Advances in Atmospheric Sciences

, Volume 34, Issue 8, pp 941–951 | Cite as

Characteristics of temperature change in China over the last 2000 years and spatial patterns of dryness/wetness during cold and warm periods

  • Quansheng Ge
  • Haolong Liu
  • Xiang Ma
  • Jingyun Zheng
  • Zhixin Hao
Original Paper

Abstract

This paper presents new high-resolution proxies and paleoclimatic reconstructions for studying climate changes in China for the past 2000 years. Multi-proxy synthesized reconstructions show that temperature variation in China has exhibited significant 50–70-yr, 100–120-yr, and 200–250-yr cycles. Results also show that the amplitudes of decadal and centennial temperature variation were 1.3°C and 0.7°C, respectively, with the latter significantly correlated with long-term changes in solar radiation, especially cold periods, which correspond approximately to sunspot minima. The most rapid warming in China occurred over AD 1870–2000, at a rate of 0.56° ± 0.42°C (100 yr)−1; however, temperatures recorded in the 20th century may not be unprecedented for the last 2000 years, as data show records for the periods AD 981–1100 and AD 1201–70 are comparable to the present. The ensemble means of dryness/wetness spatial patterns in eastern China across all centennial warm periods illustrate a tripole pattern: dry south of 25°N, wet from 25°–30°N, and dry to the north of 30°N. However, for all centennial cold periods, this spatial pattern also exhibits a meridional distribution. The increase in precipitation over the monsoonal regions of China associated with the 20th century warming can primarily be attributed to a mega El Ni˜no–Southern Oscillation and the Atlantic Multidecadal Oscillation. In addition, a significant association between increasing numbers of locusts and dry/cold conditions is found in eastern China. Plague intensity also generally increases in concert with wetness in northern China, while more precipitation is likely to have a negative effect in southern China.

Key words

temperature change dry-wet spatial pattern cold and warm periods last 2000 years China 

摘要

本文综述了近来中国过去2000年气候变化研究中新取得的高分辨率代用资料和重建序列。结果显示: (1) 中国温度存在50–70年、100–120年和200–250年的准周期变化, 其年代和百年际变幅分别约为1.3℃和0.7℃, 且在百年尺度上与太阳辐射的长期变化显著相关, 尤其是气温寒冷阶段与太阳活动极小期相对应。 (2) 1870–2000年是中国增温最快的阶段, 速率为0.56 ± 0.42°C (100 yr)−1, 但20世纪的气温记录可能并不是过去2000年未曾出现过的, 重建表明公元981–1100年和1201–1270年间的温暖程度可与之相比。 (3) 对中国东部所有百年尺度暖期的集合平均显示其旱涝格局呈三极空间分布: 25°N以南偏旱, 25°–30°N偏涝, 30°N以北偏旱; 而在所有百年尺度冷期旱涝格局则呈经向分布。 (4) 强厄尔尼诺–南方涛动和北大西洋年代际振荡是导致20世纪中国季风区降水增加的主要原因。 (5) 在中国东部, 蝗灾与温度及降水变化显著相关, 干冷气候条件下蝗灾较多; 北部地区的鼠疫与干湿变化呈正相关, 但南方地区的鼠疫却与干湿变化呈负相关。

关键词

气温变化 旱涝格局 冷暖期 过去2000年 中国 

Notes

Acknowledgements

This study was supported by the Strategic Priority Research Program of the Chinese Academy of Sciences (Grant No. XDA050800), the Key Program of the Chinese Academy of Sciences (Grant No. KJZD-EW-TZ-G10), and the National Natural Science Foundation of China (Grant No. 41671201 and 91525101).

