描述:The Poyang lake is currently the largest freshwater lake in China. Hydrologic properties of this lake, including precipitation, runoff, flood, sediment transport and so on have been analyzed on basis of large amount of measurements. Variation of these properties within a year and among years and the regional distribution are explored. The encounter probability of the outflow from Poyang Lake with that from Changjiang River is computed and the detention volume of Poyang Lake is analyzed. In accordance with water balance theory, the detention storage volume of Poyang Lake and Changjiang River corresponding to the annual maximum 60-day flood volumes in 9 typical heavy flood years of 1968, 1969, 1973, 1980, 1983, 1996 and 1998 have been calculated. The detention storage capacity of both the Lake and the River ranges from 5.6 billion to 16.5 billion m\+3, 11.5 billion m\+3 at average. Among which, the detention storage capacity of Poyang Lake is 9.5 billion m\+3, accounting for 82.6%. Poyang Lake has played a very important role in detaining floods from the five rivers of the Lake system as well as floods on the river section from Changjiang to Bali. There would have more frequent and more serious flooding on the middle and lower Changjiang River, especially in the region around Hukou if there were no Poyang Lake to detain and store the floodwater.
全文:The Poyang lake is currently the largest freshwater lake in China. Hydrologic properties of this lake, including precipitation, runoff, flood, sediment transport and so on have been analyzed on basis of large amount of measurements. Variation of these properties within a year and among years and the regional distribution are explored. The encounter probability of the outflow from Poyang Lake with that from Changjiang River is computed and the detention volume of Poyang Lake is analyzed. In accordance with water balance theory, the detention storage volume of Poyang Lake and Changjiang River corresponding to the annual maximum 60-day flood volumes in 9 typical heavy flood years of 1968, 1969, 1973, 1980, 1983, 1996 and 1998 have been calculated. The detention storage capacity of both the Lake and the River ranges from 5.6 billion to 16.5 billion m\+3, 11.5 billion m\+3 at average. Among which, the detention storage capacity of Poyang Lake is 9.5 billion m\+3, accounting for 82.6%. Poyang Lake has played a very important role in detaining floods from the five rivers of the Lake system as well as floods on the river section from Changjiang to Bali. There would have more frequent and more serious flooding on the middle and lower Changjiang River, especially in the region around Hukou if there were no Poyang Lake to detain and store the floodwater.
描述:本文利用土地利用数据和土壤类型资料,分别建立了流域植被网格参数库和土壤网格参数库,构建了鄱阳湖未控区间流域5 km × 5 km网格分布式VIC水文模型,并提出了水文参数网格化方法。应用结果表明,分布式流域模型的模拟结果略优于集总式水文模型,能较好地模拟区域径流过程和水资源量。在更精细的地形、土壤、植被数据支持下,分布式VIC模型的应用效果会有提升空间。本研究首次把分布式VIC水文模型应用于鄱阳湖未控区间流域,对于湖区等无资料地区的水文模拟分析提供了参考和有效途径。
全文:本文利用土地利用数据和土壤类型资料,分别建立了流域植被网格参数库和土壤网格参数库,构建了鄱阳湖未控区间流域5 km × 5 km网格分布式VIC水文模型,并提出了水文参数网格化方法。应用结果表明,分布式流域模型的模拟结果略优于集总式水文模型,能较好地模拟区域径流过程和水资源量。在更精细的地形、土壤、植被数据支持下,分布式VIC模型的应用效果会有提升空间。本研究首次把分布式VIC水文模型应用于鄱阳湖未控区间流域,对于湖区等无资料地区的水文模拟分析提供了参考和有效途径。