The effects of rainfall characteristics and land use and cover change on runoff in the Yellow River basin, China

Asselman, N., Middelkoop, H., Van Dijk, P.M., 2003. The impact of changes in climate and land use on soil erosion, transport and deposition of suspended sediment in the River Rhine. Hydrol. Process., 17, 16, 3225–3244.10.1002/hyp.1384Search in Google Scholar

Bhark, E.W., Small, E.E., 2003. Association between plant canopies and the spatial patterns of infiltration in shrubland and grassland of the Chihuahuan Desert, New Mexico. Ecosystems, 6, 2, 185–196.10.1007/s10021-002-0210-9Search in Google Scholar

Chen, L., Sela, S., Svoray, T., 2013. The role of soil-surface sealing, microtopography, and vegetation patches in rainfall-runoff processes in semiarid areas. Water Resour. Res., 49, 9, 5585–5599.10.1002/wrcr.20360Search in Google Scholar

Chen, X.F., Parajka, J., Széles, B., et al., 2020. Controls on event runoff coefficients and recession coefficients for different runoff generation mechanisms identified by three regression methods. J. Hydrol. Hydromech., 68, 2, 155−169.10.2478/johh-2020-0008Search in Google Scholar

Cuevas, J.G., Arumí, J.L., Dörner, J., 2019. Times of response of stream discharge as a function of rainfall duration in a southern Chilean watershed. J. Hydrol. Hydromech., 67, 2, 143−153.10.2478/johh-2018-0043Search in Google Scholar

Du, J.K., Qian, L., Rui, H.Y., et al., 2012. Assessing the effects of urbanization on annual runoff and flood events using an integrated hydrological modeling system for Qinhuai River basin, China. Journal of Hydrology, 465, 127–139.10.1016/j.jhydrol.2012.06.057Search in Google Scholar

Duan, Q.Y., Sorooshian, S., Gupta, V.K., 1992. Effective and efficient global optimization for conceptual rainfall-runoff models. Water Resour. Res., 28, 1015–1031.10.1029/91WR02985Search in Google Scholar

Feng, X.M., Su, C.H., Liu, Y., et al., 2012. Regional effects of vegetation restoration on water yield across the Loess Plateau, China. Hydrol. Earth Syst. Sci., 16, 8, 2617–2628.10.5194/hess-16-2617-2012Search in Google Scholar

Gao, P., Mu, X.M., Wang, F., Li, R., 2011. Changes in streamflow and sediment dischargeand the response to human activities in the middle reaches of the Yellow River. Hydrol. Earth Syst. Sci., 15, 1, 1–10.10.5194/hess-15-1-2011Search in Google Scholar

Gao, Y.Q., Chen, J.H., Luo, H., Wang, H.Z., 2020. Prediction of hydrological responses to land use change. Sci. Total Environ., 708, 134–142.10.1016/j.scitotenv.2019.13499831810667Search in Google Scholar

Hu, C., Li, S., Zhang, W., Chen, X., Wang, J., 2016. Establishing and testing runo model based on runo coe cient. J. China Hydrol., 36, 8–13.Search in Google Scholar

Hu, C.H., Zhang, L., Jian, S.Q., et al., 2020. Response of LUCC on runoff generation process in Middle Yellow River basin: The Gushanchuan basin. Water, 12, 2–14.10.3390/w12051237Search in Google Scholar

Huff, F.A., 1967. Time distribution of rainfall in heavy storms. Water Resour. Res., 3, 4, 1007−1019.10.1029/WR003i004p01007Search in Google Scholar

Jeffrey, A.N., Eyal, A., 2003. High temporal resolution of extreme rainfall rate variability and the acoustic classification of rainfall. Journal of Geophysical Research: Atmospheres, 108, D8, Article Number: 8378.10.1029/2001JD001481Search in Google Scholar

Kong, D., et al., 2016. Impact assessment of climate change and human activities on net runoff in the Yellow River Basin from 1951 to 2012. Ecological Engineering. 91, 566–573.10.1016/j.ecoleng.2016.02.023Search in Google Scholar

Lewis, C.D., 1982. Industrial and Business Forecasting Methods: A Practical Guide to Exponential Smoothing and Curve Fitting. Butterworth Scientific, London.Search in Google Scholar

