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    • Satellite-Based Support for Sea Level Dynamic Adaptation Policy Pathways

    Paper number

    GLOC-2023,T,2A,6,x75409

    Author

    Dr. Anjali Tripathi, NASA Jet Propulsion Laboratory, United States

    Coauthor

    Dr. Benjamin Hamlington, NASA Jet Propulsion Laboratory, United States

    Year

    2023

    Abstract
    Sea level rise driven by global warming is a present risk to many of the world’s coastal communities, and this risk is expected to increase in the coming decades. As a result of this increased risk and worsening impacts, both in magnitude and frequency, efforts are now necessarily underway for coastal communities to adapt to future sea level rise. Such adaptation planning requires a foundation of scientific information about the timing and magnitude of future sea level rise. Complicating this, however, are the uncertainty and ambiguity that are pervasive in future estimates of sea level rise across a wide range of timescales, which can serve to limit or paralyze decision-making. The magnitude of this uncertainty varies with time horizon making a “wait and see” approach an attractive adaptation option. However, a “wait and see” approach can potentially limit future adaptation options and ultimately prove more costly than acting in a more timely manner. As a solution to these challenges, the dynamic adaptation policy pathways (DAPP, often shortened to “adaptation pathways” or “dynamic adaptation pathways”) approach has been developed.

Dynamic adaptation policy pathways, or DAPPs, provide roadmaps for coastal communities to establish the infrastructure and response needed for sea level rise resilience. Involving monitoring coordinated with response, these adaptation pathways require iterative assessment of sea level rise observations and model projections. Remote sensing capabilities from satellites offer an opportunity to assess a consistent set of observation-driven data indicators, around which adaptation pathways can be built. The large-scale nature and broad coverage of satellite observations provides the benefit of consistent monitoring capabilities across the globe, for regions with differing needs, resources, and monitoring capacities. In this presentation, we identify four broad categories of data indicators that can be monitored with satellites to support decision making in adaptation pathways. We review these indicator categories in relation to existing adaptation pathway signposts and the available satellite data.  As we highlight the opportunities for satellite-based contributions to sea level adaptation pathways, we also outline potential limitations, opportunities to overcome these limitations, and future steps that need to be taken to formally integrate satellite observations into adaptation pathways.
    Abstract document

    GLOC-2023,T,2A,6,x75409.brief.pdf

    Manuscript document

    GLOC-2023,T,2A,6,x75409.pdf (🔒 authorized access only).

    To get the manuscript, please contact IAF Secretariat.