Abstract
Major airports are already at risk of coastal flooding. Sea level rise associated with a global mean temperature rise of 2 °C would place 100 airports below mean sea level, whilst 1238 airports are in the Low Elevation Coastal Zone. A global analysis has assessed the risk to airports in terms of expected annual disruption to routes. The method integrates globally available data of airport location, flight routes, extreme water levels, standards of flood protection and scenarios of sea level rise. Globally, the risk of disruption could increase by a factor of 17–69 by 2100, depending on the rate of sea level rise. A large number of airports are at risk in Europe, Norther American and Oceania, but risks are highest in Southeast and East Asia. These coastal airports are disproportionately important to the global airline network, by 2100 between 10 and 20% of all routes are at risk of disruption. Sea level rise therefore poses a systemic risk to global passenger and freight movements. Airports already benefit from substantial flood protection that reduces present risk by a factor of 23. To maintain risk in 2100 at current levels could cost up to $57BN. Although the cost of protecting larger airports is higher, busier airports are typically well protected and more likely to have better access to adaptation finance. However, 995 coastal airports operate 5 commercial routes or fewer. More detailed consideration of these airports shows that regions, especially low lying islands, will experience disproportionate impacts because airports can provide important economic, social, and medical lifelines. Route disruption was used as the risk metric due to its global coverage and relationship with direct economic impacts. Further work should collate a wider range of impact metrics that reflect the criticality of an airport in terms of the isolation and socio-economic context of the location it serves.
Highlights
Recent weather events have highlighted the exposure of coastal airports to the impacts of climate change
The Low Elevation Coastal Zone (LECZ) is defined as the contiguous area along the coast that is less than 10 m above sea level and is often used as a convenient geography to inform coastal vulnerability studies
A modest amount of sea level rise, such as that associated with a global mean temperature rise of 2 ◦C, would place 100 airports below mean sea level
Summary
Recent weather events have highlighted the exposure of coastal airports to the impacts of climate change. A number of airports have undertaken individual climate change impacts assessments (Heathrow Airport, 2016; Massport, 2018; Sydney Airport, 2019), and some agencies have identified that some airports are in low-lying coastal zones (Steffen et al, 2014; Dawson et al, 2018; Jacobs et al, 2018; Christodoulou and Demirel, 2018). These studies focus on the vulnerability, rather than the relative importance, capacity and connectivity of different airports (Poo et al, 2018).
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.