The dynamic changes in the sediment discharge over 90 years from 1919 to 2008 in the Yellow River in China were assessed on the basis of annual rainfall series and annual sediment series in Shan County hydrological station. The key factors affecting sediment discharge, such as rainfall, and human activities were studied. Anomaly accumulation method and double mass curve were employed to test the stage changes of sediment discharge, and to determine the main factors of sediment decline. Results showed that the annual average sediment discharge under natural conditions was about 16 x 10(8) t, but the measured annual average sediment during 1919-2008 was 12.71 x 10(8) t. The highest annual average during the study period was 39.10 x 10(8) t in...
Runoff and sediment loads have exhibited significant changes over the past six decades in the Yello...
In this paper, the changes in the annual runoff and sediment transport have been assessed by using t...
An index (F-s) for sediment transfer function is introduced, based on the sediment budget at the cha...
The Yellow River is an important source of sediment flux to oceans in the world, and approximately 9...
The changes in streamflow and sediment discharge in the middle reaches of the Yellow River are a foc...
The Yellow River basin contributes approximately 6% of the sediment load from all river systems glob...
The middle reaches of the Yellow River Basin transport the vast majority of sediment (>85% of the ba...
Abrupt reduction of the sediment load in the middle reaches of the Yellow River has extracted much a...
Variation of streamflow and sediment load in the Yellow River basin has received considerable attent...
Using hydrological and sediment data, this study investigated decadal trends in sediment erosion/dep...
Long-term changes to the Yellow River delta in China have received considerable attention not only b...
Determining abrupt changes in runoff and sediment load may not only enhance identification of the pr...
Based on the MK test and RUSLE model, changes in the soil erosion and sediment yield of the Xiliugou...
The Yellow River, which is the second largest river in China, is regarded as the world's largest con...
Reduced stream flow and increased sediment discharge are a major concern in the Yellow River basin o...
Runoff and sediment loads have exhibited significant changes over the past six decades in the Yello...
In this paper, the changes in the annual runoff and sediment transport have been assessed by using t...
An index (F-s) for sediment transfer function is introduced, based on the sediment budget at the cha...
The Yellow River is an important source of sediment flux to oceans in the world, and approximately 9...
The changes in streamflow and sediment discharge in the middle reaches of the Yellow River are a foc...
The Yellow River basin contributes approximately 6% of the sediment load from all river systems glob...
The middle reaches of the Yellow River Basin transport the vast majority of sediment (>85% of the ba...
Abrupt reduction of the sediment load in the middle reaches of the Yellow River has extracted much a...
Variation of streamflow and sediment load in the Yellow River basin has received considerable attent...
Using hydrological and sediment data, this study investigated decadal trends in sediment erosion/dep...
Long-term changes to the Yellow River delta in China have received considerable attention not only b...
Determining abrupt changes in runoff and sediment load may not only enhance identification of the pr...
Based on the MK test and RUSLE model, changes in the soil erosion and sediment yield of the Xiliugou...
The Yellow River, which is the second largest river in China, is regarded as the world's largest con...
Reduced stream flow and increased sediment discharge are a major concern in the Yellow River basin o...
Runoff and sediment loads have exhibited significant changes over the past six decades in the Yello...
In this paper, the changes in the annual runoff and sediment transport have been assessed by using t...
An index (F-s) for sediment transfer function is introduced, based on the sediment budget at the cha...