Abstract
Assessment of risk considering both the probability of occurrence of a natural phenomenon and its consequences on the elements at risk is an essential step before the design of adequate risk reduction strategies in local, regional or national level. Within the EU-funded project SEERISK “Joint disaster management risk assessment and preparedness for the Danube macro-region”, a common methodology for risk assessment and mapping for climate change-related hazards has been developed. Vulnerability assessment is a large part of the risk assessment procedure, and it requires a considerable amount of detailed data. The methodology for risk assessment presented here is in line with the EC Guidelines for Risk Assessment and Mapping, and it provides alternatives in order to tackle the problem of varying data quality and quantity necessary for the analysis of hazard and vulnerability. In the present study, the methodology is adapted for heat waves and is applied in the city of Arad, Romania. Based on data regarding surface temperatures and emergency services interventions from past events during the daytime and the night-time, two hazard and two impact maps were developed, respectively, as well as a risk matrix for the night- and the daytime. A heat wave risk map was then developed that can be used by the emergency planners and services in order to prioritise their actions and focus on the hotspots as far as potential victims are concerned. The results of the case study apart from providing a tool for decision-makers and emergency planers also demonstrate the applicability of the common risk assessment methodology developed as being a profound theoretical basis for distinct risk-mapping exercises.
Highlights
1.1 BackgroundAs the magnitude and frequency of climate-related hazards are expected to increase in the coming years, authorities, scientists, emergency planners and other stakeholders are in need of methodologies and tools in order to assess and visualise the spatial pattern of risks related to these hazards
A heat wave risk map was developed that can be used by the emergency planners and services in order to prioritise their actions and focus on the hotspots as far as potential victims are concerned
The main aim of the present study is to demonstrate the applicability of the common methodology for risk assessment developed within the SEERISK project
Summary
1.1 BackgroundAs the magnitude and frequency of climate-related hazards are expected to increase in the coming years, authorities, scientists, emergency planners and other stakeholders are in need of methodologies and tools in order to assess and visualise the spatial pattern of risks related to these hazards. As far as Europe is concerned, the IPCC report clearly suggests that projections and observations identify specific urban areas where increased heat waves are expected. Cities and urban areas suffer often higher temperatures than rural areas due to the heat island effect. The urban heat island represents the difference in temperature between cities and the surrounding rural areas (Depietri et al 2011). Heat waves are expected to have more severe impacts in the future due to climate change and due to increase in urban and ageing populatio (Senf and Lakes 2011).
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