Journal of Geographical Sciences >
The five major changes in the evolution of the Loess Plateau
Received date: 2005-01-30
Revised date: 2005-04-03
Online published: 2005-12-25
Supported by
International Item of Geological Comparison Plan, No.IGCP448; Project of State Key Laboratory of Loess and Quaternary Geology, CAS, No.SKLLQG04011; No.SKLLQG0504
On the basis of the geomorphology, paleosol, paleoclimate and loess age, major changes of the Loess Plateau were studied. There are five major changes in the evolution of the Loess Plateau in China. Among them, the first, second, third and fourth major changes have taken place since the formation of the Loess Plateau, and the fifth major change will happen in 100 years. The first major change, which occurred at about 2.50 Ma BP, was a transition from red earth plateau to the Loess Plateau, and reflects the climate from the warm-sub-humid to the alteration between cold-and-dry and warm-and-humid. The driving force of this first major change was climate. The second major change, which took place at about 1.60 Ma BP, was a vital transition of the main rivers in this area from non-existence to existence, and represented an important change on the Loess Plateau's neotectonic uplift from the slow rising to periodically accelerated rising, and making the river's erosion go from feeble to strong. The driving force of the second major change is tectonic uplift. The third major change which occurred at about 150 ka, was a great transition of the Yellow River's inpouring from a lake outlet to a sea outlet. At that time, the Yellow River cut the Sanmen Gorge. The transition led to the transformation of loess material from internal transportation to external transportation. The driving force of the third major change was running water erosion. The fourth one that occurred at about 1.1 ka was a change of the Loess Plateau from natural erosion to erosion accelerated by human influences. The driving force of the fourth major change is mainly human activities. The fifth major change, which is the opposite change to the fourth one, in which the motive power is human activity, too.
Key words: the Loess Plateau; major changes; the driving force; the age of change
ZHAO Jingbo . The five major changes in the evolution of the Loess Plateau[J]. Journal of Geographical Sciences, 2005 , 15(4) : 475 -483 . DOI: 10.1360/gs050411
[1] Chen F H, Zhang Y T, Zhang W X et al., 1989. The comprehensive study on depositional age of Jiuzhoutai loess in Lanzhou. Acta Sedimentologica Sinica, 7(3): 105-11l. (in Chinese)
[2] Chen Y Z, Jing K, Cai G Q, 1988. Erosion and Administration of Loess Plateau. Beijing: Science Press, 50-72. (in Chinese)
[3] Ding Z L, Rutter N W, Han J T et al., 1992. A coupled environmental system formed at about 2.5 Ma. over eastern Asia. Palaeogeography, Palaeoecology, Palaeoclimate, 94: 223-224.
[4] Ding Z L, Yang S L, Sun J M et al., 1999. Proofs of atmospheric circulation change from the Loess Plateau. Quaternary Sciences, 18(3): 227-280. (in Chinese)
[5] Du Y, 1993. A Study on Agriculture and Livestock Farming in Historical Periods in Gansu and Ningxia Loess Plateau. Beijing: China Ocean Press, 102-115. (in Chinese)
[6] Guo Z T, William F Ruddiman, Hao Q Z et al., 2002. Onset of Asian desertification by 22 Myr ago inferred from loess deposits in China. Nature, 416: 159-163.
[7] Heller F, Liu T S, 1982. Magnetostratigraphical dating of loess deposit in China. Nature, 300: 431-433.
[8] Hove S A, Rea D K, Pisias N G et al., 1989. A direct link between the China loess and 18O records: aeolian flux to the north Pacific. Nature, 349: 142-152.
[9] Kemp R A, Derbyshire E, Meng X M, 1995. Pedosedimentary reconstruction of a thick loess-paleosol sequence near Lanzhou in north-central China. Quaternary Research, 43: 30-45.
[10] Kohfeld K E, Harrison S P, 2003. Glacial-interglacial changes in dust deposition on the Chinese Loess Plateau. Quaternary Science Review, 22: 1859-1878.
[11] Kukla, G J, Hell F, Liu X M et al., 1988. Pleistocene climates in China dated by magnetic susceptibility. Geology, 16: 811-814.
[12] Liu D S, 1985. Loess and Environment. Beijing: Science Press, 303-348. (in Chinese)
[13] Porter C, 2001. Chinese loess record of monsoon climate during the last glacial-interglacial cycle. Earth Science Review, 54: 115-128.
[14] Rea D K, Snoeck H, Joseph L H, 1998. Late Cenozoic eolian deposition in the North Pacific: Asian drying, Tibetan uplift, and cooling of the northern hemisphere. Paleoceanography, 13: 215-224.
[15] Ruddiman W F, Raymo M E, Martinson D G et al., 1989. Pleistocene evolution: northern hemisphere ice sheets and North Atlantic Ocean. Paleooceanography, 4: 453-462.
[16] Sun D H, Liu D S, Chen M Y et al., 1997. Magnetic strata of Neogene red earth and climatic change in the Loess Plateau in China. Science in China (Series D), 27(13): 265-270. (in Chinese)
[17] Sun J Z, Zhao J B, 1991. Quaternary in the Loess Plateau. Beijing: Science Press, 80-81. (in Chinese)
[18] Wang S C, 1990. Vegetation in historical periods in the Loess Plateau. Geographical Research, 9(4): 65-72. (in Chinese)
[19] Wang Y Y, 1985. The New Development of Loess Studies in China. Xi'an: Shaanxi People's Press, 1-19. (in Chinese)
[20] Wu X H, Jiang F C, Wang S M et al., 1998. The study on age of Sanmen Gorge cut by Yellow River. Quaternary Science, 18(2): 188-189. (in Chinese)
[21] Yang P L, 1993. A Study on Population Geography in Historical Periods in Middle Reaches of Yellow River. Beijing: China Ocean Press, 20-30. (in Chinese)
[22] Yue L P, 1989. The study on magnetic strata in loess section at Duanjia village in Lantian. Geological Review, 35 (15): 479-488. (in Chinese)
[23] Yue L P, Lei X Y, Qu H J, 1997. The age of terrace development in the middle reaches of the Yellow River. Geological Review, 43(2): 186-192. (in Chinese)
[24] Zhang Z H, Zhang Z Y, Wang Y S, 1989. Loess in China. Beijing: Geological Publishing House, 180-182. (in Chinese)
[25] Zhao J B, 1988. The cycles and periods of the Quaternary climate change. Journal of Glaciology and Geocryology, 10 (2): 117-124. (in Chinese)
[26] Zhao J B, 1989. The study on Neogene red earth in Shanxi and Xi'an. Acta Sedimentologica Sinica, 7(3): 113-120. (in Chinese)
[27] Zhao J B, 1994. Quaternary Soils and Environment in Northwestern Loess Areas of China. Xi'an: Shaanxi Science and Technology Press, 141-161. (in Chinese)
[28] Zhao J B, 2002. Illuvial Theory and Environment Evolution in the Loess Plateau. Beijing: Science Press, 178-194. (in Chinese)
[29] Zhao J B, 2003. Paleoenvironmental significance of a paleosol complex in Chinese loess. Soil Science, 168(1): 63-72.
[30] Zhao J B, 2004. The new basic theory on Quaternary environmental research. Journal of Geographical Sciences, 14(2): 242-250.
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