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Journal of Geographical Sciences  2010, Vol. 20 Issue (5): 652-666    DOI: 10.1007/s11442-010-0802-9
  Climate and Environmental Change 本期目录 | 过刊浏览 | 高级检索 |
Variation and abrupt change of climate in Ili River Basin, Xinjiang
Variation and abrupt change of climate in Ili River Basin, Xinjiang
SUN Huilan1,2,3, CHEN Yaning1,2, LI Weihong1,2, LI Feng1,2,3, CHEN Yapeng1,2, HAO Xingming1,2, YANG Yuhui1,2,3
1. Key Laboratory of Oasis Ecology and Desert Environment, Xinjiang Institute of Ecology and Geography, CAS, Urumqi 830011, China;
2. Xinjiang Institute of Ecology and Geography, CAS, Urumqi 830011, China;
3. Graduate University of Chinese Academy of Sciences, Beijing 100039, China
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SUN Huilan
CHEN Yaning
LI Weihong
LI Feng
CHEN Yapeng
HAO Xingming
YANG Yuhui

In this paper, the monthly precipitation and temperature data collected at 7 stations in the Ili River Basin from 1961 to 2007 were analyzed by means of simple regression analysis, running mean, db6 wavelet function and Mann-Kendall test. This study revealed the characteristics of climate change and abrupt change points of precipitation and temperature during different time scales in the Ili River Basin within the past 50 years. The results showed that the precipitation increased from the mid-1980s until 2000 and has continued to increase at a smaller magnitude since 2000. Over the studied period, the precipitation increased significantly during the summer and winter months. The temperature increased greatly in the late 1980s, and has continued to show an increasing trend from the year 2000 to present. The temperature increases were most significant during the summer, autumn and winter months. In terms of different geographies, the temperature increase was significant during the winter in the plains and hilly regions; the increase was also significant during autumn in the intermontane basins. The climate change trends in the Ili River Basin were consistent with the changing trends of the North Atlantic Oscillation and the plateau monsoon.

Key wordsclimate changes    abrupt change    Ili River Basin
收稿日期: 2009-10-13     
通讯作者: Chen Yaning, Professor, E-mail:     E-mail:
作者简介: Sun Huilan (1982–), Ph.D Candidate, specialized in water resources.
. Variation and abrupt change of climate in Ili River Basin, Xinjiang[J]. Journal of Geographical Sciences, 2010, 20(5): 652-666.
SUN Huilan, CHEN Yaning, LI Weihong, LI Feng, CHEN Yapeng, HAO Xingming, YANG Yuhui. Variation and abrupt change of climate in Ili River Basin, Xinjiang. Journal of Geographical Sciences, 2010, 20(5): 652-666.
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[1] Breaker L C, Liu P C, Torrence C, 2001. Intraseasonal oscillations in sea surface temperature, wind stress, and sea level off the central California coast. Continental Shelf Research, 21(6/7): 727–750.

[2] Burn D H, Hag Elnur M A, 2002. Detection of hydrological trends and variability. Journal of Hydrology, 255: 107–122.

[3] Ding Yihui, Ren Guoyu, Shi Guangyu et al., 2006. National Assessment Report of Climate Change (I): Climate change in China and its future trend. Advances in Climate Change Research, 2(1): 3–8. (in Chinese)

[4] Fu Congbin, Wang Qiang, 1992. The difinition and detection of the abrupt climatic change. Scientia Atmospherica Sinica, 7: 482–493. (in Chinese)

[5] Huang Ronghui, Xu Yuhong, Zhou Liantong, 1999. Annual change of summer precipitation in China and arid-trend in North China. Plateau Meteorology, 18(4): 456–476. (in Chinese)

[6] Jia Wenxiong, He Yuanqing, Yuan Lingling et al., 2008. The regional difference and catastrophe of climatic change in Qilian Mt. Region. Acta Geographica Sinica, 63(3): 257–269. (in Chinese)

[7] Kadiolgu M, 1997. Trends in surface air temperature data over Turkey. Journal of Climatology, 17: 511–520.

[8] Kahya E, Kalayci S, 2004. Trend analysis of streamflow in Turkey. Journal of Hydrology, 289: 128–144.

