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Hrachowitz, M. (author), Savenije, H. (author), Bogaard, T.A. (author), Tetzlaff, D. (author), Soulsby, C. (author)
The complex interactions of runoff generation processes underlying the hydrological response of streams remain not entirely understood at the catchment scale. Extensive research has demonstrated the utility of tracers for both inferring flow path distributions and constraining model parameterizations. While useful, the common use of linearity...
journal article 2013
document
Hrachowitz, M. (author), Savenije, H.H.G. (author), Bogaard, T.A. (author), Tetzlaff, D. (author), Soulsby, C. (author)
The complex interactions of runoff generation processes underlying the hydrological response of streams remain incompletely understood at the catchment scale. Extensive research has demonstrated the utility of tracers for both inferring flow paths distributions and constraining model parameterizations. While useful, the common use of linearity...
journal article 2012
document
Hrachowitz, M. (author), Soulsby, C. (author), Tetzlaff, D. (author), Malcolm, I.A. (author), Schoups, G. (author)
In hydrological tracer studies, the gamma distribution can serve as an appropriate transit time distribution (TTD) as it allows more flexibility to account for nonlinearities in the behavior of catchment systems than the more commonly used exponential distribution. However, it is unclear which physical interpretation can be ascribed to its two...
journal article 2010