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Field
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of coastal zones, calling for a better understanding of underlying processes and the development of adaptation solutions. In the scope of the research projects La Rochelle Territoire Zéro Carbone 2040 (LRTZC
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Argonne National Laboratory seeks a postdoctoral researcher to help build a high-resolution coastal-urban flooding modeling capability within the Energy Exascale Earth System Model (E3SM
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to lead an investigation exploring the ability of recently developed global earth system models to simulate coastal sea level across sub-annual timescales. This work will leverage a suite of coupled models
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analysis of the waves will be utilized to study the fundamental processes of wave interaction with coastal protection structures. Studied structures could for example include traditional rubble mound
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candidate will refine the physical processes represented in the regional model, with particular attention to improving land–sea coupling and sediment–water interactions. Building on recent progress in both
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the present will create the required and desired resilient and dynamic multifunctional coastal landscapes of the future. SOURCE will deliver the scientific knowledge, models and design tools to develop and
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on the effects of climate change in coastal areas and aims to improve knowledge of its hazards, as well as to support risk management and promote the development of adaptation strategies. Main activities
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to coastal sea level variability and relevant physical processes (e.g. ocean warming and mass redistribution); 2) conducting sensitivity analyses to identify the roles played by model forcing, horizontal
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spatial and seasonal distributions of PFAS and identification of the key processes controlling their fate (dispersion, transformation, sediment retention). Contribution to modeling PFAS transport in
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to contribute to cutting-edge research and projects focused on disaster resilience, coastal engineering, hydrodynamic and morpho dynamic coastal processes, and flood risk reduction. IDRT is dedicated to enhancing