FG Umweltplanung
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- Bam (Iran) (1)
- Bam <Iran> (1)
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- Ho Chi Minh City, Vietnam (1)
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- FG Umweltplanung (2)
Despite the continuous effects of natural hazards on cultural heritage and growing body of research on disaster risk assessment, cultural heritage still suffers from the lack of integrated risk assessment methodologies. Within the context of natural hazards, earthquakes need to be differently considered mainly due to the sudden massive destruction without warning and the unpredictability of the exact occurrence time and place. So far, limited sources have been adequately dedicated to developing risk assessment methodologies for cultural heritage. The challenge is to integrate the principles and methods of risk assessment in heritage conservation on one side, and to incorporate particular characteristics of cultural heritage and World Cultural Heritage properties (e.g. the Outstanding Universal Values and associated conditions of authenticity and integrity) into the risk assessment procedure, on the other.
There are numerous cultural properties that have been extremely affected by seismic events, such as the historic city of Bam in Iran. The World Heritage site of ‘Bam and its Cultural Landscape’, as a unique example of a traditional human settlement, is investigated in this research. Because Bam and its Cultural Landscape is located in a high-probability earthquake region and appeared to be highly vulnerable to seismic events, an integrated risk assessment for the property needs to be developed in response to potential earthquakes.
Recognising the challenge, a Cultural Heritage Risk Index for Bam is performed to measure the level of risk by aggregating the risk components, which are ‘hazard’ (earthquakes), ‘exposure’ (significance of the site elements), and ‘vulnerability’ (susceptibility and coping capacity). According to the risk index, an earthquake risk map is generated by applying Geographic Information System (GIS) to demonstrate a common understanding of the level of potential impacts on the property. Furthermore, a multiple impact identification matrix supports determining the potential impacts of an earthquake as well as its related secondary hazards and human-induced threats that need to be addressed in a risk preparedness plan.
The findings of the research emphasis that in addition to the hazard itself, diverse factors associated with the heritage significance, structural susceptibility, and institutional capacity highly influence the level of risk. The outputs of the risk assessment allows determining site-specific risk reduction strategies, particularly seismic susceptibility reduction and coping capacity building. This provides specialists and practitioners from multiple sectors engaged in the protection of (World) cultural heritage with a practical tool to facilitate risk communication and appropriate risk management planning.
Urban adaptation is a critical issue for many of the developing countries of Southeast Asia. Vietnam is likely to be among the countries most adversely affected by climate change. Moreover, its largest city, Ho Chi Minh City is considered worldwide as one of most vulnerable to a multitude of climate-related hazards, including flooding, sea-level rise and extreme heat events. Similar to other rapidly developing megacities in Southeast Asia, Ho Chi Minh City has undergone enormous changes in recent decades and has rapidly developed into an emerging megacity shaped by global processes and local settlement patterns. Recently, the need to adapt to the multiple stressors of rapid urbanisation and climate change has become increasingly evident. Adaptation to climate change in urban areas depends on decision-makers’ understanding of the current and future impacts of climate change. Land-use planning as a place-based and problem-solving strategy has been recognised as a key tool in this respect, to mainstream climate change adaptation and disaster risk reduction into urban development. Yet a key challenge is a lack of relevant information on exposed populations and assets at risk to planners and policymakers. The dissertation outlines the development of an integrated framework predominantly based on an urban structure type approach. This approach was used to manually interpret high resolution, remotely sensed imagery in order to portray and understand patterns of settlement and urban structure layout of the current and emerging landscapes of Ho Chi Minh City. The approach is able to capture the highly dynamic spatiotemporal, social and structural changes associated with rapid urbanisation. The overall findings show the applicability of the developed framework to produce important input indicators for risk adapted land-use planning. These are ultimately useful to determine hotspots for administrative interventions and to assist prioritising in spatial and urban planning decision-making.