This paper starts by establishing a list of the main physical and empirical laws that have been proposed for modeling landscape evolution. Then it proposes a detailed mathematical discussion of several classic landscape evolution models. This discussion permits to distinguish a priori laws from a posteriori laws governing landscape evolution. While the first kind of law relies on physical principles, the second kind stems from the observation of actual stable landscapes. It emerges from the analysis of several models that the a posteriori laws are often used to create hybrid models combining fundamental physical laws with empirical modeling. Such models can be valid near equilibrium. Nevertheless, this situation is not satisfactory from a m...
International audienceNumerical modelling offers a unique approach to understand how tectonics, clim...
The ability of a large-scale Landscape Evolution Model (LEM) to simulate the soil surface morphologi...
Despite numerous applications of physically-based models for incised landscapes, their applicability...
In this paper, we consider a system of partial differential equations modeling the evolution of a la...
The field of landscape evolution modeling focuses on the evolution of the structure of landscapes ov...
Geomorphology is currently in a period of resurgence as we seek to explain the diversity, origins an...
Landscapes evolve through a number of processes in response to a wide range of forcing mechanisms. M...
This chapter reviews quantitative modeling of landscape evolution. Quantitative modeling is contrast...
This chapter reviews quantitative modeling of landscape evolution – which means that not just model ...
The ability of water to transport and transform soil materials is one of the main drivers of soil an...
The ability of water to transport and transform soil materials is one of the main drivers of soil an...
The interplay between tectonics and surface processes defines the evolution of mountain belts. Howev...
Humans have substantially altered soil and landscape patterns and properties due to agricultural use...
The Smith and Bretherton model for fluvial erosion consists of a pair of partial differential equati...
Numerical modelling offers a unique approach to understand how tectonics, climate and surface proces...
International audienceNumerical modelling offers a unique approach to understand how tectonics, clim...
The ability of a large-scale Landscape Evolution Model (LEM) to simulate the soil surface morphologi...
Despite numerous applications of physically-based models for incised landscapes, their applicability...
In this paper, we consider a system of partial differential equations modeling the evolution of a la...
The field of landscape evolution modeling focuses on the evolution of the structure of landscapes ov...
Geomorphology is currently in a period of resurgence as we seek to explain the diversity, origins an...
Landscapes evolve through a number of processes in response to a wide range of forcing mechanisms. M...
This chapter reviews quantitative modeling of landscape evolution. Quantitative modeling is contrast...
This chapter reviews quantitative modeling of landscape evolution – which means that not just model ...
The ability of water to transport and transform soil materials is one of the main drivers of soil an...
The ability of water to transport and transform soil materials is one of the main drivers of soil an...
The interplay between tectonics and surface processes defines the evolution of mountain belts. Howev...
Humans have substantially altered soil and landscape patterns and properties due to agricultural use...
The Smith and Bretherton model for fluvial erosion consists of a pair of partial differential equati...
Numerical modelling offers a unique approach to understand how tectonics, climate and surface proces...
International audienceNumerical modelling offers a unique approach to understand how tectonics, clim...
The ability of a large-scale Landscape Evolution Model (LEM) to simulate the soil surface morphologi...
Despite numerous applications of physically-based models for incised landscapes, their applicability...