Add to ORKGLandscapes evolve over millions of years, through the complex interplay of climate and tectonics. Mountains in particular represent a staggering range of spatial and temporal scales, challenging our ability to understand how the landscape is sculpted. Mountains do not simply disappear by bulk denudation. The key process of river incision results from the entrainment, displacement, and collision of coarse particles with the bed; a phenomenon known as bed load transport. This dissertation seeks to elucidate how bed load transport in natural rivers is driven by floods, to provide a mechanistic connection between climate and landscape evolution. Field surveys of coarse particle displacement and channel geometry are combined with hydrological ti...
Alluvial fans, conic depositional landforms that develop where headwater streams outlet into a main ...
Virtually all mechanistic predictions of landscape evolution are underpinned by predictions of sedim...
In many gravel-bedded rivers, floods that fill the channel banks create just enough shear stress to ...
Landscapes evolve over millions of years, through the complex interplay of climate and tectonics. Mo...
Landscapes evolve over millions of years, through the complex interplay of climate and tectonics. Mo...
Understanding the mechanics of bed load at the flood scale is necessary to link hydrology to lands...
In order to predict the response of mountain streams to perturbations caused by climate and land use...
Understanding the mechanics of bed load at the flood scale is necessary to link hydrology to landsca...
The onset of sediment motion in rivers is important for predictions of river stability, and for the ...
The transport of coarse material strongly controls the stability and evolution of mountain fluvial s...
Bedload transport rates are notoriously difficult to predict during floods, yet accurate predictions...
Abstract Sediment transport rates in steep mountain channels are typically an order of magnitude low...
textUnderstanding how individual grains and populations of grains move through alluvial systems is i...
Sediment transport in glacier basins and rivers, and hence reservoir sedimentation tend to increase ...
In mountain streams, bedload transport rates are prone to strong variability. Indeed an increasing n...
Alluvial fans, conic depositional landforms that develop where headwater streams outlet into a main ...
Virtually all mechanistic predictions of landscape evolution are underpinned by predictions of sedim...
In many gravel-bedded rivers, floods that fill the channel banks create just enough shear stress to ...
Landscapes evolve over millions of years, through the complex interplay of climate and tectonics. Mo...
Landscapes evolve over millions of years, through the complex interplay of climate and tectonics. Mo...
Understanding the mechanics of bed load at the flood scale is necessary to link hydrology to lands...
In order to predict the response of mountain streams to perturbations caused by climate and land use...
Understanding the mechanics of bed load at the flood scale is necessary to link hydrology to landsca...
The onset of sediment motion in rivers is important for predictions of river stability, and for the ...
The transport of coarse material strongly controls the stability and evolution of mountain fluvial s...
Bedload transport rates are notoriously difficult to predict during floods, yet accurate predictions...
Abstract Sediment transport rates in steep mountain channels are typically an order of magnitude low...
textUnderstanding how individual grains and populations of grains move through alluvial systems is i...
Sediment transport in glacier basins and rivers, and hence reservoir sedimentation tend to increase ...
In mountain streams, bedload transport rates are prone to strong variability. Indeed an increasing n...
Alluvial fans, conic depositional landforms that develop where headwater streams outlet into a main ...
Virtually all mechanistic predictions of landscape evolution are underpinned by predictions of sedim...
In many gravel-bedded rivers, floods that fill the channel banks create just enough shear stress to ...