Your search keyword '"Francesco Latino Chiocci"' showing total 40 results

1. Widespread mass-wasting processes off NE Sicily (Italy): insights from morpho-bathymetric analysis

Author

Romano Clementucci, Eleonora Martorelli, Daniele Casalbore, Alessandro Bosman, Francesco Latino Chiocci, and Domenico Ridente

Subjects

multibeam bathymetry, 010504 meteorology & atmospheric sciences, biology, Geology, Ocean Engineering, Morpho, Mass wasting, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Paleontology, Bathymetry, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

The NE Sicilian continental margin is largely affected by canyons and related landslide scars. Two main types of submarine canyons are recognizable: The first type carves the shelf up to depths

Published

2020

2. Benthic Foraminiferal Assemblages and Rhodolith Facies Evolution in Post-LGM Sediments from the Pontine Archipelago Shelf (Central Tyrrhenian Sea, Italy)

Author

Letizia Di Bella, Michela Ingrassia, Virgilio Frezza, Letizia Argenti, Eleonora Martorelli, Andrea Bonifazi, and Francesco Latino Chiocci

Subjects

010506 paleontology, 010504 meteorology & atmospheric sciences, benthic foraminifera, Rhodolith, 01 natural sciences, Foraminifera, Paleontology, paleoenvironmental reconstruction, 0105 earth and related environmental sciences, geography, QE1-996.5, Tyrrhenian sea, geography.geographical_feature_category, coralline red algae, biology, Last Glacial Maximum, Geology, biology.organism_classification, late quaternary, Pontine Archipelago, Cassidulina, Benthic zone, Facies, Archipelago, General Earth and Planetary Sciences, Quaternary

Abstract

The seabed of the Pontine Archipelago (Tyrrhenian Sea) insular shelf is peculiar as it is characterized by a mixed siliciclastic–carbonate sedimentation. In order to reconstruct the Late Quaternary paleoenvironmental evolution of the Pontine Archipelago, this study investigates the succession of facies recorded by two sediment cores. For this purpose, benthic foraminifera and rhodoliths assemblages were considered. The two cores (post-Last Glacial Maximum in age) were collected at 60 (CS1) and 122 m (Caro1) depth on the insular shelf off Ponza Island. The paleontological data were compared with seismo-stratigraphic and lithological evidence. The cores show a deepening succession, with a transition from a basal rhodolith-rich biodetritic coarse sand to the surface coralline-barren silty sand. This transition is more evident along core Caro1 (from the bottom to the top), collected at a deeper water depth than CS1. In support of this evidence, along Caro1 was recorded a fairly constant increase in the amount of planktonic foraminiferal and a marked change in benthic foraminiferal assemblages (from Asterigerinata mamilla and Lobatula lobatula assemblage to Cassidulina carinata assemblage). Interestingly, the dating of the Caro1 bottom allowed us to extend to more than 13,000 years BP the rhodolith record in the Pontine Archipelago, indicating the possible presence of an active carbonate factory at that time.

Published

2021

3. Small-scale slope instability on the submarine flanks of insular volcanoes. The case-study of the Sciara del Fuoco slope (Stromboli)

Author

Luca Verrucci, Paolo Tommasi, Flavio Passeri, Francesco Latino Chiocci, Claudia Romagnoli, Alessandro Bosman, Daniele Casalbore, and Daniele Casalbore, Flavio Passeri, Paolo Tommasi, Paolo Verrucci, Alessandro Bosman, Claudia Romagnoli, Francesco Latino Chiocci

Subjects

geotechnical modelling, 010504 meteorology & atmospheric sciences, Lava, Pyroclastic rock, Time-lapse surveys, 010502 geochemistry & geophysics, 01 natural sciences, Slope stability, Stromboli, Multibeam bathymetry, Slope stability, Tsunamigenic landslide, Lava delta, Time-lapse surveys, Stromboli, Geotechnical modelling, multibeam bathymetry, slope stability, tsunamigenic landslide, lava delta, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Submarine, Landslide, Volcano, Subaerial, General Earth and Planetary Sciences, Geohazard, Seismology, Geology