References

  1. Chen, F., Y. Zhang, X. M. Shao, M. Q. Li, and Z.-Y. Yin, 2016: A 2000-year temperature reconstruction in the Animaqin mountains of the Tibet Plateau, China. Holocene, 26, 1904–1913, doi: 10.1177/0959683616646187.CrossRefGoogle Scholar
  2. Chu, G. Q., Q. Sun, X. H. Wang, M. M. Liu, Y. Lin, M. M. Xie, W. Y. Shang, and J. Q. Liu, 2011: Seasonal temperature variability during the past 1600 years recorded in historical documents and varved lake sediment profiles from northeastern China. Holocene, 22(7), 785–792.CrossRefGoogle Scholar
  3. Chu, G. Q., and Coauthors, 2013: Minor element variations during the past 1300 years in the varved sediments of Lake Xiaolongwan, north-eastern China. GFF, 135(3–4), 265–272, doi: 10.1080/11035897.2013.788550.CrossRefGoogle Scholar
  4. Clette, F., L. Svalgaard, J. M. Vaquero, and E. W. Cliver, 2014: Revisiting the sunspot number: A 400-year perspective on the solar cycle. Space Sci. Rev., 186(1–4), 35–103.CrossRefGoogle Scholar
  5. Cui, Y. F, Y. J. Wang, H. Cheng, K. Zhao, and X. G. Kong, 2012: Isotopic and lithologic variations of one precisely-dated stalagmite across the Medieval/LIA period from Heilong Cave, central China. Climate of the Past, 8(5), 1541–1550.CrossRefGoogle Scholar
  6. Delaygue, G., and E. Bard, 2011: An Antarctic view of beryllium- 10 and solar activity for the past millennium. Climate Dyn., 36, 2201–2218.CrossRefGoogle Scholar
  7. Duan, K. Q., T. D. Yao, N. L. Wang, B. Q. Xu, and L. G. Thompson, 2012: The unstable Holocene climatic change recorded in an ice core from the central Tibetan Plateau. Scientia Sinica Terrae, 42(9), 1441–1449. (in Chinese).Google Scholar
  8. Ge, Q., Z. Hao, J. Zheng, and X. Shao, 2013a: Temperature changes over the past 2000 yr in China and comparison with the Northern Hemisphere. Climate of the Past, 9(3), 1153–1160.CrossRefGoogle Scholar
  9. Ge, Q. S., J. Y. Zheng, X. Q. Fang, Z. M. Man, X. Q. Zhang, P. Y. Zhang, and W.-C. Wang, 2003: Winter half-year temperature reconstruction for the middle and lower reaches of the Yellow River and Yangtze River, China, during the past 2000 years. Holocene, 13(6), 933–940.Google Scholar
  10. Ge, Q.-S., J.-Y. Zheng, Z.-X. Hao, X.-M. Shao, W.-C. Wang, and J. Luterbacher, 2010: Temperature variation through 2000 years in China: An uncertainty analysis of reconstruction and regional difference. Geophys. Res. Lett., 37, L03703, doi: 10.1029/2009GL041281.CrossRefGoogle Scholar
  11. Ge, Q. S., J. Y. Zheng, Z. X. Hao, and H. L. Liu, 2013b: General characteristics of climate changes during the past 2000 years in China. Science China Earth Sciences, 56(2), 321–329.CrossRefGoogle Scholar
  12. Ge, Q. S., Z. Hua, J. Y. Zheng, X. Q. Fang, L. B. Xiao, J. Liu, and B. Yang, 2015: Forcing and impacts of warm periods in the past 2000 years. Chinese Science Bulletin, 60(18), 1727–1734. (in Chinese)Google Scholar
  13. Ge, Q. S., J. Y. Zheng, Z. X. Hao, Y. Liu, and M. Q. Li, 2016: Recent advances on reconstruction of climate and extreme events in China for the past 2000 years. Journal of Geographical Sciences, 26(7), 827–854.CrossRefGoogle Scholar
  14. Hao, Z. X., J. Y. Zheng, Q. S. Ge, and W.-C. Wang, 2011: Historical analogues of the 2008 extreme snow event over central and southern china. Climate Research, 50(2–3), 161–170.CrossRefGoogle Scholar
