Modeling glacial landform evolution is more challenging than modeling fluvial landform evolution. While several numerical models of large-scale fluvial erosion are available, there are only a few models of glacial erosion, and their application over long time spans requires a high numerical effort. In this paper, a simple formulation of glacial erosion which is similar to the fluvial stream-power model is presented. The model reproduces the occurrence of overdeepenings, hanging valleys, and steps at confluences at least qualitatively. Beyond this, it allows for a seamless coupling to fluvial erosion and sediment transport. The recently published direct numerical scheme for fluvial erosion and sediment transport can be applied to the entire ...
We introduce a new computational model designed to simulate and investigate reach-scale alluvial dyn...
Glaciers shape high altitude and latitude landscapes in numerous ways. Erosion associated with glaci...
Abstract: Glacial inversion modelling of continental-scale palaeo-ice sheets is now recognized as an...
International audienceWe introduce the first solution for simulating the formation and evolution of ...
The retreat of valley glaciers has a dramatic effect on the stability of glaciated valleys and exert...
Landscape Evolution Models (LEMs) simulate the movement of water and sediment over the landscape. Al...
Abstract. The fluvial system is a major concern in modeling landform evolution in response to tecton...
Landscape evolution models (LEMs) simulate the three-dimensional development of landscapes over time...
International audienceOn earth, landscape morphology is mainly controlled by rivers evolutions and t...
Natural damming of upland river systems, such as landslide or lava damming, occurs worldwide. Many d...
The Smith and Bretherton model for fluvial erosion consists of a pair of partial differential equati...
International audienceThe evolution of a fluvial landscape is a balance between tectonic uplift, flu...
We use an ice sheet model (GLIMMER) with an erosion component to examine the evolution of landscapes...
The evolution of a fluvial landscape is a balance between tectonic uplift, fluvial erasion, and sedi...
We introduce a new computational model designed to simulate and investigate reach-scale alluvial dyn...
Glaciers shape high altitude and latitude landscapes in numerous ways. Erosion associated with glaci...
Abstract: Glacial inversion modelling of continental-scale palaeo-ice sheets is now recognized as an...
International audienceWe introduce the first solution for simulating the formation and evolution of ...
The retreat of valley glaciers has a dramatic effect on the stability of glaciated valleys and exert...
Landscape Evolution Models (LEMs) simulate the movement of water and sediment over the landscape. Al...
Abstract. The fluvial system is a major concern in modeling landform evolution in response to tecton...
Landscape evolution models (LEMs) simulate the three-dimensional development of landscapes over time...
International audienceOn earth, landscape morphology is mainly controlled by rivers evolutions and t...
Natural damming of upland river systems, such as landslide or lava damming, occurs worldwide. Many d...
The Smith and Bretherton model for fluvial erosion consists of a pair of partial differential equati...
International audienceThe evolution of a fluvial landscape is a balance between tectonic uplift, flu...
We use an ice sheet model (GLIMMER) with an erosion component to examine the evolution of landscapes...
The evolution of a fluvial landscape is a balance between tectonic uplift, fluvial erasion, and sedi...
We introduce a new computational model designed to simulate and investigate reach-scale alluvial dyn...
Glaciers shape high altitude and latitude landscapes in numerous ways. Erosion associated with glaci...
Abstract: Glacial inversion modelling of continental-scale palaeo-ice sheets is now recognized as an...