Journal of Geographical Sciences

, Volume 20, Issue 3, pp 417–430 | Cite as

The impacts of climate change on the Neolithic cultures of Gansu-Qinghai region during the late Holocene Megathermal

  • Fenggui LiuEmail author
  • Yili Zhang
  • Zhaodong Feng
  • Guangliang Hou
  • Qiang Zhou
  • Haifeng Zhang


The Holocene Megathermal is divided into early, middle and late periods, each having different impacts on the Neolithic cultures due to their different climate changing trends. This study is based on a comparative analysis of the environmental evolution information recorded in the Qinghai Lake, the western edge of the Loess Plateau and Zoige and the spatial distribution of Neolithic sites of the Gansu-Qinghai region. Results show that the early and middle periods towards warm and humid promoted the development of Neolithic cultures with agriculture as the main sector in the Gansu-Qinghai region, furthermore a heyday of Yangshao Culture prosperity emerged. The Holocene entered the late period after the cold climate event at 5.9 ka BP in the Gansu-Qinghai region. Later the climate began to turn cold. However, at the 5.8–4.2 ka BP a relatively stable warm and humid climate created the conditions for the development of Majiayao Culture of the Neolithic Age in this region, thus the distribution of its cultural heritage sites expanded towards high altitudes and high latitudes. From 4.2 ka BP onwards, the climate became cold and dry, which had a significant influence on the Neolithic cultures of the Gansu-Qinghai region, leading to a dramatic change in the cultural characters and spatial distribution of Qijia Culture around 4.2 ka BP. After a nearly 300 years of cold and dry period, the unified Neolithic farming culture completely collapsed. Afterwards an industrial division of animal husbandry and farming and regional multiple cultures formed, and ultimately led to the end of primitive society and the starting of a civilized society.


