2020
DOI: 10.5194/hess-24-849-2020
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Beyond binary baseflow separation: a delayed-flow index for multiple streamflow contributions

Abstract: Abstract. Understanding components of the total streamflow is important to assess the ecological functioning of rivers. Binary or two-component separation of streamflow into a quick and a slow (often referred to as baseflow) component are often based on arbitrary choices of separation parameters and also merge different delayed components into one baseflow component and one baseflow index (BFI). As streamflow generation during dry weather often results from drainage of multiple sources, we propose to extend th… Show more

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Cited by 45 publications
(57 citation statements)
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“…The method is particularly sensitive to one parameter, the time window N over which the streamflow minima are calculated (default: N=5 days). To address this problem, Stoelzle et al (2020) calculated the BFI for a continuous range of time window values. They then used the obtained range of BFIs (which they termed Delayed Flow Index; DFI) to distinguish between different baseflow sources.…”
Section: Methods and Data Setsmentioning
confidence: 99%
“…The method is particularly sensitive to one parameter, the time window N over which the streamflow minima are calculated (default: N=5 days). To address this problem, Stoelzle et al (2020) calculated the BFI for a continuous range of time window values. They then used the obtained range of BFIs (which they termed Delayed Flow Index; DFI) to distinguish between different baseflow sources.…”
Section: Methods and Data Setsmentioning
confidence: 99%
“…Opposingly, baseflow dynamics can be seen as an integrated spatial signal, but uncertainties arising from the separation of baseflow from streamflow are large (e.g. Stoelzle et al, 2020a). Also, for other observational data, there are severe constraints (Gleeson et al, 2020).…”
Section: Uncertainties Of Large-scale Groundwater Simulations Under Cmentioning
confidence: 99%
“…Stoelzle et al (2014) developed a model-based stress test approach to study the sensitivity of streamflow to changes in climate based on modifications of the recharge. More applied syn-thetic stress-testing approaches often use worst-case scenarios to estimate the consequences of specific events (Stoelzle et al, 2020b). Stress-testing sensitivity to drought will help to better understand the degree of resilience of various hydrological systems (Hall and Leng, 2019).…”
Section: Introductionmentioning
confidence: 99%
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“…Despite these limitations, traditional hydrograph separation approaches are still widely used because of the modest data requirements and ease of implementation. Recent improvement in hydrograph separation includes new parameterisation strategies (Pelletier and Andréassian, 2020) and recognition of multiple baseflow components in the streamflow (Curtis et al, 2020;Stoelzle et al, 2020). Nevertheless, since traditional hydrograph separation methods are based on a number of simplifications and assumptions that limit their applicability, previous studies have widely recognised that more effort is required to evaluate the limitations and their effects, and when possible, the methods should be combined with other methods and data to address these limitations (Hooper and Shoemaker, 1986;Stewart et al, 2007;Rosenberry and LaBaugh, 2008;Miller et al, 2014;).…”
mentioning
confidence: 99%