Abstract

Small-scale landslides affecting insular and coastal volcanoes are a relevant geohazard for the surrounding infrastructures and communities, because they can directly impact them or generate local but devastating tsunamis, as demonstrated by several historical accounts. Here, a review of such landslides and associated predisposing/triggering mechanisms is presented, with particular reference to the submarine volcanic flanks. We take into account, as a case study, the instability phenomena occurring on the Sciara del Fuoco (SdF, hereafter), a 2-km wide subaerial-submarine collapse scar filled by volcaniclastic products, which form the NW flank of the Stromboli volcano. Because of its steepness (> 30°) and the high amount of loose volcanic material funneled from the summit crater towards the sea, the submarine part of the SdF is prone to instability phenomena recurring at different spatial and temporal scale. Particularly, landsides with a volume of some millions of cubic meters, as the 2002 tsunamigenic landslide, can repeatedly affect the submarine slope. Based on the integration of 11 years (2002–2013) of morpho-bathymetric monitoring of the SdF with geotechnical characterization of volcaniclastic and lava flow materials, stability analyses of the subaerial and submarine slope and previous literature studies, we analyze the role of different triggering mechanisms in controlling the occurrence and size of submarine slope failures at the SdF, such as dykes intrusion as occurred in 2002 or the emplacement of a large delta as occurred in 2007.

Published

2020

4. Mid-to-late Holocene upper slope contourite deposits off Capo Vaticano (Mediterranean Sea): High-resolution record of contourite cyclicity, bottom current variability and sandy facies

Author

Daniele Casalbore, Virgilio Frezza, Pierpaolo Falco, Marco Mancini, Alessandro Bosman, Biagio Giaccio, Federico Falcini, Gemma Ercilla, Eleonora Martorelli, Aida Maria Conte, Letizia Di Bella, Giovanni Gaglianone, Francesco Latino Chiocci, Agencia Estatal de Investigación (España), and European Commission

Subjects

010504 meteorology & atmospheric sciences, Bi-gradational sequences, Moat, 010502 geochemistry & geophysics, Oceanography, m-Levantine Intermediate water, 01 natural sciences, law.invention, Sedimentary depositional environment, Paleontology, Mediterranean sea, Geochemistry and Petrology, law, Radiocarbon dating, moat, Holocene, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, sandy contourites, Continental shelf, bi-gradational sequences, Sediment, m-Levantine Intermediate Water, Geology, Contourite, Facies, Sandy contourites

Abstract

19 pages, 15 figures, 2 tables, supplementary material https://doi.org/10.1016/j.margeo.2020.106372.-- Data availability: The datasets analysed during the current study are available from the corresponding author on reasonable request, The upper continental slope offshore Capo Vaticano (southern Tyrrhenian Sea) is characterized by a contourite depositional system with well-developed elongated sediment drifts. This system is related to a northward paleo-bottom current, similar to the present-day modified-Levantine Intermediate Water (modified-LIW) flowing from the Messina Strait. In this work, we show results from an integrated analysis of descriptive oceanography, high-resolution seismic profiles and core data (i.e., grain size, foraminiferal assemblages, tephrostratigraphy and AMS radiocarbon dating) collected from the crest and moat sectors of drift deposits. The studied succession formed since the mid Holocene, under the action of the modified-LIW and the stratigraphic architecture indicates an upslope migration of the moat and rather stable position of the crest sector. Grain-size features recorded from two sediment cores indicate the occurrence of a succession of complete bi-gradational sand-rich contourite sequences. Sandy facies were observed both as lag deposits formed in active moat channel and as coarser intervals of bi-gradational sequences forming drift deposits close to its crest. Their occurrence would highlight that upper slope environments impacted by intermediate water masses and proximal to sandy sources may represent favorable settings for accumulation of sandy sediment. The moat sector is characterized by a more complex stratigraphic record, where either moat sedimentation or lateral deposition of finer sediment occur, suggesting that further investigation is required to better understand this complex element of contourite systems. Based on available age information, some of the bi-gradational sequences probably formed during the Dark Age Cold Period, providing example of a small-scale cyclicity of contourite deposition, likely related to short-term (possibly multicentennial scale) fluctuations of the paleo modified-LIW. According to age constraints and analysis of foraminiferal assemblages, these fluctuations were likely governed by climate variations, with a weaker activity during warmer periods and faster currents during colder events, Core LGT5 was collected during the Gioia77 cruise funded by the Eurofleets2 Project. With the funding support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S), of the Spanish Research Agency (AEI)

Published

2021

5. Submarine and subaerial morphological changes associated with the 2014 eruption at Stromboli island

Author

Francesco Latino Chiocci, Nicola Casagli, Federico Di Traglia, Alessandro Bosman, Daniele Casalbore, Claudia Romagnoli, Casalbore, Daniele, Di Traglia, Federico, Bosman, Alessandro, Romagnoli, Claudia, Casagli, Nicola, and Chiocci, Francesco Latino