Gansu-Qinghai region Neolithic cultures climate change 


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  1. An Chengbang, Feng Zhaodong, Tang Lingyu et al., 2003. Environmental changes and cultural transition at 4 cal. ka BP in central Gansu. Acta Geographica Sinica, 58(5): 743–748. (in Chinese)Google Scholar
  2. Archaeological Team of Qinghai Province (ATQP), Qinghai Huangyuan County Museum (QHCM) et al., 1985. Excavation on Kayue Culture Cemetery of Dahuazhongzhuang in Huangyuan City, Qinghai. Archaeology and Cultural Relics, 33–37. (in Chinese)Google Scholar
  3. Bond G, Showers W, Cheseby M et al., 1997. A pervasive millennial scale cycle in north Atlantic Holocene and glacial climates. Science, 278(14): 1257–1266.CrossRefGoogle Scholar
  4. Burns E et al., 1998. The History of World Civilization. Beijing: The Commercial Press.Google Scholar
  5. Chen Kezao, Bowler J M, Kelts K et al., 1990. Palaoclimatic evolution within the Qinghai-Xizang (Tibet) Plateau in the last 40000 years. Quaternary Sciences, (1): 21–31. (in Chinese)Google Scholar
  6. Claussen M, Kubatzki C, Brovkin V et al., 1999. Simulation of an abrupt change in Saharan vegetation in the mid-Holocene. Geophys. Res. Lett., 26: 2037–2040.CrossRefGoogle Scholar
  7. Cullen H M, de Menocal P B, Hemming S et al., 2000. Climate change and the collapse of the Akkadian empire: Evidence from the deep sea. Geology, 28(4): 379–382.CrossRefGoogle Scholar
  8. Du Naiqiu, Kong Zhaochen, Shan Fashou et al., 1989. A preliminary investigation on the vegetational and climatic changes since 11000 years in Qinghai Lake: An analysis based on palynology in core QH85-C14. Acta Botanica Sinica, 31(10): 803–814. (in Chinese)Google Scholar
  9. Fang Xiuqi, Sun Ning, 1998. Cold event: A possible cause of the interruption of the Laohushan Culture. Human Geography, 13(1): 71–76. (in Chinese)Google Scholar
  10. Feng Z D, An C B, Tang L Y et al., 2004. Stratigraphic evidence of megahumid mid-Holocene climate in the western part of the Chinese Loess Plateau. Global and Planetary Changes, 43: 145–155.CrossRefGoogle Scholar
  11. Feng Z D, Tang L Y, Wang H B et al., 2006. Holocene vegetation variations and the associated environmental changes in the western part of the Chinese Loess Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 241(3/4): 440–456.CrossRefGoogle Scholar
  12. Gansu-Qinghai Working Team, Institute of Archaeology of Chinese Academy of Social Sciences (GQWT), 1974. Excavated report of Dahezhuang Site in Yongjing, Gansu. Acta Archaeologica Sinica, (2): 29–62. (in Chinese)Google Scholar
  13. Gansu-Qinghai Working Team, Institute of Archaeology of Chinese Academy of Social Sciences (GQWT), 1975. Excavated report of Qinweijia Site in Yongjing, Gansu. Acta Archaeologica Sinica, (2): 57–96. (in Chinese)Google Scholar
  14. Gao Donglu, 1993. A brief discussion of Kayue Culture. Qinghai Social Sciences, (1): 78–85. (in Chinese)Google Scholar
  15. Gasse F, Arnold M, Fontes J C et al., 1991. A 13000-year climate record from western Tibet. Nature, 353: 742–745.CrossRefGoogle Scholar
  16. Gasse F, Campo E V, 1994. Abrupt post-glacial climate event in West Asia and North Africa monsoon domains. Earth and Planetary Science Letters, 126: 435–456.CrossRefGoogle Scholar
  17. Hong Y T, Hong B, Lin Q H et al., 2003. Correlation between Indian Ocean summer monsoon and North Atlantic climate during the Holocene. Earth and Planetary Science Letters, 211: 371–380.CrossRefGoogle Scholar
  18. Hong Y T, Wang Z G, Jiang H B et al., 2001. A 6000-year record of changes in drought and precipitation in northeastern China based on a δ13C time series from peat cellulose. Earth and Planetary Science Letters, 1185: 111–119.CrossRefGoogle Scholar
  19. Hou Guangliang, Liu Fenggui, 2004. Pre-history and climate change of eastern Qinghai. Acta Geographica Sinica, 59(6): 841–846. (in Chinese)Google Scholar
  20. Hou Guangliang, Liu Fenggui, Liu Cuihua et al., 2009. Prehistorical cultural transition forced by environmental change in mid-Holocene in Gansu-Qinghai region. Acta Geographica Sinica, 64(1): 54–58. (in Chinese)Google Scholar
  21. Huang Bingwei, 1959. Draft of integrated physical regionalization of China. Chinese Science Bulletin, (18): 594–602.Google Scholar
