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In this enlightening episode, we navigate the intricate world of risk and resilience of urban systems with Dr. Logan. Holding a Doctorate from the University of Michigan and an active member in numerous professional organizations like the Society for Risk Analysis and the Association of American Geographers, Dr. Logan's contributions to the field are formidable. His research paves new ways in designing cities resilient to climate change through the lens of risk science, systems engineering, modeling, and statistics.The episode centers around Dr. Logan's recent groundbreaking paper on sea-level rise (SLR). While traditionally, the focus has been on properties at risk of inundation due to rising sea levels, Dr. Logan proposes an often overlooked but critical metric: the risk of population isolation. His team’s findings suggest that a significant number of people might face isolation, cut off from essential services, much before their properties are inundated. These revelations have substantial implications for how we approach SLR in terms of policy, planning, and even human rights.Through the paper’s insights, Dr. Logan emphasizes the importance of considering not just the physical flooding but the broader, cascading consequences that SLR can introduce. This holistic understanding can dramatically reshape how cities and countries approach SLR, ensuring that adaptation strategies are comprehensive, efficient, and prioritize the well-being of at-risk communities.Journey with us into a world where the rising tides pose risks that stretch beyond mere property damage. Learn about the complexities of planning for a future where inundation and isolation go hand in hand and discover the strategic interventions that can help us build a resilient and inclusive future.Urban Systems, Resilience, Climate Change, Risk Science, Sea-Level Rise, Population Isolation, Inundation, Adaptation Policy, Infrastructure, Displacement, Relocation, Global Climate Adaptation.Logan, T.M., Anderson, M.J. & Reilly, A.C. Risk of isolation increases the expected burden from sea-level rise. Nat. Clim. Chang. 13, 397–402 (2023). https://doi.org/10.1038/s41558-023-01642-3
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