Abstract
A novel model has been proposed for the methodical development and safe utilization of the lower Yellow River floodplain to provide flood control with a graded standard, sediment deposition in the partitioned zone, and the free exchange of channel runoff and sediment. The wide floodplain, which is located between the dam and the main channel, has been typically divided into three zones: high, tender, and low floodplains. Meanwhile, different ecological construction models have been suggested for each zone. This paper summarizes all related research findings; describes the overall research ideas and methodologies; expounds key issues such as land planning and utilization, sediment prediction and regulation, and multi-dimensional industrial safeguards in the lower Yellow River floodplain; and provides orientation for future research on the ecological development of the lower Yellow River floodplain. This study aims to promote the refinement of the ecological development model for the lower Yellow River floodplain and accelerate the application of research findings regarding land development and utilization of the lower Yellow River floodplain.
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References
Cao, L., Qin, D., Liu, J., & Wang, J. (2011). Analysis and computation of the water volume for the sediment transport of the lower Yellow River. Yellow River, 33(7), 39–41. In Chinese. https://doi.org/10.3969/j.issn.1000-1379.2011.07.017
Ding, Z., Zhang, J., & Feng, P. (2012). Study on joint distribution model of flood and sediment in river system. Yellow River, 34(8), 21-23+26. In Chinese.
Duan, W. (2003). Reasons of long term safety of the Yellow River after the Eastern Han Dynasty. Journal of Catastrophology, 18(3), 91–96. https://doi.org/10.3969/j.issn.1000-811X.2003.03.017
Gao, J. (2001). Theory, method and application of sustainable development theory to explore ecological carrying capacity [M]. China Environmental Science Press.
Gianikellis, K., & Dávila, M. G. (2010). Prediction of the effects of a flood control project on a meandering stream// river meandering. ASCE, 2010, 896–907.
He, Y., Cui, M., Liu, S., & Wan, Z. (2013). Study on strategy of river training in the lower Yellow River. Yellow River, 35(10), 51–53. https://doi.org/10.3969/j.issn.1000-1379.2004.05.002. In Chinese.
Hu, C., Chen, J., Liu, D., & Dong, Z. (2006). Studies on the features of cross section’s profile in lower Yellow River under the conditions of variable incoming water and sediment. Journal of Hydraulic Engineering, 37(11), 1283–1289. https://doi.org/10.13243/j.cnki.slxb.2006.11.001
Hu, Y. (2003). Variation of River Regime of the Yellow River. Journal of Hydraulic Engineering, 4(9), 8–13. https://doi.org/10.13243/j.cnki.slxb.2003.04.009. In Chinese.
Jiang, S., Wang, J., Zhao, Y., Shang, Y., Gao, X., Li, H., Wang, Q., & Zhu, Y. (2017). Sustainability of water resources for agriculture considering grain production, trade and consumption in China from 2004 to 2013. Journal of Cleaner Production, 149, 1210–1218.
Kang, J., Meng, X., & Xu, Y. (2012). Effects of different vegetation types on soil organic carbon pool in costal saline-alkali soils of Jiangsu province. Soils, 44(2), 260–266. https://doi.org/10.13758/j.cnki.tr.2012.02.011. In Chinese.
Leahy, P. J., Tibby, J., Kershaw, P., Henk Heijnis, A., & Kershaw, J. S. (2005). The impact of European settlement on Bolin Billabong, a Yarra River floodplain lake, Melbourne, Australia. River Research and Applications, 21(2–3), 131–149. https://doi.org/10.1002/rra.837
Li, G. Y., & Sheng, L. X. (2011). Model of water-sediment regulation in Yellow River and its effect. Science China Technological Science, 54, 924–930. https://doi.org/10.1007/s11431-011-4322-3
Li, Z. (2018). Study on floods in Zuo Zhuan. Lantai World, 4(11), 150–153. https://doi.org/10.16565/j.cnki.1006-7744.2019.04.41. In Chinese.
Liu, X., & Zhao, H. (1998). Disasters of productive dam and its preventive measures of the Yellow River Shoal. China Science and Technology Information, 5(5), 85–90. https://doi.org/10.3969/j.issn.1001-8972.2015.07.001. In Chinese.
Lu, S., Shang, Y., Li, W., Wu, X., & Zhang, H. (2018). Basic theories and methods of watershed ecological regulation and control system. Journal of Water and Climate Change, 9(2), 293–306.
Ma, P., Yan, Y., & Chen, J. (2010). Influence of crustal movement to the channel stability of Henan section on the Lower Yellow River. Yellow River, 32(7), 12–14. https://doi.org/10.3969/j.issn.1000-1379.2010.07.005. In Chinese.
Neill, C. R., & Galay, V. J. (1967). Systematic evaluation of River Regime. Journal of the Waterways & Harbors Division, 93, 25-53.
