<p>Climate change is a global phenomenon that has significant impacts on cultural heritage sites, including World Heritage Sites. This article explores the risks to the Persepolis World Heritage Site (WHS) in Iran to the impacts of climate change, using an integrated approach that combines community perception, the Climate Vulnerability Index (CVI), and the Driver-Pressure-State-Impact-Response (DPSIR) framework. The study identifies the interdependence between the susceptibility of sites and the local communities through stakeholders’ perception and CVI. It also highlights the indirect impacts of climate change on the site’s authenticity and integrity and the livelihoods of local communities. The DPSIR framework is used to understand drivers and pressures that contribute to risk and the complex relationships between environmental factors and human activities and to suggest a range of responses, including the development of more efficient irrigation practices, the implementation of groundwater management plans, and efforts to adapt traditional water management systems to modern needs. We suggest that a multidisciplinary and integrated approach is necessary for effective risk assessment and management of Sites facing climate change.</p>

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Integrating Community Perception, Climate Vulnerability Index, and Driver-Pressure-State-Impact-Response Approaches for Climate Risk Assessment of the Persepolis World Heritage Site

  • Masoud Nakhaei,
  • Cathy Daly

摘要

Climate change is a global phenomenon that has significant impacts on cultural heritage sites, including World Heritage Sites. This article explores the risks to the Persepolis World Heritage Site (WHS) in Iran to the impacts of climate change, using an integrated approach that combines community perception, the Climate Vulnerability Index (CVI), and the Driver-Pressure-State-Impact-Response (DPSIR) framework. The study identifies the interdependence between the susceptibility of sites and the local communities through stakeholders’ perception and CVI. It also highlights the indirect impacts of climate change on the site’s authenticity and integrity and the livelihoods of local communities. The DPSIR framework is used to understand drivers and pressures that contribute to risk and the complex relationships between environmental factors and human activities and to suggest a range of responses, including the development of more efficient irrigation practices, the implementation of groundwater management plans, and efforts to adapt traditional water management systems to modern needs. We suggest that a multidisciplinary and integrated approach is necessary for effective risk assessment and management of Sites facing climate change.