Transit time distributions, legacy contamination and variability in biogeochemical 1/f(alpha) scaling: how are hydrological response dynamics linked to water quality at the catchment scale? - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Hydrological Processes Année : 2015

Transit time distributions, legacy contamination and variability in biogeochemical 1/f(alpha) scaling: how are hydrological response dynamics linked to water quality at the catchment scale?

Markus Hrachowitz
  • Fonction : Auteur correspondant
Ophélie Fovet
Laurent Ruiz

Résumé

In spite of recent progress, hydrological processes underlying observed water quality response patterns, such as the emergence of near-chemostatic conditions and fractal 1/f(alpha) scaling of stream chemistry, are not completely understood. Analysing hydrological and Cl- tracer data for two intensely managed, hydrologically contrasting yet biogeochemically similar catchments we tested if (1) a semi-distributed, conceptual model can simultaneously reproduce catchment scale hydrological and biogeochemical responses, (2) legacy stores, allowing for long-term storage of nutrient inputs can be identified and (3) a model can reproduce 1/f(alpha) scaling. Further we analysed (4) transit (TTD) and residence time distributions (RTD) and the associated response dynamics of legacy stores, to explore (5) what controls fluctuations in the scaling exponent a, thereby establishing a process based link between 1/f(alpha) scaling, legacy stores and age distributions. We found that the model could reproduce the variable hydrological and the stable Cl- responses. This was possible through Cl- accumulation in hydrologically passive legacy stores that are mainly associated with the groundwater store, where Cl- age is well above 2000 days, one magnitude above the Cl- age in other components, such as the root zone (similar to 200 d). The results indicate that legacy stores can cause stable nutrient concentrations in streams for several decades after the end of nutrient input. It was further found that the model could reproduce fractal scaling of stream Cl- in both catchments, with higher values of alpha for the catchment with the smaller legacy store and faster response (alpha = -0.88 vs -1.29). Further analysing the spectral properties of model components, it was found that the parts of the system with less storage are characterized by higher values of alpha. This suggests a plausible processes-based link between the fluctuations of alpha, legacy stores and RTDs: the smaller the legacy store and the higher the flow contribution from faster responding system components, the higher alpha, suggesting that fractal scaling may potentially not be a universally emerging property of the biogeochemical response in streams.

Dates et versions

hal-01461108 , version 1 (07-02-2017)

Identifiants

Citer

Markus Hrachowitz, Ophélie Fovet, Laurent Ruiz, Hubert H. G. Savenije. Transit time distributions, legacy contamination and variability in biogeochemical 1/f(alpha) scaling: how are hydrological response dynamics linked to water quality at the catchment scale?. Hydrological Processes, 2015, 29 (25), pp.5241-5256. ⟨10.1002/hyp.10546⟩. ⟨hal-01461108⟩
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