  22. Huang Chunchang, 1991. Climate changes on vegetation at Dadi Bay site in Qinan, Gansu. Scientia Geographica Sinica, 11(4): 328–334. (in Chinese)Google Scholar
  23. Kong Zhaochen, Du Naiqiu, Shan Fashou et al., 1990. Vegetational and climatic changes in the last 11,000 years in Qinghai Lake: Numerical analysis based on palynology in core QH85-14C. Marine Geology & Quaternary Geology, 10(3): 79–90. (in Chinese)Google Scholar
  24. Liu Fenggui, Hou Guangliang, Zhang Yili et al., 2005. The impact of abrupt climate change in mid-Holocene on the prehistoric culture in northeast Qinghai. Acta Geographica Sinica, 60(5): 733–741. (in Chinese)Google Scholar
  25. Liu Guangxiu, Shen Yongping, Wang Sumin, 1995. The vegetation and climatic of Holocene Magathermal in Zoigê. Journal of Glaciology and Geocryology, 17(3): 247–249. (in Chinese)Google Scholar
  26. Liu Jiaqi, Lv Houyuan, Negendank J et al., 2000. The cycle of climate change in Holocene: Evidence from Huguangyan Maar Lake. Chinese Science Bulletin, 45(11): 1190–1195. (in Chinese)CrossRefGoogle Scholar
  27. Liu Xingqi, Shen Ji, Wang Sumin et al., 2002. A 16000-year pollen record of Qinghai Lake and its paleoclimate and paleoenvironment. Chinese Science Bulletin, 47(17): 1351–1355. (in Chinese)CrossRefGoogle Scholar
  28. Liu Xingqi, Wang Sumin, Shen Ji, 2003. The grain size of the core QH-2000 in Qinghai Lake and its implication for paleoclimate and paleoenvironment. Journal of Lake Sciences, 15(2): 112–117. (in Chinese)Google Scholar
  29. Mo Duowen, Li Fei, Li Shuicheng et al., 1996. A preliminary study on the paleoenvironment of the middle Holocene in the Hulu River area in Gansu Province and its effects on human activity. Acta Geographica Sinica, 51(1): 59–69. (in Chinese)Google Scholar
  30. Morgan L H, 1977. Ancient Society. Beijing: The Commercial Press.Google Scholar
  31. Morgan M, 1965. Ancient Society. Beijing: People’s Publishing Press.Google Scholar
  32. Perry C A, Hsu K J, 2000. Geophysical, archaeological, and historical evidence support a solar output model for climate change. Proceedings of National Academy of Science of USA, 97(23): 12433–12438.CrossRefGoogle Scholar
  33. Petit-Maire N, Celles J C, Commelin D G et al., 1983. The Sahara in northern Mali: Man and his environment between 10,000 and 3500 years BP. African Archaeological Review, 1(1): 105–125.CrossRefGoogle Scholar
  34. Petit-Maire N, Riser J, 1983. Sahara ou Sahel Direction Générale. Relations Cult. Paris: du Ministère de Relations, ext. 473.Google Scholar
  35. Qin Jiaming, Yuan Daoxian, Cheng Hai et al., 2004. Younger Dryas and abrupt climate change events in the early-middle Holocene: The δ18O variation of a stalagmite from Maolan, Guizhou. Science in China (Series D), 34(1): 69–74. (in Chinese)Google Scholar
  36. Shao Xiaohua, Wang Yongjin, Cheng Hai et al., 2006. Long-term trend and abrupt events of the Holocene Asian monsoon inferred from a stalagmite δ18O record from Shennongjia in Central China. Chinese Science Bulletin, 51(1): 80–86. (in Chinese)CrossRefGoogle Scholar
  37. Shen Ji, Liu Xingqi, Matsumoto R et al., 2004. A high-resolution climatic change since the Late Glacial Age inferred from multi-proxy of sediments in Qinghai Lake. Science in China (Series D), 34(6): 582–589. (in Chinese)Google Scholar
  38. Shi Yafeng, 1992. The Climate and Environment of Holocene Megathermal in China. Beijing: China Ocean Press, 1–212. (in Chinese)Google Scholar
  39. Shi Yafeng, Kong Zhaochen, Wang Sumin et al., 1992. The important climatic fluctuations and events in China during the Holocene Megathermal. Science in China (Series B), (12): 1300–1307.Google Scholar
  40. Siroeko F, Sarnthein M, Erlenkeuser H et al., 1996. Century-scale events in monsoonal climate over the past 24000 years. Nature, 364: 322–324.CrossRefGoogle Scholar
  41. Sun Aizhi, Feng Zhaodong, Tang Lingyu et al., 2008. Vegetation and Climate Changes in the Western Part of the Loess Plateau since 13 ka BP. Acta Geographica Sinica, 63(3): 280–292. (in Chinese)Google Scholar
  42. Sun Qianli, Zhou Jie, Shen Ji et al., 2006. Environmental characteristics of mid-Holocene recorded by lacustrine sediments from Lake Daihai, north environment sensitive zone. Science in China (Series D), 36(9): 838–849. (in Chinese)Google Scholar
