Mass movement deposit grain-size distributions (GSDs) record initiation, transport and deposition mechanisms, and contribute to the rate at which sediment is exported from hillslopes to channels. Defining the GSD of a mass movement deposit is a significant challenge because they are often difficult to access, are heterogeneous in planform and with depth, contain grain sizes from clay (1 m), and require considerable time to calculate accurately. There are numerous methods used to measure mass movement GSDs, but no single method alone can measure the entire range of grain sizes. This paper compares five common methods for determining mass movement deposit GSDs to assess how their accuracy may affect their applicability to different research a...
In a macrotidal environment with offshore breakwaters (Elmer, West Sussex) a new approach for the id...
International audienceThe size of grains delivered to rivers by hillslope processes is thought to be...
[Departement_IRSTEA]Eaux [ADD1_IRSTEA]Systèmes aquatiques soumis à des pressions multiplesInternatio...
Particle size analysis are one of the most common methods to describe the sediment size distribution...
The determination of grain size distribution in alluvial channels plays a crucial role in understand...
The bedload of a gravel-bed stream was sampled from two reaches, one upstream and one downstream of ...
ABSTRACT: The mean grain size. sorting, and skewness of a sedimentary deposit are dependent on the s...
Post-earthquake debris flows pose significant hazards to recovering local communities and transport ...
Over the last decades, advances in digital imaging have moved many industries to adopt digital image...
High resolution topographic surveys such as those provided by Structure-from-Motion (SfM) contain a ...
Information about the grain-size distribution of the surface layer of sediment exposed on river beds...
Mixed sand‐ and gravel‐bed rivers record erosion, transport, and fining signals in their bedload siz...
Dust transport by the wind is not a uniform process but may occur in different modes according to so...
Wolman [1954] pebble sampling is the most commonly used method to estimate surface bed grain sizes i...
grain-size distributions non-linear sediment mixing selective erosion. Early studies of grain size p...
In a macrotidal environment with offshore breakwaters (Elmer, West Sussex) a new approach for the id...
International audienceThe size of grains delivered to rivers by hillslope processes is thought to be...
[Departement_IRSTEA]Eaux [ADD1_IRSTEA]Systèmes aquatiques soumis à des pressions multiplesInternatio...
Particle size analysis are one of the most common methods to describe the sediment size distribution...
The determination of grain size distribution in alluvial channels plays a crucial role in understand...
The bedload of a gravel-bed stream was sampled from two reaches, one upstream and one downstream of ...
ABSTRACT: The mean grain size. sorting, and skewness of a sedimentary deposit are dependent on the s...
Post-earthquake debris flows pose significant hazards to recovering local communities and transport ...
Over the last decades, advances in digital imaging have moved many industries to adopt digital image...
High resolution topographic surveys such as those provided by Structure-from-Motion (SfM) contain a ...
Information about the grain-size distribution of the surface layer of sediment exposed on river beds...
Mixed sand‐ and gravel‐bed rivers record erosion, transport, and fining signals in their bedload siz...
Dust transport by the wind is not a uniform process but may occur in different modes according to so...
Wolman [1954] pebble sampling is the most commonly used method to estimate surface bed grain sizes i...
grain-size distributions non-linear sediment mixing selective erosion. Early studies of grain size p...
In a macrotidal environment with offshore breakwaters (Elmer, West Sussex) a new approach for the id...
International audienceThe size of grains delivered to rivers by hillslope processes is thought to be...
[Departement_IRSTEA]Eaux [ADD1_IRSTEA]Systèmes aquatiques soumis à des pressions multiplesInternatio...