  15. Hao, Z. X., J. Y. Zheng, Q. S. Ge, and X. Z. Zhang, 2012: Spatial patterns of precipitation anomalies for 30-yr warm periods in China during the past 2000 years. Acta Meteorologica Sinica, 26(3), 278–288.CrossRefGoogle Scholar
  16. Hao, Z. X., D. Sun, and J. Y. Zheng, 2015: East Asian monsoon signals reflected in temperature and precipitation changes over the past 300 years in the middle and lower reaches of the Yangtze River. PLoS One, 10(6), e0131159.CrossRefGoogle Scholar
  17. Hao, Z. X., J. Y. Zheng, X. Z. Zhang, H. L. Liu, M. Q. Li, and Q. S. Ge, 2016: Spatial patterns of precipitation anomalies in eastern china during centennial cold and warm periods of the past 2000 years. Int. J. Climatol., 36(1), 467–475.CrossRefGoogle Scholar
  18. He, M. H., B. Yang, and N. M. Datsenko, 2014: A six hundredyear annual minimum temperature history for the central Tibetan Plateau derived from tree-ring width series. Climate Dyn., 43(3–4), 641–655.CrossRefGoogle Scholar
  19. IPCC, 2007: Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Parry et al., Eds., Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 976 pp.Google Scholar
  20. IPCC, 2013: Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, Stocker et al., Eds., Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 1535 pp.Google Scholar
  21. Lan, Y., Z. X. Hao, and J. Y. Zheng, 2015: Variations of monthly precipitation in rainy season of Beijing since AD1724 derived from the “clear and Rain Records”. Journal of Chinese Historical Geography, 30(2), 41–46, 55. (in Chinese)Google Scholar
  22. Lean, J. L., 2010: Cycles and trends in solar irradiance and climate. WIREs Climate Change, 1, 111–122.CrossRefGoogle Scholar
  23. Li, J. J., X. M. Shao, Y. Y. Li, and N. S. Qin, 2014: Annual temperature recorded in tree-ring from Songpan region. Chinese Science Bulletin, 59(15), 1446–1458. (in Chinese)CrossRefGoogle Scholar
  24. Liao, H., X. B. Ren, Q. S. Ge, Z. W. Yan, Z. H. Lin, and T. J. Zhou, 2016: Climate warming and its sensitivity to CO2 concentrations—Progress on “climate sensitivity” group of CAS strategic priority research program “Climate change: Carbon budget and relevant issues”. Bulletin of Chinese Academy of Sciences, 31(1), 134–141. (in Chinese)Google Scholar
  25. Liu, J., B. Wang, M. A. Cane, S.-Y. Yim, and J.-Y. Lee, 2013: Divergent global precipitation changes induced by natural versus anthropogenic forcing. Nature, 493(7434), 656–659.CrossRefGoogle Scholar
  26. Liu, X. Q., Z. T. Yu, H. L. Dong, and H.-F. Chen, 2014: A less or more dusty future in the Northern Qinghai-Tibetan Plateau? Sci. Rep., 4, 6672, doi: 10.1038/srep06672.CrossRefGoogle Scholar
  27. Lü, D. R., and Z. L. Ding, 2012: Climate change: Carbon budget and relevant issues. Bulletin of Chinese Academy of Sciences, 27(3), 395–402. (in Chinese)Google Scholar
  28. Muscheler, R., J. Beer, G. Wagner, C. Laj, C. Kissel, G. M. Raisbeck, F. Yiou, and P. W. Kubik, 2004: Changes in the carbon cycle during the last deglaciation as indicated by the comparison of 10Be and 14C records. Earth and Planetary Science Letters, 219, 325–340.CrossRefGoogle Scholar
  29. NRC (National Research Council), 2006: Surface Temperature Reconstructions for the Last 2, 000 Years. National Academies Press, Washington, DC, 160 pp.Google Scholar
  30. PAGES 2k Consortium, 2013: Continental-scale temperature variability during the past two millennia. Nature Geosci., 6, 339–346.CrossRefGoogle Scholar
