Abstract
This study presents a soil and water integrated model (SWIM) and associated statistical analyses for the Huaihe River Basin (HRB) based on daily meteorological, river runoff, and water resource data encompassing the period between 1959 and 2015. The aim of this research is to quantitatively analyze the rate of contribution of upstream runoff to that of the midstream as well as the influence of climate change and human activities in this section of the river. Our goal is to explain why extreme precipitation is concentrated in the upper reaches of the HRB while floods tend to occur frequently in the middle reaches of this river basin. Results show that the rate of contribution of precipitation to runoff in the upper reaches of the HRB is significantly higher than temperature. Data show that the maximum contribution rate of upstream runoff to that of the midstream can be as high as 2.23%, while the contribution of temperature is just 0.38%. In contrast, the rate of contribution of human activities to runoff is 87.20% in the middle reaches of the HRB, while that due to climate change is 12.80%. Frequent flood disasters therefore occur in the middle reaches of the HRB because of the combined effects of extreme precipitation in the upper reaches and human activities in the middle sections.
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Aamery N Al, Fox J F, Snyder M, 2016. Evaluation of climate modeling factors impacting the variance of streamflow. Journal of Hydrology, 542: 125–142.
Ahn K H, Merwade V, 2017. The effect of land cover change on duration and severity of high and low flows. Hydrological Processes, 31(1): 133–149.
Bao Z X, Zhang J Y, Wang G Q et al., 2012. Attribution for decreasing streamflow of the Haihe River basin, northern China: Climate variability or human activities? Journal of Hydrology, 460/461(3): 117–129.
Bi Caixia, Mu Xingmin, Zhao Guangju et al., 2013. Effects of climate change and human activity on streamflow in the Wei River basin. Science of Soil and Water Conservation, 11(2): 33–38. (in Chinese)
Birkinshaw S J, Guerreiro S B, Nicholson A et al., 2017. Climate change impacts on Yangtze River discharge at the Three Gorges Dam. Hydrology and Earth System Sciences, 21(4): 1911–1927.
Chen Xiaohong, Tu Xinjun, Xie Ping et al., 2010. Progresses in the research of human induced variability of hydrological elements. Advances in Earth Science, 25(8): 800–811. (in Chinese)
Deng H J, Chen Y N, 2017. Influences of recent climate change and human activities on water storage variations in Central Asia. Journal of Hydrology, 544: 46–57.
Dong Xuguang, Gu Weizong, Wang Jing et al., 2015. Quantitative analysis of climate factors for potential evapotranspiration changes in Shandong. Journal of Natural Resources, 30(5): 810–823. (in Chinese)
Gao Chao, Jin Gaojie, 2012. Effects of DEM resolution on results of the SWIM hydrological model in the Changtaiguan basin. Geographical Research, 31(3): 399–408. (in Chinese)
Gao C, Zhang Z T, Zhai J Q et al., 2015. Research on meteorological thresholds of drought and flood disaster: A case study in the Huai River basin, China. Stochastic Environmental Research and Risk Assessment, 29(1): 157–167.
Gao L M, Zhang Y N, 2016. Spatio-temporal variation of hydrological drought under climate change during the period 960–2013 in the Hexi Corridor, China. Journal of Arid Land, 8(2): 157–171.
He Hui, Liao Xueping, Lu Hong et al., 2016. Features of long-cycle drought-flood abrupt alternation in South China during summer in 1961–2014. Acta Geographica Sinica, 71(1): 129–141. (in Chinese)
He Ruimin, Zhang Jianyun, Bao Zhenxin et al., 2015. Response of runoff to climate change in the Haihe River basin. Advances in Water Science, 26(1): 1–9. (in Chinese)
Hu S S, Liu C M, Zheng H X et al., 2012. Assessing the impacts of climate variability and human activities on streamflow in the water source area of Baiyangdian Lake. Journal of Geographical Sciences, 22(5): 895–905.
Juckem P F, Hunt R J, Anderson M P et al., 2008. Effects of climate and land management change on streamflow in the driftless area of Wisconsin. Journal of Hydrology, 355(1–4): 123–130.
Krysanova V, Meiner A, Roosaare J et al., 1989. Simulation modelling of the coastal waters pollution from agricultural watershed. Ecological Modelling, 49(1/2): 7–29.
Lan Yongchao, Shen Yongping, Zhong Yingjun et al., 2010. Sensitivity of the mountain runoff of Urumqi River to the climate changes. Journal of Arid Land Resources and Environment, 24(11): 50–55. (in Chinese)
Liew M W V, Garbrecht J, 2003. Hydrologic simulation of the Little Washita River experimental watershed using SWAT. Journal of the American Water Resources Association, 39(2): 413–426.
Li K Y, Coe M T, Ramankutty N et al., 2007. Modeling the hydrological impact of land-use change in West Africa. Journal of Hydrology, 337(3/4): 258–268.
Li Zhi, Liu Wenzhao, Zheng Fenli et al., 2010. The impacts of climate change and human activities on river flow in the Loess Tableland of China. Acta Ecologica Sinica, 30(9): 2379–2386. (in Chinese)
López-Moreno J I, Zabalza J, Vicente-Serrano S M et al., 2014. Impact of climate and land use change on water availability and reservoir management: Scenarios in the Upper Aragón River, Spanish Pyrenees. Science of the Total Environment, 493: 1222–1231.
