4.7 Article

Estuarine Salinity Response to Freshwater Pulses

Journal

JOURNAL OF GEOPHYSICAL RESEARCH-OCEANS
Volume 127, Issue 11, Pages -

Publisher

AMER GEOPHYSICAL UNION
DOI: 10.1029/2022JC018669

Keywords

salt intrusion; estuarine dynamics; idealized modeling

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Freshwater pulses have significant impacts on estuarine salinity, with changes proportional to the ratio of peak and background river discharge. The adjustment time scales with the ratio of change in salt intrusion length and peak river discharge, while recovery time is independent of the decrease in salt intrusion length caused by the pulse. The strength of tides has minimal importance to salt dynamics.
Freshwater pulses (during which river discharge is much higher than average) occur in many estuaries and strongly impact estuarine functioning. To gain insight into the estuarine salinity response to freshwater pulses, an idealized model is presented. With respect to earlier models on the spatiotemporal behavior of salinity in estuaries, it includes additional processes that provide a more detailed vertical structure of salinity. Simulation of an observed salinity response to a freshwater pulse in the Guadalquivir Estuary (Spain) shows that this is important to adequately simulate the salinity structure. The model is used to determine the dependency of the estuarine salinity response to freshwater pulses for different background discharge, tides, and different intensities and durations of the pulses. Results indicate that the change in salt intrusion length due to a freshwater pulse is proportional to the ratio between peak and background river discharge and depends linearly on the duration of the pulse if there is no equilibration during the pulse. The adjustment time, which is the time it takes for the estuary to reach equilibrium after an increase in river discharge, scales with the ratio of the change in salt intrusion length and the peak river discharge. The recovery time, that is, the time it takes for the estuary to reach equilibrium after a decrease in river discharge, does not depend on the amount of decrease in salt intrusion length caused by the pulse. The strength of the tides is of minor importance to the salt dynamics during and after the pulse.

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