Add to ORKGAnalysis of seasonal water discharge and sediment load data for major tributaries of the Upper Yangtze indicates significant changes from 1957 to 1987. Discrimination between land use-induced and climatic variation-induced changes was attempted using the systematic shift in the seasonal sediment load relative to the seasonal water flow. Available evidence suggests that most of these changes were caused by human activities such as deforestation, water use, and construction of reservoirs rather than by decadal climatic variations. The changes identified in water flow and sediment flux in both wet and dry seasons for some tributaries had significant implications with respect to flooding and water shortages
Global climate change and diverse human activities have resulted in distinct temporal-spatial variab...
The annual mean discharge from the upper Changjiang (Yangtze) basin has shown a significant decreasi...
Using data of temperature, wind, precipitation, water discharge, and sediment load, the changes in r...
Analysis of seasonal water discharge and sediment load data for major tributaries of the Upper Yangt...
Seasonal sediment flux change is a key issue in riverbed evolution and flood control. This paper ana...
In this research, monthly hydrological and daily meteorological data were collected across China for...
Under intensifying human activities and climate change, runoff and sediment load have changed signif...
Runoff and sediment load changes are affected by climate change and human activities in an integrate...
<div><p>On the basis of monthly runoff series obtained in 1950–2013 and annual sediment load measure...
On the basis of monthly runoff series obtained in 1950-2013 and annual sediment load measured in 195...
Soil erosion and land desertification are the most serious environmental problems globally. This stu...
SummaryAnthropogenic and climate influences on temporal changes in water discharge and sediment load...
Runoff and sediment loads have exhibited significant changes over the past six decades in the Yello...
Climate change characterized by increasing temperature is able to affect precipitation regime and th...
Determining abrupt changes in runoff and sediment load may not only enhance identification of the pr...
Global climate change and diverse human activities have resulted in distinct temporal-spatial variab...
The annual mean discharge from the upper Changjiang (Yangtze) basin has shown a significant decreasi...
Using data of temperature, wind, precipitation, water discharge, and sediment load, the changes in r...
Analysis of seasonal water discharge and sediment load data for major tributaries of the Upper Yangt...
Seasonal sediment flux change is a key issue in riverbed evolution and flood control. This paper ana...
In this research, monthly hydrological and daily meteorological data were collected across China for...
Under intensifying human activities and climate change, runoff and sediment load have changed signif...
Runoff and sediment load changes are affected by climate change and human activities in an integrate...
<div><p>On the basis of monthly runoff series obtained in 1950–2013 and annual sediment load measure...
On the basis of monthly runoff series obtained in 1950-2013 and annual sediment load measured in 195...
Soil erosion and land desertification are the most serious environmental problems globally. This stu...
SummaryAnthropogenic and climate influences on temporal changes in water discharge and sediment load...
Runoff and sediment loads have exhibited significant changes over the past six decades in the Yello...
Climate change characterized by increasing temperature is able to affect precipitation regime and th...
Determining abrupt changes in runoff and sediment load may not only enhance identification of the pr...
Global climate change and diverse human activities have resulted in distinct temporal-spatial variab...
The annual mean discharge from the upper Changjiang (Yangtze) basin has shown a significant decreasi...
Using data of temperature, wind, precipitation, water discharge, and sediment load, the changes in r...