Add to ORKGUntil recently, very little progress had been made in understanding the relationship between small-scale variability of topography, soil, and rainfalls and the storm response seen at the catchment scale. The work reviewed here represents the first attempt at a systematic theoretical framework for such understanding in the context of surface runoff generation by different processes. The parameterization of hydrological processes over a range of scales is examined, and the concept of the 'representative elementary area' (REA) is introduced. The REA is a fundamental scale for catchment modeling at which continuum assumptions can be applied for the spatially variable controls and parameters, and spatial patterns no longer have to be considered ...
Rainfall variability in space and time, in relation to catchment characteristics and model complexi...
Rainfall variability in space and time, in relation to catchment characteristics and model complexit...
International audienceTo understand how hydrological processes are related across different spatial ...
Since the paper of Wood et al. (1988), the idea of a representative elementary area (REA) has captur...
This paper reports the results of a preliminary investigation into the existence of a Representative...
The paper describes a simple physically based conceptual model of runoff production based on catchme...
International audienceHydrologic response in natural catchments is controlled by a set of complex in...
A qualitative discussion is presented on the concept of a representative elementary area (REA) propo...
We extend the method developed by Woods and Sivapalan (1999) to provide a more general analytical fr...
The objectives of the research were as follows: (1) Extend the Representative Elementary Area (RE) c...
We extend the method developed by Woods and Sivapalan (1999) to provide a more general analytical to...
Interactions between spatial and temporal variability of rainfall and catchment characteristics stro...
Flash flood is a very intense and quick hydrologic response of a catchment to rainfall. This phenome...
This paper introduces a new methodology and a rainfall spatial organisation index to examine the rel...
The objective of this three-part work is the formulation and rigorous analysis of a number of reduce...
Rainfall variability in space and time, in relation to catchment characteristics and model complexi...
Rainfall variability in space and time, in relation to catchment characteristics and model complexit...
International audienceTo understand how hydrological processes are related across different spatial ...
Since the paper of Wood et al. (1988), the idea of a representative elementary area (REA) has captur...
This paper reports the results of a preliminary investigation into the existence of a Representative...
The paper describes a simple physically based conceptual model of runoff production based on catchme...
International audienceHydrologic response in natural catchments is controlled by a set of complex in...
A qualitative discussion is presented on the concept of a representative elementary area (REA) propo...
We extend the method developed by Woods and Sivapalan (1999) to provide a more general analytical fr...
The objectives of the research were as follows: (1) Extend the Representative Elementary Area (RE) c...
We extend the method developed by Woods and Sivapalan (1999) to provide a more general analytical to...
Interactions between spatial and temporal variability of rainfall and catchment characteristics stro...
Flash flood is a very intense and quick hydrologic response of a catchment to rainfall. This phenome...
This paper introduces a new methodology and a rainfall spatial organisation index to examine the rel...
The objective of this three-part work is the formulation and rigorous analysis of a number of reduce...
Rainfall variability in space and time, in relation to catchment characteristics and model complexi...
Rainfall variability in space and time, in relation to catchment characteristics and model complexit...
International audienceTo understand how hydrological processes are related across different spatial ...