  31. Qin, D. H., J. Y. Zhang, C. C. Shan, and L. C. Song, 2015: China National Assessment Report on Risk Management and Adaptation of Climate Extremes and Disasters. Science Press, Beijing, 377 pp.Google Scholar
  32. Shao, X. M., 2012: A preliminary reconstruction of temperature in the eastern Qaidam Basin, northeaster Tibetan Plateau, China. Quaternary International, 279–280, 444.CrossRefGoogle Scholar
  33. Steinhilber, F., J. Beer, and C. Fröhlich, 2009: Total solar irradiance during the Holocene. Geophys. Res. Lett., 36, L19704.CrossRefGoogle Scholar
  34. Sun, L. G., and Coauthors, 2013: Preliminary evidence for a 1000- year-old tsunami in the South China Sea. Sci. Rep., 3, 1655.CrossRefGoogle Scholar
  35. Tan, M., 2014: Circulation effect: response of precipitation δ18O to the ENSO cycle in monsoon regions of China. Climate Dyn., 42(3–4), 1067–1077.CrossRefGoogle Scholar
  36. Tan, M., 2016: Circulation background of climate patterns in the past millennium: Uncertainty analysis and re-reconstruction of ENSO-like state. Science China Earth Sciences, 59(6), 1225–1241.CrossRefGoogle Scholar
  37. Tang, G. L., Y. H. Ding, S. W. Wang, G. Y. Ren, H. B. Liu, and L. Zhang, 2010: Comparative analysis of China surface air temperature series for the past 100 years. Advances in Climate Change Research, 1(1), 11–19.CrossRefGoogle Scholar
  38. Tao, S. C., and Coauthors, 2016: SST variation reconstructed by Sr/Ca ratio from corals around Xisha Islands since 1458. Proceeding of the 4th Conf. on Earth System Science, Shanghai, China, S03-O-07. (in Chinese)Google Scholar
  39. Tian, H. D., L. C. Stige, B. Cazelles, K. L. Kausrud, R. Svarverud, N. C. Stenseth, and Z. B. Zhang, 2011: Reconstruction of a 1,910-y-long locust series reveals consistent associations with climate fluctuations in China. Proc. Natl. Acad. Sci. USA, 108(35): 14521–14526.CrossRefGoogle Scholar
  40. Vieira, L. E. A., S. K. Solanki, N. A. Krivova, and I. Usoskin, 2011: Evolution of the solar irradiance during the Holocene. Astronomy and Astrophysics, 531, A6.CrossRefGoogle Scholar
  41. Wang, B., J. Liu, H.-J. Kim, P. J. Webster, S.-Y. Yim, and B. Q. Xiang, 2013: Northern hemisphere summer monsoon intensified by mega-El Ni˜no/Southern Oscillation and Atlantic Multidecadal Oscillation. Proc. Natl. Acad. Sci. USA, 110(14), 5347–5352.CrossRefGoogle Scholar
  42. Wang, J. L., and B. Yang, 2014: General characteristics of temperature changes during the past 1200 years over the north hemisphere, the continents and China. Quaternary Sciences, 34(6), 1146–1155. (in Chinese)Google Scholar
  43. Wang, J. L., B. Yang, C. Qin, S. Y. Kang, M. H. He, and Z. Y. Wang, 2014: Tree-ring inferred annual mean temperature variations on the southeastern Tibetan plateau during the last millennium and their relationships with the Atlantic Multidecadal Oscillation. Climate Dyn., 43(3–4), 627–640.CrossRefGoogle Scholar
  44. Wang, J. L., B. Yang, and F. C. Ljungqvist, 2015: A millennial summer temperature reconstruction for the eastern Tibetan Plateau from tree-ring width. J. Climate, 28(13), 5289–5304.CrossRefGoogle Scholar
  45. Wang, S. W., X. Y. Wen, Y. Luo, W. J. Dong, Z. C. Zhao, and B. Yang, 2007: Reconstruction of temperature series of China for the last 1000 years. Chinese Science Bulletin, 52(23), 3272–3280.CrossRefGoogle Scholar
