The fate of nutrients and contaminants in fluvial ecosystems is strongly affected by the mixing dynamics between surface water and groundwater within the hyporheic zone, depending on the combination of the sediment's hydraulic heterogeneity and dune morphology. This study examines the effects of hydraulic conductivity stratification on steady-state, two-dimensional, hyporheic flows and solute residence time distribution. First, we derive an integral transform-based semi-analytical solution for the flow field, capable of accounting for the effects of any functional shape of the vertically varying hydraulic conductivity. The solution considers the uneven distribution of pressure at the water-sediment interface (i.e., the pumping process) dictated by the presence of dune morphology. We then simulate solute transport using particle tracking. Our modeling framework is validated against numerical and tracer data from flume experiments and used to explore the implication of hydraulic conductivity stratification on the statistics and pdf of the residence time. Finally, reduced-order models are used to enlighten the dependence of key residence time statistics on the parameters characterizing the hydraulic conductivity stratification.A new integral transform-based semi-analytical solution for hyporheic flows in stratified sediments is provided and tested against dataThe impact of hydraulic conductivity stratification on residence time distribution and its statistics is quantitatively analyzedROMs are used to approximate key residence time statistics in the space of variability of parameters characterizing the conductivity profile
Hyporheic Flows in Stratified Sediments: Implications on Residence Time Distributions / Marzadri, Alessandra; Ciriello, Valentina; de Barros, Felipe P. J.. - In: WATER RESOURCES RESEARCH. - ISSN 0043-1397. - ELETTRONICO. - 2024, 60:1(2024), pp. 1-21. [10.1029/2023wr035625]
Hyporheic Flows in Stratified Sediments: Implications on Residence Time Distributions
Marzadri, Alessandra;
2024-01-01
Abstract
The fate of nutrients and contaminants in fluvial ecosystems is strongly affected by the mixing dynamics between surface water and groundwater within the hyporheic zone, depending on the combination of the sediment's hydraulic heterogeneity and dune morphology. This study examines the effects of hydraulic conductivity stratification on steady-state, two-dimensional, hyporheic flows and solute residence time distribution. First, we derive an integral transform-based semi-analytical solution for the flow field, capable of accounting for the effects of any functional shape of the vertically varying hydraulic conductivity. The solution considers the uneven distribution of pressure at the water-sediment interface (i.e., the pumping process) dictated by the presence of dune morphology. We then simulate solute transport using particle tracking. Our modeling framework is validated against numerical and tracer data from flume experiments and used to explore the implication of hydraulic conductivity stratification on the statistics and pdf of the residence time. Finally, reduced-order models are used to enlighten the dependence of key residence time statistics on the parameters characterizing the hydraulic conductivity stratification.A new integral transform-based semi-analytical solution for hyporheic flows in stratified sediments is provided and tested against dataThe impact of hydraulic conductivity stratification on residence time distribution and its statistics is quantitatively analyzedROMs are used to approximate key residence time statistics in the space of variability of parameters characterizing the conductivity profileFile | Dimensione | Formato | |
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Water Resources Research - 2024 - Marzadri - Hyporheic Flows in Stratified Sediments Implications on Residence Time.pdf
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