Evaluating post-processing approaches for monthly and seasonal streamflow forecasts

Woldemeskel, Fitsum; McInerney, David; Lerat, Julien; Thyer, Mark; Kavetski, Dmitri; Shin, Daehyok; Tuteja, Narendra; Kuczera, George

Title: Evaluating post-processing approaches for monthly and seasonal streamflow forecasts
Creator: Woldemeskel, Fitsum; McInerney, David; Lerat, Julien; Thyer, Mark; Kavetski, Dmitri; Shin, Daehyok; Tuteja, Narendra; Kuczera, George
Relation: ARC.LP140100978 http://purl.org/au-research/grants/arc/LP140100978
Relation: Hydrology and Earth System Sciences Vol. 22, Issue 12, p. 6257-6278
Publisher Link: http://dx.doi.org/10.5194/hess-22-6257-2018
Publisher: Copernicus GmbH
Resource Type: journal article
Date: 2018
Description: Streamflow forecasting is prone to substantial uncertainty due to errors in meteorological forecasts, hydrological model structure, and parameterization, as well as in the observed rainfall and streamflow data used to calibrate the models. Statistical streamflow post-processing is an important technique available to improve the probabilistic properties of the forecasts. This study evaluates post-processing approaches based on three transformations – logarithmic (Log), log-sinh (Log-Sinh), and Box–Cox with λ=0.2 (BC0.2) – and identifies the best-performing scheme for post-processing monthly and seasonal (3-months-ahead) streamflow forecasts, such as those produced by the Australian Bureau of Meteorology. Using the Bureau's operational dynamic streamflow forecasting system, we carry out comprehensive analysis of the three post-processing schemes across 300 Australian catchments with a wide range of hydro-climatic conditions. Forecast verification is assessed using reliability and sharpness metrics, as well as the Continuous Ranked Probability Skill Score (CRPSS). Results show that the uncorrected forecasts (i.e. without post-processing) are unreliable at half of the catchments. Post-processing of forecasts substantially improves reliability, with more than 90 % of forecasts classified as reliable. In terms of sharpness, the BC0.2 scheme substantially outperforms the Log and Log-Sinh schemes. Overall, the BC0.2 scheme achieves reliable and sharper-than-climatology forecasts at a larger number of catchments than the Log and Log-Sinh schemes. The improvements in forecast reliability and sharpness achieved using the BC0.2 post-processing scheme will help water managers and users of the forecasting service make better-informed decisions in planning and management of water resources.
Subject: streamflow; streamlflow forecasting; meteorological forecasts; post-processing
Identifier: http://hdl.handle.net/1959.13/1404032
Identifier: uon:35254
Identifier: ISSN:1027-5606
Language: eng
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