Complex relationship between seasonal streamflow forecast skill and value in reservoir operations

Turner, Sean; Bennett, James; Robertson, David; Galelli, Stefano

doi:10.5194/hess-21-4841-2017

Cited by 106 publications

(109 citation statements)

References 56 publications

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“…the February 2017 streamflow for a forecast made on 1 January 2017), etc. Monthly averages were selected for the analysis presented in this paper as it is a valuable aggregation time step for decision-makers for many water-related applications (as shown in the literature for applications such as, for example, navigation (Meißner et al, 2017), reservoir management (Viel et al, 2016;Turner et al, 2017), drought-risk management , irrigation (Chiew et al, 2003;Li et al, 2017) and hydropower (Hamlet et al, 2002)). …”

Section: Hindcast Evaluation Strategymentioning

confidence: 99%

“…This system, called extended streamflow prediction (ESP; i.e. note that ESP nowadays stands for ensemble streamflow prediction, although it refers to the same forecasting method), was developed by the United States National Weather Service (NWS) in the 1970s (Twedt et al, 1977;Day, 1985). The ESP forecasts are produced by forcing a hydrological model, initialized with the current IHC, with the observed historical meteorological time series available.…”

Section: Introductionmentioning

confidence: 99%

“…The ESP forecasts are produced by forcing a hydrological model, initialized with the current IHC, with the observed historical meteorological time series available. The output is an ensemble streamflow forecast (where each year of historical data is a streamflow trace) for the following season(s) (Twedt et al, 1977;Day, 1985). The quality of the ESP forecasts can be high in basins where the IHC dominate the surface hydrological cycle for several months (the exact forecast quality depending on the time of year and the basin's physiographic characteristics; Wood and Lettenmaier, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…Translating the quality of a forecast into an added value for decision-making and incorporating new forecasting products into established decision-making chains are not easy tasks. This has been explored for many water-related applications, such as navigation (Meißner et al, 2017), reservoir management (Viel et al, 2016;Turner et al, 2017), drought-risk management Crochemore et al, 2017), irrigation (Chiew et al, 2003;Li et al, 2017), water resource management and hydropower (Hamlet et al, 2002), but seasonal streamflow forecasts have yet to be adopted by the flood preparedness community.…”

Section: Introductionmentioning

confidence: 99%

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Skilful seasonal forecasts of streamflow over Europe?

Arnal

Cloke

Stephens

et al. 2018

Hydrol. Earth Syst. Sci.

104

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Abstract. This paper considers whether there is any added value in using seasonal climate forecasts instead of historical meteorological observations for forecasting streamflow on seasonal timescales over Europe. A Europe-wide analysis of the skill of the newly operational EFAS (European Flood Awareness System) seasonal streamflow forecasts (produced by forcing the Lisflood model with the ECMWF System 4 seasonal climate forecasts), benchmarked against the ensemble streamflow prediction (ESP) forecasting approach (produced by forcing the Lisflood model with historical meteorological observations), is undertaken. The results suggest that, on average, the System 4 seasonal climate forecasts improve the streamflow predictability over historical meteorological observations for the first month of lead time only (in terms of hindcast accuracy, sharpness and overall performance). However, the predictability varies in space and time and is greater in winter and autumn. Parts of Europe additionally exhibit a longer predictability, up to 7 months of lead time, for certain months within a season. In terms of hindcast reliability, the EFAS seasonal streamflow hindcasts are on average less skilful than the ESP for all lead times. The results also highlight the potential usefulness of the EFAS seasonal streamflow forecasts for decision-making (measured in terms of the hindcast discrimination for the lower and upper terciles of the simulated streamflow). Although the ESP is the most potentially useful forecasting approach in Europe, the EFAS seasonal streamflow forecasts appear more potentially useful than the ESP in some regions and for certain seasons, especially in winter for almost 40 % of Europe. Patterns in the EFAS seasonal streamflow hindcast skill are however not mirrored in the System 4 seasonal climate hindcasts, hinting at the need for a better understanding of the link between hydrological and meteorological variables on seasonal timescales, with the aim of improving climate-model-based seasonal streamflow forecasting.

