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Tytuł pozycji:

A topographic index explaining hydrological similarity by accounting for the joint controls of runoff formation

Tytuł :
A topographic index explaining hydrological similarity by accounting for the joint controls of runoff formation
Autorzy :
R. Loritz
A. Kleidon
C. Jackisch
M. Westhoff
U. Ehret
H. Gupta
E. Zehe
Pokaż więcej
Temat :
Technology
Environmental technology. Sanitary engineering
TD1-1066
Geography. Anthropology. Recreation
Environmental sciences
GE1-350
Źródło :
Hydrology and Earth System Sciences, Vol 23, Pp 3807-3821 (2019)
Wydawca :
Copernicus Publications, 2019.
Rok publikacji :
2019
Kolekcja :
LCC:Technology
LCC:Environmental technology. Sanitary engineering
LCC:Geography. Anthropology. Recreation
LCC:Environmental sciences
Typ dokumentu :
article
Opis pliku :
electronic resource
Język :
English
ISSN :
1027-5606
1607-7938
Relacje :
https://www.hydrol-earth-syst-sci.net/23/3807/2019/hess-23-3807-2019.pdf; https://doaj.org/toc/1027-5606; https://doaj.org/toc/1607-7938
DOI :
10.5194/hess-23-3807-2019
Dostęp URL :
https://doaj.org/article/038b7e3d5d734215b213c4ae3902747b
Numer akcesji :
edsdoj.038b7e3d5d734215b213c4ae3902747b
Czasopismo naukowe
Surface topography is an important source of information about the functioning and form of a hydrological landscape. Because of its key role in explaining hydrological processes and structures, and also because of its wide availability at good resolution in the form of digital elevation models (DEMs), it is frequently used to inform hydrological analyses. Not surprisingly, several hydrological indices and models have been proposed for linking geomorphic properties of a landscape with its hydrological functioning; a widely used example is the “height above the nearest drainage” (HAND) index. From an energy-centered perspective HAND reflects the gravitational potential energy of a given unit mass of water located on a hillslope, with the reference level set to the elevation of the nearest corresponding river. Given that potential energy differences are the main drivers for runoff generation, HAND distributions provide important proxies to explain runoff generation in catchments. However, as expressed by the second law of thermodynamics, the driver of a flux explains only one aspect of the runoff generation mechanism, with the driving potential of every flux being depleted via entropy production and dissipative energy loss. In fact, such losses dominate when rainfall becomes runoff, and only a tiny portion of the driving potential energy is actually transformed into the kinetic energy of streamflow. In recognition of this, we derive a topographic index called reduced dissipation per unit length index (rDUNE) by reinterpreting and enhancing HAND following a straightforward thermodynamic argumentation. We compare rDUNE with HAND, and with the frequently used topographic wetness index (TWI), and show that rDUNE provides stronger discrimination of catchments into groups that are similar with respect to their dominant runoff processes. Our analysis indicates that accounting for both the driver and resistance aspects of flux generation provides a promising approach for linking the architecture of a system with its functioning and is hence an appropriate basis for developing similarity indices in hydrology.

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