Climate Resilience: Engineering Solutions for Coastal Communities
Ugwu Chinyere Nneoma, Ogenyi Fabian, Val Hyginus Udoka Eze, and Ugwu Okechukwu Paul-Chima
Department of Publication and Extension, Kampala International University, Uganda
ABSTRACT
Coastal communities worldwide face escalating threats from climate change, including sea-level rise, increased storm intensity, erosion, and socio-economic vulnerability. This paper examines the concept of climate resilience within coastal zones, focusing on the systems’ capacity to adapt and sustain viability amid environmental, social, and economic stressors. It discusses key vulnerabilities, physical, ecological, and institutional, and evaluates both nature-based and hard engineering solutions for coastal protection. The paper emphasizes the need for integrated, localized adaptation strategies that combine advanced engineering, community engagement, and policy innovation. Real-world case studies illustrate the necessity for cross-sector collaboration, dynamic governance, and public education in crafting resilient coastal futures. By examining current models and identifying gaps in knowledge and infrastructure, the paper highlights a pathway toward equitable and sustainable climate adaptation for vulnerable coastal populations.
Keywords: Climate resilience, coastal communities, sea-level rise, storm surge, erosion, nature-based solutions, hard engineering, vulnerability assessment.
CITE AS: Ugwu Chinyere Nneoma, Ogenyi Fabian C., Val Hyginus Udoka Eze, and Ugwu Okechukwu Paul-Chima (2025). Climate Resilience: Engineering Solutions for Coastal Communities. Research Output Journal of Engineering and Scientific Research 4(2): 16-22. https://doi.org/10.59298/ROJESR/2025/4.2.1622