that swept predominantly schist debris from channel slopes and/or a landslide dam. The composition of the fine particles in the BSL can help to discriminate the provenance of the BSL because an outburst flood would consist of suspended particles from the Yellow River, while a mudflow origin would incorporate fine particles from the local gullies. However, the similar geological origin between the Yellow River sediments and the Quaternary eolian loess and Tertiary reddish clay sediments that feed the local gullies precludes the application of traditional geochemical source tracers. This work shows that the 234U/238U activity ratio, which reflects the comminution age, of the fine particles in the BSL is very similar to that of the Yellow River sediments but not to the sediments in the local gullies, supporting an outburst flood origin of the BSL. Thus, the emergence of the Xia Dynasty can be constrained to be shortly after the sudden destruction of the Lajia site, if the outburst flood is the same event that initiated nationalization as described in the Chinese ancient documents.

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Li, Gaojun, Li, Le, Hedding, David William (2020) Uranium isotopic constraints on the nature of the prehistoric flood at the Lajia site, China: REPLY. Geology, 48 (4) doi:10.1130/g47462y.1
Zhang, Xinabo (2020) Uranium isotopic constraints on the nature of the prehistoric flood at the Lajia site, China: COMMENT. Geology, 48 (4) doi:10.1130/g472872c.1
Li, Le, Chen, Jun, Chen, Yang, Hedding, David William, Li, Tao, Li, Laifeng, Liu, Xiangjun, Zeng, Fangming, Wu, Weihua, Zhao, Liang, Li, Gaojun (2018) Uranium isotopic constraints on the provenance of dust on the Chinese Loess Plateau. Geology, 46 (9) 747-750 doi:10.1130/g45130.1
Li, Le, Li, Gen K., Li, Tao, Yi, Shuangwen, Lu, Huayu, Hedding, David William, Chen, Jun, Li, Gaojun (2023) Tracking the Provenance of Aeolian Loess in Northeastern China by Uranium Isotopes. Geochemistry, Geophysics, Geosystems, 24 (4) doi:10.1029/2022gc010715
Li, Le, Li, Gen K., Zhang, Run, Zhang, Wenfang, Hedding, David William, Chen, Jun, Li, Gaojun (2024) Uranium Isotope Constraints on the Preā€Deposition Time of Asian Dust to the North Pacific Ocean: Implications for Provenance and Iron Supply. Geophysical Research Letters, 51 (8) doi:10.1029/2023gl107820
Yang, Xiaoyan, Xia, Zhengkai, Ye, Maolin (2003) Prehistoric disasters at Lajia Site, Qinghai, China. Chinese Science Bulletin, 48 (17). 1877-1881 doi:10.1007/bf03184071
Xu, Zhewen, Li, Tao, Li, Gaojun, Hedding, David W., Wang, Yunqiang, Gou, Long-Fei, Zhao, Liang, Chen, Jun (2022) Lithium isotopic composition of soil pore water: Responses to evapotranspiration. Geology, 50 (2) 194-198 doi:10.1130/g49366.1
Li, Laifeng, Robinson, Laura F., Li, Gen K., Hedding, David William, Xian, Feng, Xu, Zhewen, Li, Le, Ouyang, Shenghui, Li, Tao, Li, Gaojun (2024) Multi-isotopic constraints on the impacts of landslide on weathering and erosion in an active mountain range. Earth and Planetary Science Letters, 626. 118527 doi:10.1016/j.epsl.2023.118527
Li, Tao, Hedding, David William, Chen, Jun, Li, Gaojun (2021) Modulation of Effective Precipitation by Temperature in the East Asian Monsoon Margins During Marine Isotope Stage 5. Geophysical Research Letters, 48 (24) doi:10.1029/2021gl095985
Li, Le, Li, Gen K., Chen, Jun, Hedding, David William, Li, Gaojun (2024) Tectonic and erosional controls of sediment residence time in small catchments draining an active mountain range: Evidence from uranium comminution age. Geochimica et Cosmochimica Acta, 381. 12-24 doi:10.1016/j.gca.2024.07.031
Zhang, Run, Li, Laifeng, Wang, Xianyan, Hedding, David William, Zhang, Jinyu, Li, Le, Xu, Zhewen, Ouyang, Shenghui, Li, Gaojun (2025) Dating fluvial terraces on the southeastern Tibetan Plateau using the uranium comminution age method. Quaternary Science Reviews, 356. doi:10.1016/j.quascirev.2025.109264
 
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