Li, E.H., Mu, X.M., Zhao, G.J., Gao, P., Shao, H.B., 2014. Variation of runoff and precipitation in the Hekou-Longmen Region of the Yellow River based on elasticity analysis. Sci. World J., Article Number: 929858. https://doi.org/10.1155/2014/92985810.1155/2014/929858405262024955424Search in Google Scholar

Liu, J., Luo, M., Liu, T., et al., 2017. Local climate change and the impacts on hydrological processes in an Arid Alpine catchment in Karakoram. Water, 9, 5, Article Number: 344.10.3390/w9050344Search in Google Scholar

Liu, T., Huang, H.Q., Shao, M.A., et al., 2020. Integrated assessment of climate and human contributions to variation in streamflow in the Ten Great Gullies Basin of the Upper Yellow River, China. J. Hydrol. Hydromech., 68, 3, 249−259.10.2478/johh-2020-0027Search in Google Scholar

Ludwig, J.A., Wilcox, B.P., Breshears, D.D., et al., 2005. Vegetation patches and runoff-erosion as interacting ecohydrological processes in semiarid landscapes. Ecology, 86, 288–297.10.1890/03-0569Search in Google Scholar

Minea, G., Ioana-Toroimac, G., Moroşanu, G., 2019. The dominant runoff processes on grassland hillslopes within different land uses of Romania – an experimental study. J. Hydrol. Hydromech., 67, 4, 297−304.10.2478/johh-2019-0018Search in Google Scholar

Mu, W.B., Yu, F.L., Li, C.Z., et al., 2015. Effects of rainfall intensity and slope gradient on runoff and soil moisture content on different growing stages of spring maize. Water, 7, 6, Article Number: 2990.10.3390/w7062990Search in Google Scholar

Nau, R., 2017. Statistical Forecasting: Notes on Regression and Time Series Analysis. https://people.duke.edu/~rnau/compare.htm (Accessed 19th Oct 2017).Search in Google Scholar

Ou, Y., Liu, L., Ye, S.Y., Liu, J.P., et al., 2018. Quantitative assessment of surface runoff and base flow response to multiple factors in Pengchongjian small watershed. Forests, 9, 9, Article Number: 553.10.3390/f9090553Search in Google Scholar

Oudin, L., Salavati, B., Saadi, M., 2018. Hydrological impacts of urbanization at the catchment scale. Journal of Hydrology, 559, 774–786.10.1016/j.jhydrol.2018.02.064Search in Google Scholar

Ran, D.C., Zuo, Z.G., Wu, Y.H., Li, X.M., Li, Z.H., 2012. Variation of Streamflow and Sediment in Response to Human Activities in the Middle Reaches of the Yellow River. Science Press, Beijing, China.Search in Google Scholar

Walhin, J.F., 2000. Recursive formulae for some bivariate counting distributions obtained by the trivariate reduction method. ASTIN Bulletin, 30, 1, 141–155.10.2143/AST.30.1.504630Search in Google Scholar

Wang, S.Y., Huang, Y.J., Chen, Z.X., 2005. Remote sensing study of returning farmland to forest or grassland in the Yellow River Basin. J. Tsinghua Univ. Sci. Tech., 45, 306–309.Search in Google Scholar

Wang, Y.H., Yu, P.T., Xiong, W., et al., 2008. Water yield reduction after afforestation and related process in the semi-arid Liupan Mountains, Northwest China. J. Am. Water Re-sour. Assoc., 44, 5, 1086–1097.10.1111/j.1752-1688.2008.00238.xSearch in Google Scholar

Wang, S.J., Li, L., Yan, M., 2013. The contributions of climate change and human activities to the runoff yield change in the middle Yellow River basin. Geogr. Res., 32, 3, 395–402. (In Chinese.)Search in Google Scholar

Wang, S., Fu, B., Piao, S., Lü, Y., Ciais, P., Feng, X., Wang, Y., 2015. Reduced sediment transport in the Yellow River due to anthropogenic changes. Nat. Geosci., 9, 38–41.10.1038/ngeo2602Search in Google Scholar

Wang, D., Jian, S.Q., Hu, C.H., 2018. Impact of climate change and human activities on runoff in Fenhe River basin. Arid Land Geography, 41, 25–31.Search in Google Scholar

Wang, X.J., Zhang, P.F., Liu, L.L., 2019. Effects of human activities on hydrological components in the Yiluo River basin in Middle Yellow River. Water, 11, 689.10.3390/w11040689Search in Google Scholar

