2014
DOI: 10.1002/2014gc005248
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The morphology of insular shelves as a key for understanding the geological evolution of volcanic islands: Insights from Terceira Island (Azores)

Abstract: Shelves from volcanic ocean islands result from the competition between two main processes, wave erosion that forms and enlarges them and volcanic progradation that reduces their dimension. In places where erosion dominates over volcanism, shelf width can be used as a proxy for the relative age of the subaerial volcanic edifices and reconstruction of their extents prior to erosion can be achieved. In this study, new multibeam bathymetry and high-resolution seismic reflection profiles are exploited to character… Show more

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Cited by 76 publications
(84 citation statements)
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“…In particular, the infralittoral prograding wedges (IPW; Hernández-Molina et al, 2000), also called submerged depositional terraces (SDTs; Massari and Chiocci, 2006), are seawardprograding sedimentary wedges formed below storm wave base on the WRS, inferred to have accumulated from downwelling storm currents (Hernández-Molina et al, 2000). These features trend parallel to the shore, show a backstepping pattern and commonly occur on narrow and steep shelves, such as on segments of tectonically-controlled continental margins and on the flanks of insular volcanoes (Hernández-Molina et al, 2000;Massari and Chiocci, 2006;Casalbore et al, 2010;Romagnoli et al, 2013a;Quartau et al, 2014). Following Hernández-Molina et al (1994), the IPWs probably accumulated during phases of relative sea-level still-stand or slow rise punctuating the post-LGM transgression.…”
Section: Features Of the Post-glacial Relative Sea-level Risementioning
confidence: 99%
“…In particular, the infralittoral prograding wedges (IPW; Hernández-Molina et al, 2000), also called submerged depositional terraces (SDTs; Massari and Chiocci, 2006), are seawardprograding sedimentary wedges formed below storm wave base on the WRS, inferred to have accumulated from downwelling storm currents (Hernández-Molina et al, 2000). These features trend parallel to the shore, show a backstepping pattern and commonly occur on narrow and steep shelves, such as on segments of tectonically-controlled continental margins and on the flanks of insular volcanoes (Hernández-Molina et al, 2000;Massari and Chiocci, 2006;Casalbore et al, 2010;Romagnoli et al, 2013a;Quartau et al, 2014). Following Hernández-Molina et al (1994), the IPWs probably accumulated during phases of relative sea-level still-stand or slow rise punctuating the post-LGM transgression.…”
Section: Features Of the Post-glacial Relative Sea-level Risementioning
confidence: 99%
“…In detail, the near-shore terrace is very similar in size and depth of its edge to present-day examples of prograding wedges observed on others insular shelves along the Mediterranean area, such as in the other Aeolian Islands [22] and the Pontine Archipelago [18,30] as well as along tectonically-controlled continental margins of Southern Iberia (infralittoral prograding wedge, [31]) and Southern Italy [32]. The depth range (10-25 m) of these edges is, in fact, compatible with the estimated present-day, local storm-wave base level in the central and western Mediterranean [20,21,33], whereas it is markedly lower with respect to the edge of similar features observed around oceanic islands, where the storm-base level is deeper [13,14,23]. Based on such evidences and considering that the present-day level has been attained since ca.…”
Section: Late-quaternary Evolution Of Insular Shelf and Overlying Submentioning
confidence: 68%
“…Until now, most of these studies focused on large-scale instability processes affecting volcanic flanks, mainly in relation to their associated tsunamigenic potential and geohazard assessment [9][10][11][12]. Only in the last years, some papers paid attention to the shallow-water areas around volcanic islands, where the morphological characteristics of the shelf (i.e., shelf width and depth of its edge) can be used: (a) to reconstruct the original extension of early volcanic centres in the development of the island, including deeply eroded submarine cones, with respect to subaerial main centres, and (b) to assess the vertical movements of the volcanic edifice that have occurred after the shelf formation due to erosion [13][14][15][16][17]. Regarding this, another geomorphological/stratigraphic marker for relative paleo-sea level reconstruction and assessment of vertical movement is the edge depth of prograding sedimentary wedges, forming morphological terraces (Submarine Depositional Terraces, SDT hereafter, [18][19][20]).…”
Section: Introductionmentioning
confidence: 99%
“…1, e.g. Self 1976;Calvert et al 2006;Gertisser et al 2010;Quartau et al 2014;Zanon & Pimentel 2015). The oldest volcano of Terceira is Cinco Picos (>401 ka; Hildenbrand et al 2014) that together with Guilherme 592 L.V.…”
Section: G E O L O G I C a L S E T T I N G A N D S A M P L I N G S T mentioning
confidence: 99%