  43. Tang Lingyu, Shen Caiming, Zhao Xitao et al., 1993. Vegetation and climate since Holocene based on Qingfeng Section, Jianhu, Jiangsu Province. Science in China (Series B), 23(6): 637–643. (in Chinese)Google Scholar
  44. Wang Fubao, Han Huiyou, Yan Ge et al., 1996. Paleovegetational and paleoclimatic evolution series on north Eastern Qinghai-Tibet Plateau in the last 30ka. Science in China (Series D), 26(2): 111–119. (in Chinese)Google Scholar
  45. Wang Fubao, Yan Ge, Lin Benhai, 1993. Organic carbon stable isotopic composition from peat in Ruoergai Plateau, eastern part of Qinghai-Xizang Plateau. Chinese Science Bulletin, 38(13): 1114–1118.Google Scholar
  46. Wang Shaowu, Gong Daoyi, 2000. Climate in China during the four special periods in Holocene. Progress in Natural Science, 10(4): 325–332. (in Chinese)Google Scholar
  47. Wang Sumin, Wang Fubao, 1992. Climatic changes of Holocene, recorded from lake sedimentary record. In: Shi Yafeng (ed.), Climate and Environment of Holocene Megathermal in China. Beijing: China Ocean Press, 146–152. (in Chinese)Google Scholar
  48. Weiss H, Courty M A, Wetterstrom W et al., 1993. The genesis and collapse of third millennium North Mesopo tamian civilization. Science, 261(20): 995–1004.CrossRefGoogle Scholar
  49. Wu Wenxiang, Liu Tungsheng, 2001. 4000a B.P. event and its implications for the origin of ancient Chinese civilization. Quaternary Sciences, 21(5): 443–451. (in Chinese)Google Scholar
  50. Xia Zhengkai, Yang Xiaoyan, Ye Maolin, 2003. Prehistoric disasters at Lajia Site, Qinghai, China. Chinese Science Bulletin, 48(11): 1200–1204. (in Chinese)Google Scholar
  51. Xie Duanju, 2002. Pre-historical Archaeology of Gansu and Qinghai Provinces. Beijing: Cultural Relics Press, 1–258. (in Chinese)Google Scholar
  52. Xu Xinguo, 1988. The typology and periodization of Kayue Culture. Qinghai Cultural Relics, 1: 10–14. (in Chinese)Google Scholar
  53. Yan Wenming, 1997. Origin and development of civilization in the Huanghe River Valley. Huaxia Archaeology, (1): 49–54. (in Chinese)Google Scholar
  54. Yu Weichao, 1985. Reconsideration on “Kayue Culture” and “Tangwang Culture”. Yu Weichao ed. Rchaeological Symposium on the Pre-Qin and Han Dynasties. Beijing: Cultural Relics Publishing Press. (in Chinese)Google Scholar
  55. Zhang Lansheng, Fang Xiuqi, Ren Guoyu, 1997. Environmental change in the northern China farming-grazing transitional zone. Earth Science Frontiers, 4(1/2): 127–136. (in Chinese)Google Scholar
  56. Zhang Pengxi, Zhang Baozhen, Qian Guimin et al., 1994. The study of paleoclimatic parameter of Qinghai Lake since Honolece. Quaternary Sciences, (2): 225–238. (in Chinese)Google Scholar
  57. Zhang Zhongpei, 1987. Study on culture of Qijia (Next). Acta Archaeologica Sinica, (2): 153–175. (in Chinese)Google Scholar
  58. Zheng Du, Yao Tandong, 2004. Uplifting of Tibetan Plateau with Its Environmental Effects. Beijing: Science Press, 255–274. (in Chinese)Google Scholar
  59. Zhou Tingru, Zhang Lansheng, 1992. Environmental Evolvement and Prediction of Holocene on Farming-Grazing Transition Zone in Northern China. Beijing: Geological Publishing Press, 16–54. (in Chinese)Google Scholar
  60. Zhou Weijian, Lu Xuefeng, Wu Zhenkun et al., 2001. Peat record reflecting Holocene climatic change in the Zoigê Plateau and AMS radiocarbon dating. Chinese Science Bulletin, 46(12): 1040–1044. (in Chinese)Google Scholar
  61. Zhu C, Song J, You K Y, 1996. Study on the Formation of the culture hiatus of the Maqiao site, Shanghai. Chinese Science Bulletin, 41: 148–152.Google Scholar

Copyright information

© Science in China Press and Springer-Verlag Berlin Heidelberg 2010

Authors and Affiliations

  • Fenggui Liu
    • 1
    • 2
    • 3
    Email author
  • Yili Zhang
    • 3
  • Zhaodong Feng
    • 4
  • Guangliang Hou
    • 2
  • Qiang Zhou
    • 2
  • Haifeng Zhang
    • 2
  1. 1.School of GeographyBeijing Normal UniversityBeijingChina
  2. 2.School of Life and Geographic ScienceQinghai Normal UniversityXiningChina
  3. 3.Institute of Geographic Sciences and Natural Resources ResearchCASBeijingChina
  4. 4.Key Laboratory of Western China’s Environmental Systems (Ministry of Education)Lanzhou UniversityLanzhouChina

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