Ouyang, Y. (2005). Evaluation of river water quality monitoring stations by principal component analysis. Water Research, 39(12), 2621–2635.
Qi, P., Sun, Z., Liu, B., & Li, G. (2003). Study on river bank training in the wandering lower Yellow River. Journal of Hydraulic Engineering, 5(18), 98–106. https://doi.org/10.3321/j.issn:0559-9350.2003.05.018. In Chinese.
Qi, P., Sun, Z., & Qi, H. (2011). Research on two-bank training strategy for wandering channels of Lower Yellow River. Journal of Sediment Research, 3(3), 1–9. In Chinese.
Ren, J., & Lin, H. (2005). Assumed plan on grassland ecological reconstruction in the source region of Yangtze River, Yellow River and Lantsang River. Acta Pratacultural Science, 14(2), 1–8.
Schindler, S., Kropik, M., Euller, K., Bunting, S. W., Schulz-Zunkel, C., Hermann, A., Hainz-Renetzeder, C., Kanka, R., Mauerhofer, V., Gasso, V., Krug, A., Lauwaars, S. G., Zulka, K. P., Henle, K., Hoffmann, M., Biró, M., Essl, F., Jaquier, S., Balázs, L., … Wrbka, T. (2013). Floodplain management in temperate regions: Is multifunctionality enhancing biodiversity? Environmental Evidence, 2, 10. https://doi.org/10.1186/2047-2382-2-10
Susana, O.-R., Wang, L., Laurie, T., & Christian, O. (2015). Surface water flood warnings in England: Overview, assessment and recommendations based on survey responses and workshops. Journal of Flood Risk Management, 11(S1), 418–418.
Tan, D. (2011). On Historical and cultural connotations of myths and legends about Gonggong. Journal of Bijie University., 29(10), 61–67. https://doi.org/10.3969/j.issn.1673-7059.2011.10.011. In Chinese.
Wang, S., Liu, J., & Ma, T. (2010). Dynamics and changes in spatial patterns of land use in Yellow River Basin, China. Land Use Policy, 27(2), 313–323.
Wohl, E. (2018). Toward Sustainable Rivers and Water Resources. In E. Wohl (Ed.), Sustaining River Ecosystems and Water Resources. Springer Briefs in Environmental Science. Cham: Springer. https://doi.org/10.1007/978-3-319-65124-8_4
Wu, X. (2009). Study on the strategies of development of henan soft power. Journal of North China University of Water Resources and Electric Power, 25(6), 89–91. https://doi.org/10.3969/j.issn.1008-4444.2009.06.026. In Chinese.
Xi, H. (2013). Watercourse change of Yellow River and reformation of watercourse governance in Late Qing Dynasty centering the mapping and operation of watercourse-changing map of Yellow River. Journal of Chinese Historical Geography, 28(3), 142–150. https://doi.org/10.13243/j.cnki.slxb.1996.08.001. In Chinese.
Xia, N. (2015). Studies on the legend of Dayu flood control in the multi-dimension horizon. Journal of Yangtze University (social Sciences Edition)., 38(3), 8–11. https://doi.org/10.3969/j.issn.1673-1395.2015.03.002. In Chinese.
Xu, G., Zhang, J., & Lian, J. (2005). Effect of water-sediment regulation of the Yellow River on the lower reach. Advances in Water Science, 4, 518+523. In Chinese.
Yan, M. (2003). On the governed Yellow River of Xihan Dynasty. Journal of Guizhou Normal University., 12(4), 51–54. https://doi.org/10.3969/j.issn.1001-733X.2003.04.012. In Chinese.
Yang, C., Jiang, C., & Kong, Q. (2010). A graded sediment transport and bed evolution model in estuarine basins and its application to the Yellow River Delta. Procedia Environmental Sciences, 2(1), 372–385.
Zhang, H., Zhang, J., Zhong, D., & Dong, Z. (2006). Regulation strategies for wandering reaches of Lower Yellow River. Journal of Hydraulic Engineering, 42(1), 8–13. https://doi.org/10.13243/j.cnki.slxb.2011.01.005. In Chinese.
Zhang, J. (2005a). Involved categories in water and sediment joint regulation by group of reservoirs on the Middle Yellow River. Yellow River, 9, 17-20+63–64. In Chinese.
Zhang, J. (2008a). Implement Flood and Sediment Management and Construct the Flood and Sediment Management System for the Yellow River. Water Resources and Hydropower Forum. In Chinese.
Zhang, J. (2008b). Practice of water and sediment regulation of the Yellow River. Journal of Tianjin University, 9, 1046–1051. In Chinese.
