资源环境科技发展态势分析平台

Daily streamflow dynamics can be accurately simulated by conceptual models as simple as a single bucket in some catchments, while they require more complex configurations in other catchments. However, without resorting to calibration, anticipating where and why a given model structure may be appropriate remains difficult. In this work, we explored the feasibility of relating suitable model structures to the climate and streamflow characteristics of 508 catchments in Brazil. Specifically, we tested four model structures using up to three reservoirs, where each reservoir is intended to represent a catchment function: the rainfall-runoff threshold, the fast, and the slow hydrograph response. We hypothesized a relationship between suitable model structures and hydrological signatures of aridity (I _A) and baseflow index (I _B). Our results show that different classes of signatures resulted in distinct patterns of model performance. Wet catchments (I _A < 0.9) with low baseflow (I _B < 0.4) were the easiest to model, with a single reservoir model presenting a relatively good performance. In the case of low baseflow, adding a rainfall-runoff threshold reservoir resulted in better performance than adding a slow response reservoir, whereas in the case of high baseflow (I _B < 0.6) the opposite occurred. In the case of low baseflow, the inclusion of a slow response reservoir helped the simulation of dry catchments (I _A < 1.1), but not of wet ones, which we attributed to the impact of permeability in dry catchments. These results indicate a path towards model structure identification from streamflow signatures and potentially from landscape features.

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