2 research outputs found
Assessment of Wave Storm-Induced Flood Vulnerability in Rhodes Island, Greece
Coastal areas are threatened by extreme meteorological phenomena, such as wave storms. Therefore, the analysis of such events, such as providing information for their potential hazards assessment, is a key element in coastal management. In this study, a preliminary assessment of flood vulnerability due to storms was performed in Rhodes Island, Greece. Firstly, storm events were defined in terms of significant wave height, peak period, and duration, and they were grouped by means of cluster analysis into five classes (from weak to extreme) reflecting the intensity of each event. Subsequently, flood hazard was assessed by using an empirical formula for wave run-up calculations on cross-shore profiles and storm surge data at the region. Finally, a Flood Vulnerability Index (FVI) was used for assessing vulnerability according to a scale from very low to very high. The most intense storms were found to occur in the eastern, southeastern, and southern part of the island. More than 60% of storms were classified as weak, while extreme events were found to occur with a frequency of less than 2.5%. Regarding flood hazard and vulnerability, the maximum values of wave run-up were calculated in the southeastern region, but the most vulnerable part was found to be the northwestern region, as the FVI was assessed as very high for weak and extreme events
Assessment of the Coastal Vulnerability to the Ongoing Sea Level Rise for the Exquisite Rhodes Island (SE Aegean Sea, Greece)
The foreseeable acceleration of global sea level rise could potentially
pose a major threat to the natural charm and functional integrity of the
world-renowned tourist coastal attractions of Rhodes Island, as a result
of the anticipated increasing frequency of flooding and erosion events.
Hence, this study aims to determine the most vulnerable segments (in
terms of physical impact) of the Rhodes coastline through the widely
accepted coastal vulnerability index (CVI), applying a combination of
well-known, broadly used approaches and methods. The frequency
distribution of the current CVI along the island’s coastline suggests a
rather worrying high to very high vulnerability of 40%. In addition, a
CVI projection to the end of the 21st century (based on the
Intergovernmental Panel on Climate Change predictive scenarios)
indicates an enhancement of the total vulnerability by 48%, mainly
focused on the majority of the western coastline. Hence, a considerable
number of popular coastal destinations in the island shall remain under
unignorable threat and, therefore, coastal managers and decision-makers
need to hatch an integrated plan to minimize economic and natural
losses, private property damage and tourism infrastructure deterioration
from flooding and erosion episodes, which will most likely be
intensified in the future