GC41B-0554:
Global Squeeze: Assessing Climate-Critical Resource Constraints for Coastal Climate Adaptation

Thursday, 18 December 2014
Nathan T. Chase1, Austin Becker2, Benedict Schwegler3 and Martin Fischer3, (1)URS Corporation, San Francisco, CA, United States, (2)University of Rhode Island, Kingston, RI, United States, (3)Stanford University, Civil and Environmental Engineering, Stanford, CA, United States
Abstract:
The projected impacts of climate change in the coastal zone will require local planning and local resources to adapt to increasing risks of social, environmental, and economic consequences from extreme events. This means that, for the first time in human history, aggregated local demands could outpace global supply of certain “climate-critical resources.” For example, construction materials such as sand and gravel, steel, and cement may be needed to fortify many coastal locations at roughly the same point in time if decision makers begin to construct new storm barriers or elevate coastal lands. Where might adaptation bottlenecks occur? Can the world produce enough cement to armour the world’s seaports as flood risks increase due to sea-level rise and more intense storms? Just how many coastal engineers would multiple such projects require? Understanding such global implications of adaptation requires global datasetssuch as bathymetry, coastal topography, local sea-level rise and storm surge projections, and construction resource production capacitythat are currently unavailable at a resolution appropriate for a global-scale analysis. Our research group has identified numerous gaps in available data necessary to make such estimates on both the supply and demand sides of this equation. This presentation examines the emerging need and current availability of these types of datasets and argues for new coordinated efforts to develop and share such data.