  46. Xiao, D. M., N. S. Qin, J. J. Li, and Y. Y. Li, 2013: Variations of June air temperature derived from tree-ring records in 1713-2010 in Jinchuan, West Sichuan Plateau, China. Progressus Inquisitiones de Mutatione Climatis, 9(4), 252–257. (in Chinese)Google Scholar
  47. Xiao, D. M., N. S. Qin, J. J. Li, Y. Y. Li, and L. Mu, 2015: Change of mean temperature from July to September in northeast of western Sichuan Plateau Based tree-ring. Plateau Meteorology, 34(3), 762–770. (in Chinese)Google Scholar
  48. Xu, L., and Coauthors, 2011: Nonlinear effect of climate on plague during the third pandemic in China. Proc. Natl. Acad. Sci. USA, 108(25), 10214–10219.CrossRefGoogle Scholar
  49. Yan, J. H., 2014: Characteristics of climate change in the middle and lower reaches of the Yellow River and Yangtze River of China since 1500 AD. PhD dissertation, University of Chinese Academy of Sciences, 96 pp. (in Chinese).Google Scholar
  50. Yang, B., A. Braeuning, K. R. Johnson, and Y. F. Shi, 2002: General characteristics of temperature variation in China during the last two millennia. Geophys. Res. Lett., 29(9), 1324.Google Scholar
  51. Yang, B., M. H. He, T. M. Melvin, Y. Zhao, and K. R. Briffa, 2013: Climate control on tree growth at the upper and lower treelines: A case study in the Qilian Mountains, Tibetan Plateau. PLoS One, 8(7), e69065.CrossRefGoogle Scholar
  52. Zhang, Y, X. M. Shao, Z.-Y. Yin, and Y. Wang, 2014: Millennial minimum temperature variations in the Qilian Mountains, China: Evidence from tree rings. Climate of the Past, 10(5), 1763–1778.CrossRefGoogle Scholar
  53. Zheng, J. Y., Z. X. Hao, X. Q. Fang, and Q. S. Ge, 2014a: Changing characteristics of extreme climate events during past 2000 years in China. Progress in Geography, 33(1), 3–12. (in Chinese)Google Scholar
  54. Zheng, J. Y., Z. X. Hao, X. Z. Zhang, H. L. Liu, M. Q. Li, and Q. S. Ge, 2014b: Drought/flood spatial patterns in centennial cold and warm periods of the past 2000 years over eastern China. Chinese Science Bulletin, 59(30), 2964–2971. (in Chinese)CrossRefGoogle Scholar
  55. Zheng, J. Y., Y. Liu, Z. X. Hao, and Q. S. Ge, 2016: Phenological cold/warm events recorded in historical documents and quantitative proxies for winter temperature in Southern China during the past 500 years. Quaternary Sciences, 36(3), 690–701. (in Chinese)Google Scholar
  56. Zheng, J. Y., M. W. Wu, Q. S. Ge, Z. X. Hao, and X. Z. Zhang, 2017: Observed, reconstructed, and simulated decadal variability of summer precipitation over eastern China. Journal of Meteorological Research, 31(1), 49–60.CrossRefGoogle Scholar
  57. Zhu, H.-F., X.-M. Shao, Z.-Y. Yin, P. Xu, Y. Xu, and H. Tian, 2011: August temperature variability in the southeastern Tibetan Plateau since AD 1385 inferred from tree rings. Palaeogeography, Palaeoclimatology, Palaeoecology, 305(1–4), 84–92.CrossRefGoogle Scholar

Copyright information

© Chinese National Committee for International Association of Meteorology and Atmospheric Sciences, Institute of Atmospheric Physics, Science Press and Springer-Verlag GmbH Germany 2017

Authors and Affiliations

  • Quansheng Ge
    • 1
    • 2
  • Haolong Liu
    • 1
  • Xiang Ma
    • 1
  • Jingyun Zheng
    • 1
    • 2
  • Zhixin Hao
    • 1
    • 2
  1. 1.Key Laboratory of Land Surface Pattern and Simulation, Institute of Geographic Sciences and Natural Resources ResearchChinese Academy of SciencesBeijingChina
  2. 2.University of Chinese Academy of SciencesBeijingChina

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