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\"Morfodinâmica de um segmento da praia da Ilha Comprida, litoral sul do Estado de São Paulo\" / Morphodynamic of Ilha Comprida beach segment, southern coast of the state of São PauloMarquez, Mainara da Rocha Karniol 25 June 2007 (has links)
A dinâmica de praia constitui conhecimento elementar em obras de engenharia e na compreensão da evolução costeira ao longo do Quaternário recente. Buscou-se avaliar a variação temporal de curto período da morfologia e do volume de sedimento em um segmento na porção sul da praia da Ilha Comprida, litoral sul de São Paulo. Os resultados permitiram algumas interpretações, tanto em escala diária, como sazonal. As morfologias e os volumes do trecho estudado apresentaram maior similaridade entre as campanhas de maio de 2005 e janeiro de 2006, com estágio morfodinâmico de praia dissipativa, e entre agosto e novembro de 2005, com estágio de praia intermediária do tipo banco e calha. As ondas de sul com alturas de até 1 m e período médio entre 7 e 8 s atuaram no processo de engordamento da praia emersa, enquanto que as ondas desta mesma direção com alturas a partir de 1,5 m e período médio entre 8 e 10 s exerceram papel erosivo. De forma inversa, as ondas de leste com até 1 m de altura e período médio entre 6 e 8 s exerceram papel erosivo e com até 1,5 m e período médio entre 6 e 7 s, papel deposicional. / The knowledge of beach dynamics is fundamental in any coastal engineering projects as well as in the coastal evolution comprehension during the Late Quaternary. The aim of this study is to evaluate the short-term variations in morphology and sediment volume in a beach segment located in the southern portion of the Ilha Comprida, southern coast of the state of São Paulo, Brazil. The results allowed us to get important conclusions on daily and seasonal variations in beach morphology and behaviour. The morphology and volume data show similarity between may/2005 and jan/2006, with dissipative morphodynamic state characteristics, as well as between aug/2005 and nov/2005, characterized by an intermediate morphodynamic state. Southerly waves reaching 1m high and mean period between 7 and 8 s acts on the emerged part of the segment in a depositional way as well as southerly waves higher than 1,5 m and period between 8 and 10 s cause erosion in the same part of the beach profile. Easterly waves act in an opposite way, with lower heights causing erosion and higher causing deposition.
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\"Morfodinâmica de um segmento da praia da Ilha Comprida, litoral sul do Estado de São Paulo\" / Morphodynamic of Ilha Comprida beach segment, southern coast of the state of São PauloMainara da Rocha Karniol Marquez 25 June 2007 (has links)
A dinâmica de praia constitui conhecimento elementar em obras de engenharia e na compreensão da evolução costeira ao longo do Quaternário recente. Buscou-se avaliar a variação temporal de curto período da morfologia e do volume de sedimento em um segmento na porção sul da praia da Ilha Comprida, litoral sul de São Paulo. Os resultados permitiram algumas interpretações, tanto em escala diária, como sazonal. As morfologias e os volumes do trecho estudado apresentaram maior similaridade entre as campanhas de maio de 2005 e janeiro de 2006, com estágio morfodinâmico de praia dissipativa, e entre agosto e novembro de 2005, com estágio de praia intermediária do tipo banco e calha. As ondas de sul com alturas de até 1 m e período médio entre 7 e 8 s atuaram no processo de engordamento da praia emersa, enquanto que as ondas desta mesma direção com alturas a partir de 1,5 m e período médio entre 8 e 10 s exerceram papel erosivo. De forma inversa, as ondas de leste com até 1 m de altura e período médio entre 6 e 8 s exerceram papel erosivo e com até 1,5 m e período médio entre 6 e 7 s, papel deposicional. / The knowledge of beach dynamics is fundamental in any coastal engineering projects as well as in the coastal evolution comprehension during the Late Quaternary. The aim of this study is to evaluate the short-term variations in morphology and sediment volume in a beach segment located in the southern portion of the Ilha Comprida, southern coast of the state of São Paulo, Brazil. The results allowed us to get important conclusions on daily and seasonal variations in beach morphology and behaviour. The morphology and volume data show similarity between may/2005 and jan/2006, with dissipative morphodynamic state characteristics, as well as between aug/2005 and nov/2005, characterized by an intermediate morphodynamic state. Southerly waves reaching 1m high and mean period between 7 and 8 s acts on the emerged part of the segment in a depositional way as well as southerly waves higher than 1,5 m and period between 8 and 10 s cause erosion in the same part of the beach profile. Easterly waves act in an opposite way, with lower heights causing erosion and higher causing deposition.
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Modélisation de l’évolution long-terme du trait de côte le long des littoraux sableux dominés par l’action des vagues / Modeling of long-term shoreline evolution along wave-dominated sandy coastsRobinet, Arthur 15 December 2017 (has links)
Les littoraux sableux dominés par l'action des vagues sont des zones très dynamiques où l'aléa érosion menace les activités humaines et la sécurité des personnes. Comprendre et prévoir les évolutions du trait de côte est crucial pour informer et guider les gestionnaires du littoral. Actuellement, aucun modèle numérique ne permet de reproduire les évolutions du trait de côte sur l'ensemble des échelles spatio-temporelles et des configurations de côte requises du fait de limitations numériques et physiques. Cette thèse se concentre sur le développement de nouveaux outils de modélisation à complexité réduite pour simuler les évolutions du trait de côte le long des littoraux sableux dominés par l'action des vagues sur des échelles de temps allant de l'heure à plusieurs décennies avec des temps de calcul réduits. D'abord, un modèle statistique de trait de côte s'appuyant uniquement sur les occurrences saisonnières de régimes de temps est développé. Ce modèle permet de simuler la variabilité du trait de côte à l'échelle pluriannuelle, sans avoir besoin de connaitre les conditions de vagues ou de modéliser le transport sédimentaire. Puis, un nouveau modèle numérique de trait de côte basé sur les vagues (LX-Shore) est développé en intégrant entre autres les forces de certains modèles existants. Il inclut les processus cross-shore et longshore, et couple la dynamique du trait de côte à la propagation des vagues via le modèle spectral de vagues SWAN. Ce modèle permet de simuler l'évolution de formes complexes comme par exemple les flèches sableuses. Ces outils ouvrent aussi la voie vers une meilleure évaluation des évolutions futures du trait de côte, ainsi que de la contribution respective des processus impliqués. / Wave-dominated sandy coasts are highly dynamic and populated systems increasingly threatened by erosion hazard. Understanding and predicting shoreline change is critical to inform and guide stakeholders. However, there is currently no numerical model able to reproduce and predict shoreline evolution over the full range of temporal scales and coastal geometries owing to numerical and physical limitations. This thesis focuses on the development of new reduced-complexity models to simulate shoreline change along wave-dominated sandy coasts on the timescales from hours to decades with low computation time. First, a statistical shoreline change model based on the seasonal occurrences of some oceanic basin weather regimes is developed. This model allows simulating shoreline variability at the seasonal and interannual scales, without resorting to wave data or sediment transport modeling. Second, a new so-called LX-Shore numerical wave-driven shoreline change model is developed, which takes the best from some existing models and includes additional numerical and physical developments. LX-Shore couples the primary longshore and cross-shore processes and includes the feedback of shoreline and bathymetric evolution on the wave field using a spectral wave model. LX-Shore successfully simulates the dynamics of coastal embayments or the formation of subsequent nonlinear evolution of complex shoreline features such as flying sandspits. It is anticipated that LX-Shore will provide new and quantitative insight into the respective contributions of the processes controlling shoreline change on real coasts for a wide range of wave climates and geological settings.
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