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Citation |
Kasmalkar IG, Serafin KA, Miao Y, Bick IA, Ortolano L, Ouyang D, Suckale J. Sci. Adv. 2020; 6(32): eaba2423. |
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Copyright |
(Copyright © 2020, American Association for the Advancement of Science) |
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DOI |
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PMID |
32821823 PMCID |
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Abstract |
As sea level rises, urban traffic networks in low-lying coastal areas face increasing risks of flood disruptions. Closure of flooded roads causes employee absences and delays, creating cascading impacts to communities. We integrate a traffic model with flood maps that represent potential combinations of storm surges, tides, seasonal cycles, interannual anomalies driven by large-scale climate variability such as the El NiƱo Southern Oscillation, and sea level rise. When identifying inundated roads, we propose corrections for potential biases arising from model integration. Our results for the San Francisco Bay Area show that employee absences are limited to the homes and workplaces within the areas of inundation, while delays propagate far inland. Communities with limited availability of alternate roads experience long delays irrespective of their proximity to the areas of inundation. We show that metric reach, a measure of road network density, is a better proxy for delays than flood exposure. Language: en |