The erosion, transport and redeposition of sediments shape the Earth's surface, and affect the structure and function of ecosystems and society(1,2). The Yellow River was once the world's largest carrier of fluvial sediment, but its sediment load has decreased by approximately 90% over the past 60 years(3). The decline in sediment load is due to changes in water discharge and sediment concentration, which are both influenced by regional climate change and human activities. Here we use an attribution approach to analyse 60 years of runoff and sediment load observations from the traverse of the Yellow River over China's Loess Plateau - the source of nearly 90% of its sediment load. We find that landscape engineering, terracing ...
Runoff is the key factor to understand the land degradation causing high risk of soil erosion and ca...
Erosion and sediment delivery have been undergoing considerable variations in many catchments worldw...
Global river systems are experiencing rapid changes in sediment transport under growing anthropogeni...
The world is composed of various river basins. Within a specific river basin, water and sediment dyn...
The continuous ecological restoration of the Loess Plateau, which aims to reduce the sediment enteri...
Long-term changes to the Yellow River delta in China have received considerable attention not only b...
The middle reaches of the Yellow River Basin transport the vast majority of sediment (>85% of the...
The Yellow River has been considerably altered over the past half century from human activities. The...
Large-scale sediment control efforts on the Loess Plateau of China and resulting reductions in sedim...
The Yellow River is an important source of sediment flux to oceans in the world, and approximately 9...
Abrupt reduction of the sediment load in the middle reaches of the Yellow River has extracted much a...
Fluvial suspended sediment has multi-fold environmental implications and the study of the variation ...
Soil erosion and land desertification are the most serious environmental problems globally. This stu...
This research reconstructs the changes in sediment yield of the Yellow River based mainly on a large...
Suspended sediment transport in rivers is controlled by terrain, climate, and human activities. Thes...
Runoff is the key factor to understand the land degradation causing high risk of soil erosion and ca...
Erosion and sediment delivery have been undergoing considerable variations in many catchments worldw...
Global river systems are experiencing rapid changes in sediment transport under growing anthropogeni...
The world is composed of various river basins. Within a specific river basin, water and sediment dyn...
The continuous ecological restoration of the Loess Plateau, which aims to reduce the sediment enteri...
Long-term changes to the Yellow River delta in China have received considerable attention not only b...
The middle reaches of the Yellow River Basin transport the vast majority of sediment (>85% of the...
The Yellow River has been considerably altered over the past half century from human activities. The...
Large-scale sediment control efforts on the Loess Plateau of China and resulting reductions in sedim...
The Yellow River is an important source of sediment flux to oceans in the world, and approximately 9...
Abrupt reduction of the sediment load in the middle reaches of the Yellow River has extracted much a...
Fluvial suspended sediment has multi-fold environmental implications and the study of the variation ...
Soil erosion and land desertification are the most serious environmental problems globally. This stu...
This research reconstructs the changes in sediment yield of the Yellow River based mainly on a large...
Suspended sediment transport in rivers is controlled by terrain, climate, and human activities. Thes...
Runoff is the key factor to understand the land degradation causing high risk of soil erosion and ca...
Erosion and sediment delivery have been undergoing considerable variations in many catchments worldw...
Global river systems are experiencing rapid changes in sediment transport under growing anthropogeni...