International audienceSince the 1950s river networks have been intensely researched in geosciences and hydrology. This led to the definition of scaling laws that described the organisation of landscapes under fluvial incision and were later explored by statistical physics and fractal mathematics. The emblematic Hack’s Law proposes a power-law relationship between watershed area and main stream length. Though extensively documented, a wide range of values is still reported for Hack’s parameters. Some authors associate this dispersion to local geologic and climatic conditions. Here based on the analysis of large sets of river basins in various climatic and geological settings, we confirm the geometric similarity of river networks. We demonstr...
The scaling relation between the drainage area and stream length (Hack's law), along with exceedanc...
Includes bibliographical references (leaves 213-231).Fractals and scaling laws abound in nature, and...
ABSTRACT. Existing data reveal that the steepness S of many river basins with mountainous headwaters...
River network scaling laws describe how their shape varies with their size. However, the regional va...
This article is the rst in a series of three papers investigating the detailed geometry of river net...
Hack’s law is reviewed, emphasizing its implications for the elongation of river basins as well as i...
It has long been recognized that catchment geomorphology relationships can be used as predictors of ...
Seemingly unrelated empirical hydrologic laws and several experimental facts related to the fractal ...
Seemingly unrelated empirical hydrologic laws and several experimental facts related to the fractal ...
[1] Increasing availability of high-resolution (1 m) topography data and enhanced computational proc...
The plan-form structure of the world’s river basins contains extensive information regarding tectoni...
This work examines patterns of regularity and scale in landform and channel networks. Digital elevat...
This article is the first in a series of three papers investigating the detailed geometry of river n...
What is the best way to divide a rugged landscape? Since ancient times, watersheds separating adjace...
Prepared under the support of the National Science Foundation ECE-8513556. Prepared under the suppor...
The scaling relation between the drainage area and stream length (Hack's law), along with exceedanc...
Includes bibliographical references (leaves 213-231).Fractals and scaling laws abound in nature, and...
ABSTRACT. Existing data reveal that the steepness S of many river basins with mountainous headwaters...
River network scaling laws describe how their shape varies with their size. However, the regional va...
This article is the rst in a series of three papers investigating the detailed geometry of river net...
Hack’s law is reviewed, emphasizing its implications for the elongation of river basins as well as i...
It has long been recognized that catchment geomorphology relationships can be used as predictors of ...
Seemingly unrelated empirical hydrologic laws and several experimental facts related to the fractal ...
Seemingly unrelated empirical hydrologic laws and several experimental facts related to the fractal ...
[1] Increasing availability of high-resolution (1 m) topography data and enhanced computational proc...
The plan-form structure of the world’s river basins contains extensive information regarding tectoni...
This work examines patterns of regularity and scale in landform and channel networks. Digital elevat...
This article is the first in a series of three papers investigating the detailed geometry of river n...
What is the best way to divide a rugged landscape? Since ancient times, watersheds separating adjace...
Prepared under the support of the National Science Foundation ECE-8513556. Prepared under the suppor...
The scaling relation between the drainage area and stream length (Hack's law), along with exceedanc...
Includes bibliographical references (leaves 213-231).Fractals and scaling laws abound in nature, and...
ABSTRACT. Existing data reveal that the steepness S of many river basins with mountainous headwaters...