Wen, Y.X., Hu, C.H., Jian, S.Q., 2020. Response of the parameters of excess infiltration and excess storage model to land use cover change. J. Hydrol. Hydromech., 68, 2, 99−110.10.2478/johh-2020-0006Search in Google Scholar

Wu, L.H., Wang, S.J., Bai, X.Y., 2017. Quantitative assessment of the impacts of climate change and human activities on runoff change in a typical karst watershed, SW China. Sci. Total Environ., 601, 1449–1465.10.1016/j.scitotenv.2017.05.28828605863Search in Google Scholar

Xin, Z.B., Yu, X.X., 2009. Impact of vegetation restoration on hydrological processes in the middle reaches of the Yellow River, China. Forestry Studies in China, 11, 4, 209–218.10.1007/s11632-009-0037-ySearch in Google Scholar

Yang, J., Lei, H.M., Yang, D.W., et al., 2017. Impact of vegetation dynamics on hydrological processes in a semi-arid basin by using a land surface-hydrology coupled model. Journal of Hydrology, 551, 116–131.10.1016/j.jhydrol.2017.05.060Search in Google Scholar

Yang, X., Sun, W., Li, P., Mu, X., Gao, P., Zhao, G., 2018. Reduced sediment transport in the Chinese Loess Plateau due to climate change and human activities. Sci. Total Environ., 642, 591–600.10.1016/j.scitotenv.2018.06.061Search in Google Scholar

Yang, C.X., Yao, W.Y., Xiao, P.Q., 2019a. Effects of vegetation cover structure on runoff and sediment yield and its regulation mechanism. Journal of Hydraulic Engineering, 50, 9, 1078–1085.Search in Google Scholar

Yang, Y.B., Zhang, J.J., Li, L., et al., 2019b. Effects of rainfall process on runoff in small watersheds in the Loess Plateau of western Shanxi Province. Journal of Beijing Forestry University, 41, 3, 105–114.Search in Google Scholar

Yin, S.Q., Wang, Y., Xie, Y., et al., 2014. Characteristics of intra-storm temporal pattern over China. Advances in Water Science, 25, 5, 617−623.Search in Google Scholar

Yin, J., He, F., Xiong, Y., 2017. Effects of land use/land cover and climate changes on surface runoff in a semi-humid and semi-arid transition zone in northwest China. Hydrol. Earth Syst. Sci., 21, 1, 183–196.10.5194/hess-21-183-2017Search in Google Scholar

Yue, X., Mu, X., Zhao, G., Shao, H., Gao, P., 2014. Dynamic changes of sediment load in the middle reaches of the Yellow River basin, China and implications for eco-restoration. Ecol. Eng., 73, 64–72.10.1016/j.ecoleng.2014.09.014Search in Google Scholar

Zhan, C.S., Jiang, S.S., Sun, F.B., 2014. Quantitative contribution of climate change and human activities to runoff changes in the Wei River basin, China. Hydrol. Earth Syst. Sci., 18, 3069–3077.10.5194/hess-18-3069-2014Search in Google Scholar

Zhao, R.J., 1992. The Xinanjiang model applied in China. Journal of Hydrology, 135, 371–381.10.1016/0022-1694(92)90096-ESearch in Google Scholar

Zhao, G.J., Tian, P., Mu, X.M., et al., 2013a. Climate changes and their impacts on water resources in semiarid regions: a case study of the Wei River basin, China. Hydrological Processes, 27, 3852–3863.10.1002/hyp.9504Search in Google Scholar

Zhao, G., Mu, X., Wen, Z., Wang, F., Gao, P., 2013b. Soil erosion, conservation, and eco-environment changes in the loess plateau of China. Land Degrad. Dev., 24, 499–510.10.1002/ldr.2246Search in Google Scholar

Zope, P.E., Eldho, T.I., Jothiprakash, V., 2016. Impacts of land use–land cover change and urbanization on flooding: A case study of Oshiwara River Basin in Mumbai, India. Catena, 145, 142–154.10.1016/j.catena.2016.06.009Search in Google Scholar

Zuo, D.P., Xu, Z.X., Yao, W.Y., et al., 2016. Assessing the effects of changes in land use and climate on runoff and sediment yields from a watershed in the Loess Plateau of China. Sci. Total Environ., 544, 238–250.10.1016/j.scitotenv.2015.11.06026657370Search in Google Scholar