Litcius/Paper detail

Unravelling the potential of global streamflow reanalysis in characterizing local flow regime

Tongtiegang Zhao, Zexin Chen, Tongbi Tu, Denghua Yan, Xiaohong Chen

2022The Science of The Total Environment24 citationsDOIOpen Access PDF

Abstract

While global streamflow reanalysis provides valuable information for environmental modelling and management, it is not yet known how effective they are in characterizing the local flow regime. This paper presents a novel evaluation of the potential of streamflow reanalysis in the flow regime analysis by accounting for the effects of reservoir operation. Specifically, the indicators of hydrologic alteration (IHA) are used to characterize the five components of flow regime for both reservoir inflow and outflow; the performance of raw reanalysis is evaluated and the raw reanalysis is furthermore corrected by using the quantile mapping for improved flow regime analysis. The results of 35 major reservoirs in California show that raw reanalysis tends to be effective in characterizing the regime of reservoir inflow and that it is generally less effective in capturing outflow. For both inflow and outflow, the performance of raw reanalysis is beset by the existence of systematic errors. The quantile mapping is effective in error correction and therefore considerably improves the performances of reanalysis in characterizing the regime of not only reservoir inflow but also outflow. Nevertheless, for both reservoir inflow and outflow, the low flow part tends to be more difficult to handle than the high flow part. The evaluation conducted in this paper can serve as a roadmap for further exploitations of the potential of global streamflow reanalysis for flow regime analysis at regional and even continental scales.

Topics & Concepts

InflowOutflowStreamflowEnvironmental scienceFlow (mathematics)QuantileClimatologyHydrology (agriculture)GeologyMeteorologyEconometricsDrainage basinMechanicsMathematicsGeographyPhysicsGeotechnical engineeringCartographyHydrology and Watershed Management StudiesWater resources management and optimizationGroundwater flow and contamination studies