Litcius/Paper detail

Port resilience to climate change in the Greater Bay Area

Zhisen Yang, Zhisen Yang, Yui‐yip Lau, Mark Ching‐Pong Poo, Jingbo Yin, Zaili Yang, Zaili Yang

2025Transportation Research Part D Transport and Environment16 citationsDOIOpen Access PDF

Abstract

As vital global supply chain nodes, ports are particularly vulnerable to risks caused by disruptions from climate-induced risks, e.g., extreme weather events, sea-level rise. Through incorporating the Objective Oriented Bayesian Network and Expectation Maximization approach, this paper develops a new framework which enables the assessment of port resilience to climate change across multiple dimensions. Taking the Greater Bay Area as an example, it is found that port systems are quite resilient under typical scenario, and the resilience could be enhanced with higher utilization rate and the implementation of recovery or adaptive measures with faster relative recovery speed. Key measures in improving the resilience of port systems from different perspectives are identified, including the advanced equipment, maintenance and reliability, and technology restoration in the future. Practically, such findings contribute to a deeper understanding of port resilience and offer industry practitioners and policymakers valuable implications to enhance sustainable and resilient port management.

Topics & Concepts

BayPort (circuit theory)Resilience (materials science)Climate changeEnvironmental scienceOceanographyPsychological resilienceEnvironmental changeGeographyEngineeringGeologyPsychologyElectrical engineeringPsychotherapistThermodynamicsPhysicsInfrastructure Resilience and Vulnerability AnalysisRisk and Safety AnalysisMaritime Ports and Logistics