Seismic coastal uplift and subsidence in Rhodes Island, Aegean Arc: Evidence from an uplifted ancient harbour

Archaeological evidence from a 2400years old harbour, currently about 3m above sea-level, sheds light on an enigmatic sequence of coastal uplift and subsidence along the coasts of Rhodes Island, close to a >4km deep trough marking the east edge of the Aegean Arc. The tectonics of this area are no...

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Published inTectonophysics Vol. 611; pp. 114 - 120
Main Authors Stiros, Stathis C., Blackman, David J.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.01.2014
Subjects
Archaeoseismology
Coastal
Coasts
Crete
Earthquakes
Harbors
Harbours
Historical seismology
Islands
Marine
Radiocarbon dating
Seismic phenomena
Subsidence
Thin-skin tectonics
MED, Aegean Sea
MED, Greece, Rhodes I
Crete
Radiocarbon dating
Archaeoseismology
Historical seismology
Thin-skin tectonics
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Summary:Archaeological evidence from a 2400years old harbour, currently about 3m above sea-level, sheds light on an enigmatic sequence of coastal uplift and subsidence along the coasts of Rhodes Island, close to a >4km deep trough marking the east edge of the Aegean Arc. The tectonics of this area are not clear, because of the absence of major earthquakes in the last 80years, but are likely to be controlled by a combination of shear and compression producing strong earthquakes, some associated with tsunamis and some with thrust-uplifted notches. The latter, up to 6000years old, also show evidence of phases of subsidence. Our study focuses on remains of shipsheds, in particular a ramp used to pull warships out of the water and keep them protected under cover during winter. This ramp was constructed between approximately 250–225BC and some decades later it was repaved, after a major earthquake destroyed the town of Rhodes and most probably the harbour and sheltered ships, as historical evidence reveals. 300years later the harbour was to a great part abandoned because of a coastal uplift. The only reasonable explanation for the ramp reconstruction was to counteract a 1m seismic subsidence at around 220BC or earlier. Several possible explanations can be proposed for the earthquake which produced seismic subsidence alternating with uplift in Rhodes, in a pattern of vertical motions different from that observed in Crete, or other convergent boundaries. •Alternation of coastal uplift and subsidence in the Rhodes Island, Aegean Arc•Coastal subsidence-uplift recorded in remains of an uplifted ancient harbour•Refinement of ancient information for a major earthquake
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ISSN:0040-1951
1879-3266
DOI:10.1016/j.tecto.2013.11.020