E. R. Vivoni scite author profile

Abstract. Hydrologic response in natural catchments is controlled by a set of complex interactions between storm properties, basin characteristics and antecedent wetness conditions. This study investigates the transient runoff response to spatially-uniform storms of varying properties using a distributed model of the coupled surface-subsurface system, which treats heterogeneities in topography, soils and vegetation. We demonstrate the control that the partitioning into multiple runoff mechanisms (infiltration-excess, saturation-excess, perched return flow and groundwater exfiltration) has on nonlinearities in the rainfall-runoff transformation and its scale-dependence. Antecedent wetness imposed through a distributed water table position is varied to illustrate its effect on runoff generation. Results indicate that transitions observed in basin flood response (magnitude, timing and volume) can be explained by shifts in the surface-subsurface partitioning. An analysis of the spatial organization of runoff production also shows that multiple mechanisms have specific catchment niches and can occur simultaneously in the basin. In addition, catchment scale plays an important role in the distribution of runoff production as basin characteristics (soils, vegetation, topography and initial wetness) are varied with basin area. For example, we illustrate how storm characteristics and antecedent wetness play a dramatic role in the scaling properties of the catchment runoff ratio.

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Evaluation of remote sensing-based evapotranspiration products at low-latitude eddy covariance sites

Salazar-Martínez

Holwerda

Holmes

et al. 2022

Journal of Hydrology

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AmeriFlux US-Jo2 Jornada Experimental Range Mixed Shrubland

Vivoni

Perez-Ruiz

2016

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Parameters for PITRI Precipitation Temporal Disaggregation over continental US, Mexico, and southern Canada, 1981-2013

Bohn¹,

Whitney²,

Mascaro³

et al. 2019

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Precipitation, soil water content and reference evapotranspiration at two urban parks in Phoenix, Arizona during 2018-2020

Kindler¹,

Vivoni²

2021

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E. R. Vivoni

Controls on runoff generation and scale-dependence in a distributed hydrologic model

Evaluation of remote sensing-based evapotranspiration products at low-latitude eddy covariance sites

AmeriFlux US-Jo2 Jornada Experimental Range Mixed Shrubland

Parameters for PITRI Precipitation Temporal Disaggregation over continental US, Mexico, and southern Canada, 1981-2013

Precipitation, soil water content and reference evapotranspiration at two urban parks in Phoenix, Arizona during 2018-2020

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