Lu Miao, Gao Chao, Su Buda et al., 2015. Spatial distribution and probabilistic characteristics of extreme precipitation in the Huaihe River basin. Journal of Natural Disasters, 24(5): 160–168. (in Chinese)
Ma C K, Sun L, Liu S Y et al., 2015. Impact of climate change on the streamflow in the glacierized Chu River Basin, Central Asia. Journal of Arid Land, 7(4): 501–513.
Mladjic B, Sushama L, Khaliq M N et al., 2011. Canadian RCM projected changes to extreme precipitation characteristics over Canada. Journal of Climate, 24(10): 2565–2584.
Mo Shuhong, Wang Xuefeng, Gou Kui et al., 2016. Impacts of climate changes and human activities on annual runoff of Bahe River basin. Journal of Hydroelectric Engineering, 35(9): 7–17. (in Chinese)
Piao S L, Ciais P, Huang Y et al., 2010. The impacts of climate change on water resources and agriculture in China. Nature, 467(7311): 43–51.
Pierrehumbert R T, 2002. The hydrologic cycle in deep-time climate problems. Nature, 419(6903): 191–198.
Song Xiaomeng, Zhang Jianyun, Zhan Chesheng et al., 2013. Review for impacts of climate change and human activities on water cycle. Journal of Hydraulic Engineering, 44(7): 779–790. (in Chinese)
Sun Yue, Li Dongliang, 2014. Features and response to climate-driven factors of the runoff in the upper reaches of the Weihe River in 1975–2011. Journal of Glaciology and Geocryology, 36(2): 413–423. (in Chinese)
Tong S T Y, Sun Y, Ranatunga T et al., 2012. Predicting plausible impacts of sets climate and land use change scenarios on water resources. Applied Geography, 32(2): 477–489.
Wang Guoqing, Wang Yunzhang, Kang Lingling, 2002. Analysis on the sensitivity of runoff in Yellow River to climate change. Journal of Applied Meteorological Science, 13(1): 117–121. (in Chinese)
Wang Guoqing, Zhang Jianyun, He Ruimin, 2006. Impacts of environmental change on runoff in the Fenhe River basin of the middle Yellow River. Advances in Water Science, 17(6): 853–858. (in Chinese)
Wang Sheng, Tian Hong, Ding Xiaojun et al., 2009. Climate characteristics of precipitation and phenomenon of drought-flood abrupt alternation during main flood season in Huaihe River basin. Chinese Journal of Agrometeorology, 30(1): 31–34. (in Chinese)
Wu D, Chen F H, Li K et al., 2016. Effects of climate change and human activity on lake shrinkage in Gonghe Basin of northeastern Tibetan Plateau during the past 60 years. Journal of Arid Land, 8(4): 479–491.
Xia Jun, 2009. Impact of water diversion project across basins on land water cycle and water security. Journal of Basic Science and Engineering, 17(6): 831–842. (in Chinese)
Yang L S, Feng Q, Yin Z L et al., 2017. Identifying separate impacts of climate and land use/cover change on hydrological processes in upper stream of the Heihe River, northwest China. Hydrological Processes, 31(1–5): 1100–1112.
Zhang Guosheng, Li Lin, Shi Xinghe et al., 2000. Climatic changes over the upper Yellow River and its effects on water resources. Advances in Water Science, 11(3): 277–283. (in Chinese)
Zhang Jian, Li Tongsheng, Zhang Junhui et al., 2016. The runoff abrupt change and periodic characteristics of the Wudinghe River during 1933–2012. Acta Geographica Sinica, 36(3): 475–480. (in Chinese)
Zhang Lianpeng, Liu Dengfeng, Zhang Hongxue et al., 2016. Impact of climate change and human activities on runoff variation in the Beiluo River basin. Journal of Hydroelectric Engineering, 35(7): 55–66. (in Chinese)
Zhang Liping, Li Lingcheng, Xia Jun et al., 2015. Quantitative assessment of the impact of climate variability and human activities on runoff change in the Luanhe River catchment. Journal of Natural Resources, 30(4): 664–672. (in Chinese)
Zhang Shuifeng, Zhang Jinchi, Min Junjie et al., 2012. Drought-flood abrupt alternation based on runoff in the Huaihe River basin during rainy season. Journal of Lake Sciences, 24(5): 679–686. (in Chinese)
Zhang Zhengtao, Gao Chao, Liu Qing et al., 2014. Risk assessment on storm flood disasters of different return periods in Huaihe River basin. Geographical Research, 33(7): 1361–1372. (in Chinese)
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Foundation: National Natural Science Foundation of China, No.41571018
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Gao, C., Ruan, T. The influence of climate change and human activities on runoff in the middle reaches of the Huaihe River Basin, China. J. Geogr. Sci. 28, 79–92 (2018). https://doi.org/10.1007/s11442-018-1460-6
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DOI: https://doi.org/10.1007/s11442-018-1460-6