2018
DOI: 10.1029/2018gl077945
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Enhancing the Predictability of Seasonal Streamflow With a Statistical‐Dynamical Approach

Abstract: Seasonal streamflow forecasts facilitate water allocation, reservoir operation, flood risk management, and crop forecasting. They are generally computed by forcing hydrological models with outputs from general circulation models (GCMs) or using large‐scale climate indices as predictors in statistical models. In contrast, hybrid statistical‐dynamical forecasts (combining statistical methods with dynamical climate predictions) are still uncommon, and their skill is largely unknown. Here we conduct systematic for… Show more

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Cited by 55 publications
(54 citation statements)
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“…In contrast to the precipitation, downscaling and bias‐correcting the temperature ensemble time series leads to an overall increase of the prediction skill (compare Figures S3 and S4); however, shorter lead times are not always associated with higher values of the correlation coefficient. Overall, the skill in predicting precipitation and temperature at long lead times is comparable with what observed for their seasonal predictions (Slater and Villarini (), figs. S2 and S3), suggesting that the challenges in predicting these variables are shared between seasonal and decadal lead times.…”
Section: Resultsmentioning
confidence: 99%
See 3 more Smart Citations
“…In contrast to the precipitation, downscaling and bias‐correcting the temperature ensemble time series leads to an overall increase of the prediction skill (compare Figures S3 and S4); however, shorter lead times are not always associated with higher values of the correlation coefficient. Overall, the skill in predicting precipitation and temperature at long lead times is comparable with what observed for their seasonal predictions (Slater and Villarini (), figs. S2 and S3), suggesting that the challenges in predicting these variables are shared between seasonal and decadal lead times.…”
Section: Resultsmentioning
confidence: 99%
“…The vast majority of published studies related to flood predictions have focused on predictions with short (e.g., days) to medium (e.g., months) lead times, generally using outputs from numerical weather prediction models (NWP) or general circulation models (GCMs) as input to hydrological or statistical models (e.g., Cloke and Pappenberger, ; Slater and Villarini, ). For instance, He et al .…”
Section: Introductionmentioning
confidence: 97%
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“…topography, river flow observations, lakes and reservoirs), seasonal precipitation forecasts and hydrological models could result in a dynamical forecasting system that consistently provides a more useful forecast of hydrological extremes, with the benefit that such dynamical forecasts are not constrained to periods of time when there is an El Niño. A third approach, not considered in this study, could be to combine statistical and dynamical forecasts to produce a hybrid system; recent studies suggest this approach could enhance prediction skill at seasonal timescales [45,46]. Research shows that seasonal hydrological forecasts are able to inform local decisions and actions, and that while uncertainty is not necessarily a barrier to the use of such forecasts, a range of information, including forecast skill, different forecast types and local knowledge are important, alongside a need for higher resolutions to aid local decision-making [47].…”
Section: Discussionmentioning
confidence: 99%