Abstract
The runoff of some rivers in the world especially in the arid and semi-arid areas has decreased remarkably with global or regional climate change and enhanced human activities. The runoff decrease in the arid and semi-arid areas of northern China has brought severe problems in livelihoods and ecology. To reveal the variation characteristics, trends of runoff and their influencing factors have been important scientific issues for drainage basin management. The objective of this study was to analyze the variation trends of the runoff and quantitatively assess the contributions of precipitation and human activities to the runoff change in the Huangfuchuan River Basin based on the measured data in 1960–2008. Two inflection points (turning years) of 1979 and 1998 for the accumulative runoff change, and one inflection point of 1979 for the accumulative precipitation change were identified using the methods of accumulative anomaly analysis. The linear relationships between year and accumulative runoff in 1960–1979, 1980–1997 and 1998–2008 and between year and accumulative precipitation in 1960–1979 and 1980–2008 were fitted. A new method of slope change ratio of accumulative quantity (SCRAQ) was put forward and used in this study to calculate the contributions of different factors to the runoff change. Taking 1960–1979 as the base period, the contribution rate of the precipitation and human activities to the decreased runoff was 36.43% and 63.57% in 1980–1997, and 16.81% and 83.19% in 1998–2008, respectively. The results will play an important role in the drainage basin management. Moreover, the new method of SCRAQ can be applied in the quantitative evaluation of runoff change and impacts by different factors in the river basin of arid and semi-arid areas.
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References
Chen Xiaohong, Chen Yongqin, 2002. Hydrological change and its causes in the river network of the Pearl River Delta. Acta Geographica Sinica, 57(4): 429–436. (in Chinese)
Ercan Kahya, Serdar Kalayc, 2004. Trend analysis of stream flow in Turkey. Journal of Hydrology, 289: 128–144.
Han Xueshi, Wang Zhengwen, Zhao Xin et al., 2002. Present situation and variation trend of the runoff and sediment yield in the Huangfuchuan River Basin. In: Wang Gang, Fan Zhao (eds.). Study on Water and Sediment Variations of the Yellow River. Vol. 2. Zhengzhou: Yellow River Conservancy Press, 341–392. (in Chinese)
Jing Ke, Zheng Fenli, 2004. Effects of soil and water conservation on surface water resource on the Loess Plateau. Research of Soil and Water Conservation, 11(4): 11–12. (in Chinese)
Jiang Tong, Su Buda, Hartmann Heike, 2007. Temporal and spatial trends of precipitation and river flow in the Yangtze River Basin, 1961–2000. Geomorphology, 85: 143–154.
Li Yuetan, Li Xiaoyan, Cui Buli et al., 2010. Trend of streamflow in Lake Qinghai basin during the past 50 years (1956–2007): Take Buha River and Shaliu River for examples. Journal of Lake Sciences, 22(5): 757–766. (in Chinese)
Liu Changming, Zhang Xuecheng, 2004. Causal analysis on actual water flow reduction in the mainstream of the Yellow River. Acta Geographica Sinica, 59(3): 323–330. (in Chinese)
Marius-Victor Birsan, Peter Molnar, Paolo Burlando et al., 2005. Stream flow trends in Switzerland. Journal of Hydrology, 314: 312–329.
Ministry of Water Resources of China (MWR), 1998–2008. The Huanghe River Water Resources Bulletin http://www.yellowriver.gov.cn/other/hhgb.
Omar I, Abdul Aziz, Donald H Burn, 2006. Trends and variability in the hydrological regime of the Mackenzie River Basin. Journal of Hydrology, 319: 282–294.
Ran L, Wang S, Fan X, 2010. Channel change at Toudaoguai Station and its responses to the operation of upstream reservoirs in the upper Yellow River. Journal of Geographical Sciences, 20(2): 231–247.
Tang Qicheng, 1992. Analysis on runoff variation trend of the Talimu River. Journal of Desert Research, 12(2): 15–20. (in Chinese)
Wang Fei, Wu Xingmin, Jiao Juying et al., 2009. Natural runoff stage analysis controlled by the least duration of each stage of the Yellow River. Journal of Soil and Water Conservation, 23(3): 34–37. (in Chinese)
Wang S, Li Y, 2011. Channel variations of the different channel pattern reaches in the lower Yellow River from 1950 to 1999. Quaternary International, 244: 238–247.
Wang S, Ni J, Wang G et al., 2004. Hydrological processes of an anastomosing river system on the Zhujiang River Delta, China. Journal of Coastal Research, 43(Special Issue): 124–133.
Wang S, Yan Y, Li Y, 2012. Spatial and temporal variations of suspended sediment deposition in the alluvial reach of the upper Yellow River from 1952 to 2007. Catena, 92: 30–37.
Xu J X, 2011. Variation in annual runoff of the Wudinghe River as influenced by climate change and human activity. Quaternary International, doi: 10.1016/j.quaint.2010.09.014.
Xu Jiongxin, 2004. Response of erosion and sediment producing processes to soil and water conservation measures in the Wudinghe River basin. Acta Geographica Sinica, 59(6): 972–981. (in Chinese)
Yang Xin, Yan Junping, Liu Baoyuan, 2005. The analysis on the change characteristics and driving forces of Wudinghe River runoff. Advances in Earth Science, 20(6): 637–642. (in Chinese)
Yellow River Conservancy Committee (YRCC), 1960–1989. Annual Report of Yellow Water and Sediment (interior report). (in Chinese)
Zhang Jianyun, Wang Guoqing, He Ruimin et al., 2009. Variation trends of runoffs in the middle Yellow River basin and its response to climate change. Advances in Water Science, 20(2): 153–158. (in Chinese)
Zhang L, Dawes W R, Walker G R, 2001. Response of mean annual evapotranspiration to vegetation changes at catchment scale. Water Resources Research, 37(3): 701–708.
Zhang Qiang, Liu Chunling, Xu Chongyuen et al., 2006. Observed trends of annual maximum water level and stream flow during past 130 years in the Yangtze River Basin, China. Journal of Hydrology, 324: 255–265.
Zhao Xiaokun, Wang Suiji, Fan Xiaoli, 2010. Analysis on the change trend of the runoff and influencing factors in the Kuye River basin from 1954 to 1993. Journal of Water Resources and Water Engineering, 21(5): 32–36. (in Chinese)
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Foundation: National Basic Research Program of China, No.2010CB428404
Author: Wang Suiji (1966–), Ph.D and Associate Professor, specialized in fluvial geomorphology, sedimentology and land surface processes.
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Wang, S., Yan, Y., Yan, M. et al. Quantitative estimation of the impact of precipitation and human activities on runoff change of the Huangfuchuan River Basin. J. Geogr. Sci. 22, 906–918 (2012). https://doi.org/10.1007/s11442-012-0972-8
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DOI: https://doi.org/10.1007/s11442-012-0972-8