Abstract
The aim of this study is to investigate the importance of freshwater discharge as a physical forcing in Patos Lagoon at timescales longer than one year, as well as identify the temporal variability of the dominant processes in freshwater discharge and water levels along the Patos Lagoon. Due to its proximity to the mouth, the water level at the estuary is influenced by the remote effects associated with the adjacent ocean circulation and wave climatology, reducing the observed correlation. At the lagoonar region a high correlation is expected because interannual data is being used, reducing the influence of the wind. Cross wavelet technique is applied to examine the coherence and phase between interannual time-series (South Oscillation Index, freshwater discharge and water levels). The freshwater discharge of the main tributaries and water levels in Patos Lagoon are influenced by ENSO on interannual scales (cycles between 3.8 and 6 years). Therefore, El Niño events are associated with high mean values of freshwater discharge and water levels above the mean. On the other hand, La Niña events are associated with low mean values of freshwater discharge and water levels below the mean.
Highlights
The influence of freshwater discharge in coastal areas is manifested in different timescales and in many physical, chemical, or geological processes [1,2,3,4,5], affecting primary production, stimulating benthonic remineralization, and creating spatial patterns of production due to the high availability of suspended sediment and the increase of water turbidity of continental origin.Freshwater discharge is responsible for controlling water quality by changing the quantities and compositions of organic and inorganic compounds, affecting the time it takes to transport materials and the water residence time [6,7,8]
The South Oscillation Index (SOI) was used for the purpose of investigating the relation between the occurrence of the natural phenomenon El Nino Southern Oscillation (ENSO) and the anomalies observed in freshwater discharge and water levels data
Analysis of the results showed that freshwater discharge of the main contributing rivers in the Patos Lagoon explains, on interannual scales, more than 80% (r2 = 0.80) of the water levels variability observed in the lagoon region, which is expected because interannual data is being used
Summary
Freshwater discharge is responsible for controlling water quality by changing the quantities and compositions of organic and inorganic compounds, affecting the time it takes to transport materials and the water residence time [6,7,8]. Their influences can be observed in the control of residual circulation, inducing spatial and temporal circulation patterns that may be reflected in the processes of transport, stratification, and shear in the water column [9, 10]. Knowledge of the importance of this forcing is essential for proper management of coastal environments
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