This study investigates the preservation challenges confronting Jassan Hill, a historic site in southern Iraq characterized by vernacular mud-brick architecture and a rich cultural narrative extending back to the early Islamic period. The primary purpose is to develop a robust, integrated framework that addresses the site’s structural vulnerabilities, environmental pressures, and socio-cultural dimensions. A mixed-methods design underpinned the research, involving qualitative and quantitative techniques. The study employed site surveys, GIS mapping, and physical assessments (e.g., non-destructive testing) to document and analyze the state of Jassan Hill’s architectural fabric. In parallel, semi-structured interviews and archival research provided insights into community perceptions, historical development, and existing governance structures. Advanced digital tools such as AutoCAD Recap for 3D modeling and ArcGIS for geospatial analysis enabled detailed visualization of risk zones and correlations between environmental factors and structural decay. Key findings reveal acute deterioration in several structures due to water infiltration, inadequate maintenance, and unregulated urban growth. Additionally, limited policy support and insufficient resource allocation hamper comprehensive conservation efforts. Stakeholder interviews confirm community interest in preserving the hill’s cultural identity and highlight the potential for heritage tourism as an economic driver. These results underscore the importance of an integrated preservation strategy. By combining technical interventions with community engagement and informed policy measures, heritage managers can formulate sustainable solutions tailored to Jassan Hill’s unique context. The adoption of advanced documentation techniques and collaborative governance models has broader implications for protecting similar cultural and environmentally vulnerable sites, ensuring their continued relevance and resilience for future generations.
Ahmed et al. (Mon,) studied this question.