Abstract
Based on field landscape investigations, thermoluminescence (TL), magnetostratigraphy and loess-paleosol sequence, we found that there are at least four Yellow River terraces, whose ages are 0.86 Ma, 0.62 Ma, 0.13 Ma and 0.05 Ma, in Yuxi Fault-Uplift (from Sanmen Gorge to Mengjin) and at least three Yellow River terraces, whose ages are 1.24 Ma, 0.25 Ma and 0.05 Ma, in Huabei Fault Depression (from Mengjin to Kouma). All the terraces have a similar structure that several meters of paleosols directly develop on the top of fluvial silt. It shows that the Yellow River incised and consequently abandoned floodplain converted to terrace during the interglacial period. Therefore, there may be a link between the formation of terraces and glacial-interglacial climatic cycles. However, the differences in the Yellow River terrace sequences and ages between Yuxi Fault-Uplift and Huabei Fault Depression indicate that the surface uplift should play an important role in the formation of these terraces.
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References
Bridgland D R, 2000. River terrace systems in north-west Europe: An archive of environmental change, uplift and early human occupation. Quaternary Science Reviews, 19: 1293–1303.
Cande S C, Kent D V, 1995. Revised calibration of the geomagnetic polarity timescale for the Late Cretaceous and Cenozoic. Journal of Geophysical Research, 100: 6093–6095.
Cordiera S, Harmandb D, Frechen M et al., 2006. Fluvial system response to Middle and Upper Pleistocene climate change in the Meurthe and Moselle valleys (Eastern Paris Basin and Rhenish Massif). Quaternary Science Reviews, 25: 1460–1474.
Ding Zhongli, Derbyshire E, Yang Shiling et al., 2002. Stacked 2.6-Ma grain size record from the Chinese loess based on five section and correlation with the deep-sea δ18O record. Paleoceanography, 17(3): 5-1–5-21.
Huang Jiqing, Ren Jishun, Jiang Chunfa et al., 1980. Geotectonic Evolution of China. Beijing: Science Press, 29–35. (in Chinese)
Liu Tungsheng, 1985. Loess and Environment. Beijing: Science Press, 44–106. (in Chinese)
Liu Xiuming, Liu Tungsheng, Xu Tongchun et al., 1988. The Chinese loess in Xifeng: I. The primary study on magnetostratigraphy of a loess profile in Xifeng area, Gansu Province. Geophysical Journal, 92: 345–348.
Maddy D, Bridgland D, Westaway R, 2001. Uplift-driven valley incision and climate-controlled river terrace development in the Thames Valley, UK. Quaternary International, 79: 23–26.
Maddy D, Tuncer Demir, Bridgland David R, 2005. An obliquity-controlled Early Pleistocene river terrace record from Western Turkey? Quaternary Research, 63: 339–346.
Mol J, Vandenberghe J, Kasse C, 2000. River response to variations of periglacial climate in mid-latitude Europe. Geomorphology, 33: 131–148.
Pan Baotian, Burbank Douglas, Wang Yixiang et al., 2003. A 900 k.y. record of strath terrace formation during glacial-interglacial transitions in northwest China. Geology, 31(11): 957–960.
Pan Baotian, Li Jijun, Zhu Junjie et al., 1991. Terrace development of Yellow River and geomorphic evolution in Lanzhou area. In: Quaternary Glacier and Environment Research in West China. Beijing: Science Press, 271–276. (in Chinese)
Pan Baotian, Liu Xiaofeng, Gaohongshan et al., 2007a. Dating and genesis of the upper Weihe River terraces in Longxi basin, China. Progress in Natural Science, 17(11): 1334–1340.
Pan Baotian, Su Huai, Hu Chunsheng et al., 2007b. Discovery of a 1.0 Ma Yellow River terrace and redating of the fourth Yellow River terrace in Lanzhou area. Progress in Natural Science, 17(2): 197–205.
Pierre Antoine, Jean Pierre Lautridou, Michel Laurent, 2000. Long-term fluvial archives in NW France: Response of the Seine and Somme rivers to tectonic movements, climate variations and sea-level changes. Geomorphology, 33: 183–207.
Schumm S A, Parker R S, 1973. Implications of complex response of drainage systems for Quaternary alluvial stratigraphy. Nature, 243: 99–100.
Shunji Ouchi, 1985. Response of alluvial rivers to slow active tectonic movement. Geological Society of American Bulletin, 96: 504–515.
Starkel L, 2003. Climatically controlled terraces in uplifting mountain areas. Quaternary Science Review, 22: 2189–2198.
Vandenberghe J, 1995. Timescales, climate and river development. Quaternary Science Reviews, 14: 631–638.
Vandenberghe J, 2003. Climate forcing of fluvial system development: An evolution of ideas. Quaternary Science Reviews, 22: 2053–2060.
Veldkamp A, 1992. A 3-D model of Quaternary terrace development simulations of terrace stratigraphy and valley asymmetry: A case study for the Allier Terrace. Earth Surface Processes and Landforms, 17: 487–500.
Veldkamp A, Van Dijke J J, 2000. Simulating internal and external controls on fluvial terrace stratigraphy: A qualitative comparison with the Maas record. Geomorphology, 33: 225–236.
Zhao Zhizhong, Wu Xihao, Jiang Fuchu et al., 2000. The loess stratigraphy in Sanmenxia area. Journal of Geomechanics, 6(4): 19–26. (in Chinese)
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Foundation: Science and Technology Planning Project of Yunnan Province, No.2007D199M; National Natural Science Foundation of China, No.40462002; No.40161002
Author: Su Huai (1977–), Ph.D, specialized in geomorphology and Quaternary geology.
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Su, H., Wang, J., Pan, B. et al. Sequences and genesis of the Yellow River terraces from Sanmen Gorge to Kouma. J. Geogr. Sci. 19, 351–358 (2009). https://doi.org/10.1007/s11442-009-0351-2
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DOI: https://doi.org/10.1007/s11442-009-0351-2