Zhang, J. (2009). Psychological studies of residents in floodplains of lower reaches of the Yellow River. China Water Resources, 31(2), 317–323. In Chinese.
Zhang, J. (2016). Research on the strategic position and functions of Yellow River Guxian multipurpose Dam project. Yellow River, 38(10), 119-121+136. In Chinese.
Zhang, J. (2017a). Discussion on mechanism and process of sediment moving into the Yellow River. Yellow River, 39(9), 8-12+17. In Chinese.
Zhang, J. (2017b). Reconstruction and ecological management of the lower Yellow River floodplain. Yellow River, 39(6), 24-27+33. In Chinese.
Zhang, J., Liu, J., Luo, Q., & Chen, C. (2018a). Study on the Operation Mechanism of Runoff and Sediment in the Lower Yellow River Under Different Governance Modes" Study on Ecological Reconstruction and Management of the Floodplains in the Lower Yellow River". Yellow River, 40(8), 1–7. In Chinese.
Zhang, J., Liu, J., & Wan, Z. (2018b). Channel Morphology Evolution and Corresponding Coping Strategy in the Lower Yellow River-“Study on Ecological Reconstruction and Management of the Floodplains in the Lower Yellow River.” Yellow River, 40(7), 1-6+37. In Chinese.
Zhang, J., Liu, S., & Li, C. (2018c). Discussion on effect of ecological security barrier of the Lower Yellow River. Yellow River, 40(2), 21–24. In Chinese.
Zhang, J., Shang, Y., Liu, J., & Cui, M. (2020a). Improved ecological development model for lower Yellow River floodplain. China. Water Science and Engineering, 13(4), 275–285.
Zhang, J., Shang, Y., Liu, J., Fu, J., Wei, S., & Tong, L. (2020b). Causes of variations in sediment yield in the Jinghe River Basin, China. Scientific Reports, 10, 18054.
Zhang, J., Shang, Y., Liu, J., Lu, J., Wei, S., Wan, Z., Luo, Q., Chen, C., Tong, L., Wang, Q., & Fu, J. (2021). Optimisation of reservoir operation mode to improve sediment transport capacity of silt-laden rivers. Journal of Hydrology, 594, 125951.
Zhang, J., & Suo, E. (2005). Joint operational mode of water and sediment through group of reservoirs on the middle Yellow River and its correlated techniques. Yellow River, 7, 7-9+63. In Chinese.
Zhang, J., & Wei, J. (2007). Practice and exploration of flood and sediment management for the yellow river. China Flood & Drought Management, 2, 16–20. In Chinese.
Zhang, J., Zhang, Y., & Wang, Y. (2003). Application of multipolar coupling thought in “Digital flood control.” Yellow River, 7, 8–9. In Chinese.
Zhang, X. (2005). Gun- A libeled hero who is expert in controlling the flood. Journal of Qinghai Junior Teachers’ College, 5(5), 21–24. https://doi.org/10.3969/j.issn.1007-0117.2005.05.005 In Chinese.
Zhang, X., Li, D., Pan, G., Li, L., Lin, F., & Xu, X. (2008). Conservation of wetland soil C Stock and climate change of china. Advances in Climate Change Research, 4(4), 202–208. In Chinese.
Zhang, X., Xia, J., Chen, Q., & Guo, P. (2018). Experimental studies on farm dike-break induced overbank floods using a sketched physical model. Advances in Water Science, 29(1), 100–108. https://doi.org/10.14042/j.cnki.32.1309.2018.01.012. In Chinese.
Zhang, Y. (2004). Countermeasures for Wide River Channel Management of the Lower Yellow River. Yellow River, 26(5), 3–6. https://doi.org/10.3969/j.issn.1000-1379.2004.05.002. In Chinese.
Zhong, X., Yu, G., He, G., & Lu, Di. (2006). Carbon storage loss during land readjustment and optimization of ecological compensation. Journal of Ecology, 25(3), 303–308. https://doi.org/10.13292/j.1000-4890.2006.0059. In Chinese.
Zhou, K. (1996). The historic contributions of Pan Jixun’s strategy of regulating the Yellow River. Journal of Hydraulic Engineering, 1(8), 1–15. https://doi.org/10.13243/j.cnki.slxb.1996.08.001. In Chinese.
Funding
This work was jointly supported by the Yellow River Engineering Consulting Co., Ltd. [Grant No. 2019GS007-WW03/20] and the State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin [Grant No. SKL2020ZY10].
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Zhang, J., Shang, Y., Cui, M. et al. Successful and sustainable governance of the lower Yellow River, China: A floodplain utilization approach for balancing ecological conservation and development. Environ Dev Sustain 24, 3014–3038 (2022). https://doi.org/10.1007/s10668-021-01593-9
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DOI: https://doi.org/10.1007/s10668-021-01593-9