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Section: Hindcast Evaluation Strategymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Skilful seasonal forecasts of streamflow over Europe?

Arnal

Cloke

Stephens

et al. 2018

Hydrol. Earth Syst. Sci.

104

View full text Add to dashboard Cite

show abstract

“…The prior removes the base case's negative skills in the Ranken catchment in JanuaryMarch, but also introduces negative skill in the drier months of June, August and December. We note that, on balance, this may have practical benefits: in another study (Turner et al, 2017) we show that FoGSS forecasts can benefit reservoir operations in cases where forecasts are not skilful in very dry months but positively or neutrally skilful at other times of the year. This is because the dry months contribute little to the annual inflow volume, so small positive bias in dry months (the cause of negative skill) does not have a strong influence on the value of forecasts.…”

Section: Synthesismentioning

confidence: 99%

Assessment of an ensemble seasonal streamflow forecasting system for Australia

Bennett

Wang

Robertson

et al. 2017

Hydrol. Earth Syst. Sci.

Self Cite

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Abstract. Despite an increasing availability of skilful longrange streamflow forecasts, many water agencies still rely on simple resampled historical inflow sequences (stochastic scenarios) to plan operations over the coming year. We assess a recently developed forecasting system called "forecast guided stochastic scenarios" (FoGSS) as a skilful alternative to standard stochastic scenarios for the Australian continent. FoGSS uses climate forecasts from a coupled oceanland-atmosphere prediction system, post-processed with the method of calibration, bridging and merging. Ensemble rainfall forecasts force a monthly rainfall-runoff model, while a staged hydrological error model quantifies and propagates hydrological forecast uncertainty through forecast lead times. FoGSS is able to generate ensemble streamflow forecasts in the form of monthly time series to a 12-month forecast horizon.FoGSS is tested on 63 Australian catchments that cover a wide range of climates, including 21 ephemeral rivers. In all perennial and many ephemeral catchments, FoGSS provides an effective alternative to resampled historical inflow sequences. FoGSS generally produces skilful forecasts at shorter lead times ( < 4 months), and transits to climatologylike forecasts at longer lead times. Forecasts are generally reliable and unbiased. However, FoGSS does not perform well in very dry catchments (catchments that experience zero flows more than half the time in some months), sometimes producing strongly negative forecast skill and poor reliability. We attempt to improve forecasts through the use of (i) ESP rainfall forcings, (ii) different rainfall-runoff models, and (iii) a Bayesian prior to encourage the error model to return climatology forecasts in months when the rainfallrunoff model performs poorly. Of these, the use of the prior offers the clearest benefit in very dry catchments, where it moderates strongly negative forecast skill and reduces bias in some instances. However, the prior does not remedy poor reliability in very dry catchments.Overall, FoGSS is an attractive alternative to historical inflow sequences in all but the driest catchments. We discuss ways in which forecast reliability in very dry catchments could be improved in future work.

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Designing with Information Feedbacks: Forecast Informed Reservoir Sizing and Operation

Bertoni

Castelletti

Giuliani

et al. 2020

Preprint

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Dam design and operation are classically treated as two independent problems. Optimal reservoir capacity sizing has typically been addressed using a least-cost problem framing, aimed at minimizing total costs (e.g., Perelman et al., 2013 in the water sector; Rodriguez et al., 2015 in the energy sector). In particular, the traditional engineering approach (e.g., U.S. Army Corps of Engineers, 1975Engineers, , 1977 relies on the Rippl method to identify the optimal dam size based on a sequence of prespecified, desired releases or simple abstractions of predefined operating policies (e.g.,

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Complex relationship between seasonal streamflow forecast skill and value in reservoir operations

Cited by 106 publications

References 56 publications

Skilful seasonal forecasts of streamflow over Europe?

Skilful seasonal forecasts of streamflow over Europe?

Assessment of an ensemble seasonal streamflow forecasting system for Australia

Designing with Information Feedbacks: Forecast Informed Reservoir Sizing and Operation

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