Relationship between the characteristics of water-sediment transportation in river-lake system
                         and the channel forming discharge of the middle and lower Yangtze River




                       SUN Zhaohua，ZHOU Weixing，ZHOU Kun，ZHOU Xinyue，CHEN Li，LI Yitian
                    （State Key Laboratory of Water Resources and Hydropower Engineering Science，Wuhan University，Wuhan  430072，China）


                   Abstract：The flood detention and sediment trap effects of the river-lake system in the middle Yangtze Riv⁃
                   er is significantly different from that of general river floodplains . These characteristics may affect the chan⁃
                   nel-forming discharge in the main stream. Aim at this problem， the long term water and sediment dis⁃
                   charge data and long distance channel topography data pre the Three Georges Reservoir impoundment was
                   collected，and two kinds of work was performed. Firstly，the channel forming discharges in the middle and
                   lower Yangtze River were estimated using multiple methods. Secondly， the mechanisms of river-lake water
                   and sediment transportation and the channel forming discharge were systematically analyzed in sub-reaches
                   influenced by diversions or confluence. （1） The river was characterized by flow diversion and sediment de⁃
                   position in the upstream reach of Chenglingji station， and the river was characterized by flow convergence
                   and sediment concentration dilution in the downstream reach of Chenglingji station. In reaches influenced
                   by diversions， flow frequency curve showed trend of decline and channel deposition was likely to happen
                   when discharge was beyond the critical range of 35000~40000m /s. In reaches influenced by confluence，
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                   flow frequency curves were well fitted with broken power law function and the positive correlation between
                   discharge and sediment concentration became negative correlation when discharge exceeded the critical
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                   range of about 40，000m /s. （2） The channel forming discharge estimated by various methods agreed with
                   each other. It showed streamwise declining trend and ranged 28000~35000m /s in upstream of Chenglingji，
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                   and it showed streamwise increasing trend and ranged 36000~44000m /s in downstream of Chenglingji. （3）
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                   In upstream of Chenglingji， the channel forming discharge was mainly determined by incoming water and
                   sediment， e.g. flow frequency and water-sediment relation of Zhicheng. In contrast， the diversion ratio of
                   water and sediment was less important factors. In downstream of Chenglingji， channel forming discharge
                   was mainly determined by the frequency of medium and flood flow. Thus， flood detention capacity of the
                   river-lake system was an important factor affecting the channel forming discharge，and the influence of con⁃
                   fluency along the reach was minor. （4） After operation of the Three Gorges Reservoir， the flow frequency
                   and the water-sand relationship were both adjusted in the dam downstream reach. However，the influencing
                   factors and their relations remain unchanged in the process of channel adjustment.
                   Keywords： the middle and lower Yangtze River； river-lake relationship； water and sediment transporta⁃
                   tion；channel forming discharge

                                                                                   （责任编辑：王冰伟）


























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