[9] Lei Wen, Charles A Lin, 2003. Global climate change and its impacts. Advances in Water Science, 14(5): 667–674. (in Chinese)

[10] Li Hongjun, Jiang Zhihong, Liu Xinchun et al., 2008. The relationship between the North Atlantic oscillation and runoff variation of Aksu River in Xinjiang, China. Acta Geographica Sinica, 63(5): 491–501. (in Chinese)

[11] Li Yanchun, Zhao Guangping, Hu Wendong, 2008. Response of climate in Hedong sandy area of Ningxia to global warming. Journal of Natural Disasters, 17(2): 36–42. (in Chinese)

[12] Matthew P Ayres, Marls J Lombardero, 2000. Assessing the consequences of global change for forest disturbance from herbivores and pathogens. The Science of the Total Environment, 262: 263–286.

[13] Nezlin N P, Li B L, 2003. Time-series analysis of remote-sensed chlorophyll and environmental factors in the Santa Monica-San Pedro Basin off Southern California. Journal of Marine Systems, 39: 185–202.

[14] Qin Dahe, Ren Jiawen, Xiao Cunde, 1995. Progress in the research on Antarctic ice sheet in relation to global change. Acta Geographica Sinica, 50(2): 178–184. (in Chinese)

[15] Saunders S C, Chen J Q, Drummer T D et al., 2005. Identifying scales of pattern in ecological data: A comparison of lacunarity, spectral and wavelet analyses. Ecological Complexity, 2: 87–105.

[16] Shi Yafeng, Shen Yongping, Li Dongliang et al., 2003. Discussion on the present climate change from warm-dry to warm-wet in Northwest China. Quaternary Sciences, 23(2): 152–164. (in Chinese)

[17] Smadi M M, Zghoul A, 2006. A sudden change in rainfall characteristics in Amman, Jordan during the mid 1950s. American Journal of Environmental Sciences, 2(3): 84–91.

[18] Sneyers R, 1990. On the statistical analysis of series of observation. WMO Technical Note No.143, Secretariat of the WMO, Geneva, Switzerland, pp192.

[19] Tang Guoli, Ren Guoyu, 2005. Reanalysis of surface air temperature change of the last 100 years over China. Climatic and Environmental Research, 10(4): 281–288. (in Chinese)

[20] Tang Maocang, Bai Chongyuan, Feng Song et al., 1998. Climate abrupt change in the Qinghai-Xizang Plateau in recent century and its relation to astronomical factors. Plateau Meteorology, 17(3): 250–257. (in Chinese)

[21] Wei Fengying, 2007. Diagnosis and Forecasting Methods of Modern Climatic Statistics. Beijing: China Meteorological Press. (in Chinese)

[22] Xu Yueqing, Li Shuangcheng, Cai Yunlong, 2004. Rainfall changes of Hebei plain based on wavelet transform. Science in China (Series D), 34(12): 1176–1183. (in Chinese)

[23] Yang Jianping, Ding Yongjian, Chen Rensheng, 2003. The fluctuation of dry and wet climate boundary and its causal analyses in China. Acta Meteorologica Sinica, 61(3): 364–373. (in Chinese)

[24] Yang Meixue, Yao Tandong, 2003. Abrupt climate change detection using wavelet analysis: Application and problems. Marine Geology and Quaternary Geology, 23(4): 73–76. (in Chinese)

[25] Yao Yubi, Xiao Guoju, Wang Runyuan et al., 2009. Climatic changes of semi-arid region over the northwest China in recent 50a. Arid Land Geography, 32(2): 159–165. (in Chinese)

[26] Ye Baisheng, Lai Zuming, Shi Yafeng, 1997. Some characteristics of precipitation and air temperature in the Yili River Basin. Arid Land Geography, 20(1): 46–52. (in Chinese)

[27] Yu Li, Cao Mingkui, Li Kerang, 2005. An overview of assessment of ecosystem vulnerability to climate change. Progress in Geography, 24(1): 61–69. (in Chinese)

[28] Yu Y S, Zou S, Whittmore D, 1993. Nonparametric trend analysis of water quality data of rivers in Kansas. Journal of Hydrology, 150: 61–80.

[29] Yuan Yujiang, Ye Lei, 1999. The dry-humid climate change in Yili Region, Xinjiang since recent 40 years. Arid Land Geography, 22(4): 1–7. (in Chinese)

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