The submerged paleolandscape of the Maltese Islands: Morphology, evolution and relation to Quaternary environmental change
The submerged paleolandscape of the Maltese Islands: Morphology, evolution and relation to Quaternary environmental change
After the end of the Last Glacial Maximum, 450 km2 of former terrestrial and coastal landscape of the Maltese Islands was drowned by the ensuing sea level rise. In this study we use high resolution seafloor data (multibeam echosounder data, seismic reflection profiles, and Remotely Operated Vehicle imagery) and bottom samples to reconstruct ~ 300 km2 of this submerged Maltese paleolandscape. The observed paleolandscape is exceptionally well preserved and comprises former coastal landforms – (i) fault-related escarpments, (ii) paleoshore platforms and associated shorelines, (iii) paleoshoreline deposits, and (iv) mass movement deposits – and former terrestrial landforms – (v) river valleys, (vi) alluvial plains, (vii) karstified limestone plateaus, and (viii) sinkholes. These elements indicate that the paleolandscape has been primarily shaped by tectonic activity combined with fluvial, coastal, slope instability and karstic processes; these are the same processes the shaped the current terrestrial and coastal landscape. By correlating the identified landforms with the timing of known changes in sea level during the last glacial cycle, we infer that the alluvial plains and the shallowest limestone plateaus had up to 100 kyr to develop, whereas the paleoshoreline deposits are likely to have formed between 28 kyr and 14 kyr. The most prominent paleoshore platforms, shorelines and river valleys were generated between 60 kyr and 20 kyr. Fluvial erosion is likely to have been prevalent during periods of low sea level (Last Glacial Maximum and stadial conditions during MIS 3), whereas karst processes should have been more effective during warm and humid interstadial periods. Our results have implications for improving the characterization of past environments and climates, as well as providing a much needed background for prehistoric and geoarcheological research in the central Mediterranean region.
submerged paleolandscape, seafloor mapping, Quaternary, Maltese Islands, Mediterranean, sea level change
129-147
Micallef, Aaron
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Foglini, Federica
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Le Bas, Timothy
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Angeletti, Lorenzo
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Maselli, Vittorio
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Pasuto, Alessandro
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Taviani, Marco
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1 January 2013
Micallef, Aaron
608ce404-a7ab-4a9a-bd84-cb6d0515ed39
Foglini, Federica
1bd1e924-5a80-4b89-8eaa-5564a9248df4
Le Bas, Timothy
f0dbad80-bb38-412c-be77-b8b9faef1854
Angeletti, Lorenzo
964c196a-778b-4f46-a303-36177cfeb4a4
Maselli, Vittorio
efb64b59-8596-4bdf-abff-070be3ad26dc
Pasuto, Alessandro
16fb8cc8-71a2-4add-a982-d41bf78d7ebe
Taviani, Marco
1b0f2306-6270-4632-b3c6-78e8720b59cd
Micallef, Aaron, Foglini, Federica, Le Bas, Timothy, Angeletti, Lorenzo, Maselli, Vittorio, Pasuto, Alessandro and Taviani, Marco
(2013)
The submerged paleolandscape of the Maltese Islands: Morphology, evolution and relation to Quaternary environmental change.
Marine Geology, 335, .
(doi:10.1016/j.margeo.2012.10.017).
Abstract
After the end of the Last Glacial Maximum, 450 km2 of former terrestrial and coastal landscape of the Maltese Islands was drowned by the ensuing sea level rise. In this study we use high resolution seafloor data (multibeam echosounder data, seismic reflection profiles, and Remotely Operated Vehicle imagery) and bottom samples to reconstruct ~ 300 km2 of this submerged Maltese paleolandscape. The observed paleolandscape is exceptionally well preserved and comprises former coastal landforms – (i) fault-related escarpments, (ii) paleoshore platforms and associated shorelines, (iii) paleoshoreline deposits, and (iv) mass movement deposits – and former terrestrial landforms – (v) river valleys, (vi) alluvial plains, (vii) karstified limestone plateaus, and (viii) sinkholes. These elements indicate that the paleolandscape has been primarily shaped by tectonic activity combined with fluvial, coastal, slope instability and karstic processes; these are the same processes the shaped the current terrestrial and coastal landscape. By correlating the identified landforms with the timing of known changes in sea level during the last glacial cycle, we infer that the alluvial plains and the shallowest limestone plateaus had up to 100 kyr to develop, whereas the paleoshoreline deposits are likely to have formed between 28 kyr and 14 kyr. The most prominent paleoshore platforms, shorelines and river valleys were generated between 60 kyr and 20 kyr. Fluvial erosion is likely to have been prevalent during periods of low sea level (Last Glacial Maximum and stadial conditions during MIS 3), whereas karst processes should have been more effective during warm and humid interstadial periods. Our results have implications for improving the characterization of past environments and climates, as well as providing a much needed background for prehistoric and geoarcheological research in the central Mediterranean region.
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Published date: 1 January 2013
Keywords:
submerged paleolandscape, seafloor mapping, Quaternary, Maltese Islands, Mediterranean, sea level change
Organisations:
Marine Geoscience
Identifiers
Local EPrints ID: 347758
URI: http://eprints.soton.ac.uk/id/eprint/347758
ISSN: 0025-3227
PURE UUID: 2a68842e-8c67-4a25-8f5f-2f233e06862c
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Date deposited: 29 Jan 2013 17:17
Last modified: 14 Mar 2024 12:52
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Author:
Aaron Micallef
Author:
Federica Foglini
Author:
Timothy Le Bas
Author:
Lorenzo Angeletti
Author:
Vittorio Maselli
Author:
Alessandro Pasuto
Author:
Marco Taviani
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