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Outer shelf seafloor geomorphology along a carbonate escarpment: The eastern Malta Plateau, Mediterranean Sea

Outer shelf seafloor geomorphology along a carbonate escarpment: The eastern Malta Plateau, Mediterranean Sea
Outer shelf seafloor geomorphology along a carbonate escarpment: The eastern Malta Plateau, Mediterranean Sea
Submarine carbonate escarpments, documented in numerous sites around the world, consist of thick exposures of Mesozoic shallow water carbonate sequences – primarily limestones and dolomites – with reliefs of >1 km and slope gradients of >70°. Whilst most research efforts have focused on the processes that shaped carbonate escarpments into complex and extreme terrains, little attention has been paid to the geomorphology of shelves upslope of carbonate escarpments. In this study we investigate high resolution geophysical, sedimentological and visual data acquired from the eastern Malta Plateau, central Mediterranean Sea, to demonstrate that the outer shelf of a carbonate escarpment is directly influenced by escarpment-forming processes. We document forty eight erosional scars, six long channels and numerous smaller-scale channels, three elongate mounds, and an elongate ridge across the eastern Malta Plateau. By analysing their morphology, seismic character, and sedimentological properties, we infer that the seafloor of the eastern Malta Plateau has been modified by three key processes: (i) Mass movements – in the form of translational slides, spreading and debris flows – that mobilised stratified Plio-Pleistocene hemipelagic mud along the shelf break and that were likely triggered by seismicity and loss of support due to canyon erosion across the upper Malta Escarpment; (ii) NNW-SSE trending sinistral strike-slip deformation in Cenozoic carbonates – resulting from the development of a mega-hinge fault system along the Malta Escarpment since the Late Mesozoic, and SE-NW directed horizontal shortening since the Late Miocene – which gave rise to NW-SE oriented extensional grabens and a NNW-SSE horst; (iii) Flow of bottom currents perpendicular and parallel to the Malta Escarpment, associated with either Modified Atlantic Water flows during sea level lowstands and/or Levantine Intermediate Water flows at present, which was responsible for sediment erosion and deposition in the form of channels and contouritic drifts.
Submarine landslide, Fault, Contouritic drift, Carbonate escarpment, Outer shelf, Malta Plateau
0278-4343
12-27
Micallef, Aaron
608ce404-a7ab-4a9a-bd84-cb6d0515ed39
Georgiopoulou, Aggeliki
1cc90c8c-49e7-4be1-9117-851793dcfe57
Mountjoy, Joshu
e4e94306-5bcd-4517-b34b-de99df70c05a
Huvenne, Veerle A.I.
f22be3e2-708c-491b-b985-a438470fa053
Lo Iacono, Claudio
2ec2b5f4-a134-462b-b8ba-f7bd757040f5
Le Bas, Timothy
f0dbad80-bb38-412c-be77-b8b9faef1854
Del Carlo, Paola
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Otero, Daniel Cunarro
283471f0-ed07-402c-a17a-3e5b40aa8d1a
Micallef, Aaron
608ce404-a7ab-4a9a-bd84-cb6d0515ed39
Georgiopoulou, Aggeliki
1cc90c8c-49e7-4be1-9117-851793dcfe57
Mountjoy, Joshu
e4e94306-5bcd-4517-b34b-de99df70c05a
Huvenne, Veerle A.I.
f22be3e2-708c-491b-b985-a438470fa053
Lo Iacono, Claudio
2ec2b5f4-a134-462b-b8ba-f7bd757040f5
Le Bas, Timothy
f0dbad80-bb38-412c-be77-b8b9faef1854
Del Carlo, Paola
3ca8866a-f0fd-428a-a7d9-2c993976e07f
Otero, Daniel Cunarro
283471f0-ed07-402c-a17a-3e5b40aa8d1a

Micallef, Aaron, Georgiopoulou, Aggeliki, Mountjoy, Joshu, Huvenne, Veerle A.I., Lo Iacono, Claudio, Le Bas, Timothy, Del Carlo, Paola and Otero, Daniel Cunarro (2016) Outer shelf seafloor geomorphology along a carbonate escarpment: The eastern Malta Plateau, Mediterranean Sea. Continental Shelf Research, 131, 12-27. (doi:10.1016/j.csr.2016.11.002).

Record type: Article

Abstract

Submarine carbonate escarpments, documented in numerous sites around the world, consist of thick exposures of Mesozoic shallow water carbonate sequences – primarily limestones and dolomites – with reliefs of >1 km and slope gradients of >70°. Whilst most research efforts have focused on the processes that shaped carbonate escarpments into complex and extreme terrains, little attention has been paid to the geomorphology of shelves upslope of carbonate escarpments. In this study we investigate high resolution geophysical, sedimentological and visual data acquired from the eastern Malta Plateau, central Mediterranean Sea, to demonstrate that the outer shelf of a carbonate escarpment is directly influenced by escarpment-forming processes. We document forty eight erosional scars, six long channels and numerous smaller-scale channels, three elongate mounds, and an elongate ridge across the eastern Malta Plateau. By analysing their morphology, seismic character, and sedimentological properties, we infer that the seafloor of the eastern Malta Plateau has been modified by three key processes: (i) Mass movements – in the form of translational slides, spreading and debris flows – that mobilised stratified Plio-Pleistocene hemipelagic mud along the shelf break and that were likely triggered by seismicity and loss of support due to canyon erosion across the upper Malta Escarpment; (ii) NNW-SSE trending sinistral strike-slip deformation in Cenozoic carbonates – resulting from the development of a mega-hinge fault system along the Malta Escarpment since the Late Mesozoic, and SE-NW directed horizontal shortening since the Late Miocene – which gave rise to NW-SE oriented extensional grabens and a NNW-SSE horst; (iii) Flow of bottom currents perpendicular and parallel to the Malta Escarpment, associated with either Modified Atlantic Water flows during sea level lowstands and/or Levantine Intermediate Water flows at present, which was responsible for sediment erosion and deposition in the form of channels and contouritic drifts.

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Accepted/In Press date: 3 November 2016
Published date: 1 December 2016
Keywords: Submarine landslide, Fault, Contouritic drift, Carbonate escarpment, Outer shelf, Malta Plateau
Organisations: Marine Geoscience

Identifiers

Local EPrints ID: 404075
URI: http://eprints.soton.ac.uk/id/eprint/404075
DOI: doi:10.1016/j.csr.2016.11.002
ISSN: 0278-4343
PURE UUID: 868d3df8-6596-48ad-b375-f3abb7e2296e
ORCID for Veerle A.I. Huvenne: ORCID iD orcid.org/0000-0001-7135-6360

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Date deposited: 19 Dec 2016 17:01
Last modified: 16 Mar 2024 03:38

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Contributors

Author: Aaron Micallef
Author: Aggeliki Georgiopoulou
Author: Joshu Mountjoy
Author: Veerle A.I. Huvenne ORCID iD
Author: Claudio Lo Iacono
Author: Timothy Le Bas
Author: Paola Del Carlo
Author: Daniel Cunarro Otero

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