A5063223961- Coastal and Marine Dynamics
- Coastal wetland ecosystem dynamics
- Tropical and Extratropical Cyclones Research
- Aeolian processes and effects
- Ocean Waves and Remote Sensing
- Coastal and Marine Management
- Urbanism, Landscape, and Tourism Studies
- Migration, Aging, and Tourism Studies
- Historical and socio-economic studies of Spain and related regions
- Water Resource Management and Quality
- Archaeological and Historical Studies
- Latin American Urban Studies
- Oceanographic and Atmospheric Processes
- Geological and Tectonic Studies in Latin America
- History and Politics in Latin America
- Environmental and Ecological Studies
- Oil Spill Detection and Mitigation
Universidad de Cantabria
2017-2024
Instituto de Física de Cantabria
2023
Managing conflicts between multiple users of the coastal zone is a challenge for modern engineering. In context surfing, changes in beach morphology resulting from implementation protection measures have direct impact on wave-breaking patterns and consequently surfing conditions. This study proposes novel methodology to evaluate conditions sandy beaches. The purpose this provide comparative tool assessing permanent various levels expertise.
Equilibrium-Based Shoreline Evolution Models (EBSEM) are computationally efficient tools for simulating beach response to environmental conditions, such as hydrodynamic forcings. Thus, they valuable understand the footprint of longshore and cross-shore sediment transport processes on shoreline rotation breathing at several temporal scales. Despite its simplicity, EBSEM parametric models that rely calibration. Existing applications in literature have traditionally used constant time space...
Jaramillo, C.; de Freitas, L.; González, M., and Medina, R., 2023. Equilibrium-based shoreline evolution models to predict coastal response. In: Lee, J.L.; H.; Min, B.I.; Chang, J.-I.; Cho, G.T.; Yoon, J.-S., J. (eds.), Multidisciplinary Approaches Coastal Marine Management. Journal of Research, Special Issue No. 116, 633-637. Charlotte (North Carolina), ISSN 0749-0208. zones are highly complex dynamic environments shaped by diverse forcing agents such as waves, nearshore currents, sea...
Jaramillo, C.; Sánchez-García, E.; Jara, M.-S.; González, M., and Palomar-Vázquez, J.M., 2020. Subpixel satellite-derived shorelines as valuable data for equilibrium shoreline evolution models. Journal of Coastal Research, 36(6), 1215–1228. Coconut Creek (Florida), ISSN 0749-0208.The analysis prediction variability are two the main challenges in coastal engineering. Evaluating behaviour a target area usually requires access to long series high-resolution positions. Therefore, engineers must...
Jara, M.S.; González, M.; Medina, R., and Jaramillo, C., 2018. Time-varying beach memory applied to cross-shore shoreline evolution modelling.A new Shoreline Evolution Model Based on the Equilibrium Wave Energy—the SE-WE Model—is presented in this article. This simple model predicts position S as equilibrium response under a specific wave forcing, i.e. proposed Energy (Eeq) is computed weighted average of antecedent conditions, according formulation. approach allows for prediction at any...
Gainza, J.; Garnier, R.; Nuñez, P.; Jaramillo, C.; González, E.M.; Medina, Liria, Epelde, I.; Uriarte, A., and Monge-Ganuzas, M., 2019. Accelerating beach recovery by plowing the intertidal bar: A field experiment along northern Spanish coast. Journal of Coastal Research, 35(5), 973–984. Coconut Creek (Florida), ISSN 0749-0208.Subaerial width plays a vital role when it comes to protecting coastal settlements communities from storms. In many beaches accretionary sequence is often...
Coastal zones are highly complex and dynamic environments shaped by diverse forcing agents such as waves, nearshore currents, sea levels, storm surges, winds, human interventions, other oceanographic sediment supply factors that occur on different spatio-temporal scales. Hence, coastal managers stakeholders need simplified practical models in order to estimate future beach morphodynamic changes face decision-making. The shoreline hindcast under the influence of changing marine conditions has...
Traditionally, the shoreline hindcast under influence of changing marine conditions has been considered by means existing robust evolution models, such as one-line, multi-line, combined or 3D models. All them require long data series, many calibration parameters and are computationally intensive. This study presents a new model considering integration cross-shore, planform rotation equilibrium-based applicable over time-scales spanning days, months several years. The successfully reaches...