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The fate of Guadalquivir River discharges in the coastal strip of the Gulf of Cádiz. A study based on the linking of watershed catchment and hydrodynamic models.
Gomiz-Pascual, Juan J; Bolado-Penagos, Marina; Gonzalez, Carlos J; Vazquez, Agueda; Buonocore, Cira; Romero-Cozar, Jeanette; Perez-Cayeiro, Maria Luisa; Izquierdo, Alfredo; Alvarez, Oscar; Mañanes, Rafael; Bruno, Miguel.
Afiliação
  • Gomiz-Pascual JJ; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain. Electronic address: juanjesus.gomiz@gm.uca.es.
  • Bolado-Penagos M; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
  • Gonzalez CJ; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
  • Vazquez A; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
  • Buonocore C; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
  • Romero-Cozar J; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
  • Perez-Cayeiro ML; Department of Regional Geographic Analysis, University of Cádiz, Cadiz 11510, Spain.
  • Izquierdo A; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
  • Alvarez O; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
  • Mañanes R; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
  • Bruno M; Department of Applied Physics, University of Cádiz, Cadiz 11510, Spain.
Sci Total Environ ; 795: 148740, 2021 Nov 15.
Article em En | MEDLINE | ID: mdl-34246148
A catchment model for river basins and a hydrodynamic model were combined in order to simulate the spreading of the turbidity plume produced by sediment discharges from the Guadalquivir River basin within the Gulf of Cádiz under different meteorological conditions. The current fields provided by the hydrodynamic model and a transport-diffusion scheme based on tracking virtual particles tracking released at the river mouth have enabled us to simulate turbidity plumes that show great similarity with the plumes observed in satellite images. The most relevant results of the study show that in the absence of winds, the plume tends to spread very slowly, gradually progressing northwards; this is because of the symmetry between the filling and draining flows at the mouth of the Guadalquivir and low intensity of the tidal currents beyond the mouth. In addition, the transport of the plume towards the Strait of Gibraltar requires wind conditions with a northerly, north-westerly or westerly component. Westwards transport, however, requires winds with an easterly, southerly, or south-easterly component. The periods of heaviest rainfall in the Guadalquivir River basin coincide with winds mainly from the west; therefore, the times of maximum discharge at the mouth of the river occur when there are wind conditions that favour the transport of the matter suspended in the plume, southwards along the coast, towards the Strait of Gibraltar and the Alboran Sea. Linking the watershed catchment and hydrodynamic models has proved its suitability to predict the evolution and reaching of the sediment plumes from the Guadalquivir River discharges and the experience encourages the use of that methodology to be applied in a future prediction system for the creation and evolution of those sediment plumes.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Rios / Hidrodinâmica Tipo de estudo: Prognostic_studies País como assunto: Europa Idioma: En Ano de publicação: 2021 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Rios / Hidrodinâmica Tipo de estudo: Prognostic_studies País como assunto: Europa Idioma: En Ano de publicação: 2021 Tipo de documento: Article