Consistent monitoring provides measurable trends that inform restoration planning and infrastructure protection”— Joel ...

Sediment transport and shallow water flow modelling constitute a critical nexus between theoretical hydrodynamics and practical applications in environmental engineering, flood management and riverine ...

The U.S. Army Corps of Engineers is well-known for maintenance dredging within the Great Lakes to support navigability and commerce. Tributaries connected to the lakes contribute to increased sediment ...

The slope of streambeds has dramatic and unexpected effects on sediment transport. Experimental data from the flume lab show that gravity does not facilitate sediment transport in the expected manner.

Researchers have devised a better way to measure how fast sediment flows in rivers -- information that can help scientists and planners better prepare for flooding and weather-related events, ...

A new IAEA Coordinated Research Project (CRP), entitled Development of Radiometric Methods and Modelling For Measurement of Sediment Transport in Coastal Systems and Rivers, will investigate how ...

Sediment transport is the suite of physical processes governing the entrainment, movement, and deposition of particulate material (clastic or biogenic) by a transporting medium, typically water, air, ...

Thanks to the momentum of European Union policies, disused dams are being removed for the purpose of restoring rivers. One example of this is the Olloki dam (Gipuzkoa), which was the subject of a ...

Water movement is one of the primary drivers of habitat stability”— Joel Chaky BATON ROUGE, LA, UNITED STATES, February ...

New research from SFU’s Jeremy Venditti dives into the science of going with the flow predicting the evolution of the Earth’s surface. Researchers at Simon Fraser University (SFU) and The ...