Sustainable Landscape Strategies for Slope Stabilization and Land Usability: Comparative Insights from Institutional and Residential Architecture
Olayemi Kolawole Oludoyi *
Department of Architecture, Faculty of Engineering and Environmental Sciences, Elizade University, Ilara-Mokin, Nigeria.
Ayeni Dorcas
Department of Architecture, Federal University of Technology, Akure, Ondo State, Nigeria.
Usman Abdulrahman
Department of Architecture, Federal University of Technology, Akure, Ondo State, Nigeria.
*Author to whom correspondence should be addressed.
Abstract
Background: Topography-sensitive design is essential in the creation of sustainable and practical landscapes within academic institutions, especially in areas where sloped topography presents both challenges and opportunities. This paper explores aspects of sustainable landscape design that enable slope stability and land use in a campus location.
Methodology: This study adopted a qualitative multiple–case study approach using criterion-based purposive sampling. Six case studies were examined, comprising three Nigerian university campuses (OAU, CURID, and JABU) and three international residential projects (Spain, Greece, and Brazil). Data were collected from archival sources, published drawings, photographs, and site descriptions. Analysis was conducted using a standardized comparative matrix supported by deductive coding across morphological adaptation, ecological performance, and spatial organization. Key parameters such as slope condition, stabilization strategies, drainage approaches, and land-use efficiency were qualitatively classified to ensure analytical consistency and reproducibility.
Results: Findings reveal that effective slope stabilization extends beyond structural interventions to include terrain-responsive spatial zoning, vegetative reinforcement, and integrated drainage systems. Institutional cases emphasized land usability, accessibility, and circulation efficiency, while residential precedents demonstrated advanced ecological integration, passive design, and minimal land disturbance. The synthesis highlights the value of combining macro-scale campus planning strategies with micro-scale architectural adaptations.
Conclusion: The study concludes that sustainable slope management in campus environments requires an integrated landscape–architecture approach that treats topography as a design asset rather than a constraint. This research contributes a transferable, landscape-based analytical framework for slope-sensitive campus planning, bridging architectural design and environmental engineering at the conceptual and planning scale, with relevance to tropical and developing contexts.
Keywords: Campus design, ecological intelligence, land usability, sustainable landscape design, slope stabilization, topography