OAR@UM Collection:https://www.um.edu.mt/library/oar/handle/123456789/114772026-04-27T16:24:45Z2026-04-27T16:24:45ZMicrozonation in the Mġarr harbour area (Gozo) : case study at the Fort Chambray areahttps://www.um.edu.mt/library/oar/handle/123456789/772242021-06-15T06:24:22Z2015-01-01T00:00:00ZTitle: Microzonation in the Mġarr harbour area (Gozo) : case study at the Fort Chambray area
Abstract: Formed by a series of strike-slip faults south of the African-Eurasian tectonic plate,
the central Mediterranean is subject to a high amount of seismic activity. As a result, seismic
events such as earthquakes and volcanic eruptions could trigger secondary effects such as
landslides and infrastructural damage. The Nakamura method of seismic site recording
(namely, the Horizontal-to-Vertical Spectral Ratio [HVSR] method) was identified by the
European SESAME project in order to better predict and identify particularly vulnerable
areas on the continent. In the Maltese Islands, the sedimentary geological formations have
recently been studied by geophysical HVSR measurements, with particular focus on the
North-Western horst and graben structures. These were done in order to study the vibrational
effects of the unconsolidated soft Blue Clay rock on the overlying hard Upper Coralline
Limestone as well as identify the possible types of landslides that could locally occur. This
microzonation study took place in order to fill the gap in seismic site response knowledge in
the economically vital Mġarr Harbour area, on the South of the Gozitan island. A total of 41
data points were recorded around the built-up Fort Chambray plateau using the Tromino®
seismometer, both on Upper Coralline Limestone and Blue Clay. The results were then
processed and HVSR graphs extracted, showing a correlation between the geology and its
recorded fundamental frequency. The average frequency values of Upper Coralline
Limestone and Blue Clay were 1.5Hz and 3.5Hz respectively. Although more studies around
the area are necessary in order to compile a stronger basis of seismic site response
information, the awareness of possible rock-falls as a result of earthquake triggers is lacking
to date and this also requires addressing.
Description: B.SC.(HONS)EARTH SYSTEMS2015-01-01T00:00:00ZDepartment of Rural Sciences & Food Systems 2015https://www.um.edu.mt/library/oar/handle/123456789/155052021-03-11T12:43:58Z2015-01-01T00:00:00ZTitle: Department of Rural Sciences & Food Systems 2015
Abstract: A list of the dissertations submitted to the Institute of Earth Systems, Department of Rural Sciences & Food Systems in 20152015-01-01T00:00:00Z