Subjects

Morphological monitoring, LiDAR, 010504 meteorology & atmospheric sciences, Lava, Science, Pyroclastic rock, 010502 geochemistry & geophysics, 01 natural sciences, lava delta, slope failure, repeated bathymetric surveys, digital elevation models, PLÉIADES, morphological monitoring, Repeated bathymetric surveys, Effusive eruption, Breccia, Bathymetry, Slope failure, Petrology, 0105 earth and related environmental sciences, geography, repeated bathymetric survey, geography.geographical_feature_category, Digital elevation models, Lava delta, PLÉI-ADES, Volcano, digital elevation model, Subaerial, General Earth and Planetary Sciences, Accretion (geology), Geology

Abstract

Stromboli is an active insular volcano located in the Southern Tyrrhenian Sea and its recent volcanic activity is mostly confined within the Sciara del Fuoco (SdF, hereafter), a 2-km wide subaerial–submarine collapse scar, which morphologically dominates the NW flank of the edifice. In August-November 2014, an effusive eruption occurred along the steep SdF slope, with multiple lava flows reaching the sea. The integration of multisensor remote sensing data, including lidar, photogrammetric, bathymetric surveys coupled with SAR amplitude images collected before and after the 2014 eruption enabled to reconstruct the dynamics of the lava flows through the main morphological changes of the whole SdF slope. Well-defined and steep-sided ridges were created by lava flows during the early stages of the eruption, when effusion rates were high, favoring the penetration into the sea of lava flows as coherent bodies. Differently, fan-shaped features were emplaced during the declining stage of the eruption or in relation to lava overflows and associated gravel flows, suggesting the prevalence of volcaniclastic breccias with respect to coherent lava flows. The estimated volume of eruptive products emplaced on the SdF slope during the 2014 eruption, accounts for about 3.7 × 106 m3, 18% of which is in the submarine setting. This figure is different with respect to the previous 2007 eruption at Stromboli, when a large lava submarine delta formed. This discrepancy can be mainly related to the different elevation of the main vents feeding lava flows during the 2007 eruption (around 400 m) and the 2014 eruption (around 650 m). Besides slope accretion, instability processes were detected both in the subaerial and submarine SdF slope. Submarine slope failure mobilized at least 6 × 105 m3 of volcaniclastic material, representing the largest instability event detected since the 2007 lava delta emplacement.

Published

2021

6. Megafauna distribution along active submarine canyons of the central Mediterranean: Relationships with environmental variables

Author

Martina Pierdomenico, Angela Carluccio, Daniele Casalbore, Porzia Maiorano, Frine Cardone, Gianfranco D'Onghia, and Francesco Latino Chiocci

Subjects

0106 biological sciences, Canyon, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 010604 marine biology & hydrobiology, Fauna, Geology, Submarine canyon, submarine canyons, Aquatic Science, megafauna-habitat relationships, Mediterranean Sea, 01 natural sciences, Spatial heterogeneity, Oceanography, Benthic zone, Megafauna, Species richness, Sediment transport, 0105 earth and related environmental sciences

Abstract

The tectonically-controlled margins off Southern Italy are carved by several shelf-indenting submarine canyons that are periodically flushed by sedimentary gravity flows. In this study, the distribution of benthic and demersal megafauna within the thalweg of some of these canyons (i.e. the Gioia-Petrace and Caulonia Marina canyons in the Tyrrhenian and the Ionian Calabrian margins, respectively, and the Sant’Agata, San Gregorio, Tremestieri and Messina canyons in the Messina Strait) was studied using Remotely Operated Vehicle video transects. The relationships between fauna distribution and environmental conditions (i.e. seafloor type, depth, slope, aspect and canyon system) extracted from video footage and bathymetric data were assessed to identify the main physical drivers influencing the megafaunal assemblages within active submarine canyons. These latter have their heads in shallow water, so representing highly dynamic environments affected by present-day sediment transport. Hierarchical Cluster Analysis allowed to distinguish seven different assemblages occurring in the study areas. PERMANOVA analysis showed significant differences among species groups associated to different seafloor types, depth ranges and canyon systems. Distance-based linear modeling (DistLM) identified the canyon system as the main factor explaining the variability of the megafaunal assemblages across the study areas. In the Gioia and Petrace canyons, both characterized by homogenous fine-grained sediment, the assemblages were mainly dominated by Polychaeta Sabellidae and Ceriantharia. The almost total absence of sessile fauna at the canyons’ head was interpreted as an effect of a strong physical disturbance due to the impact of sedimentary flows. In the canyons of the Messina Strait, the presence of more varied seafloor encompassing fine and coarse sediment along with an higher spatial heterogeneity of physical disturbance, determined more diversified faunal assemblages, featuring species associated with hard and soft substrates. More in detail, in the Sant’Agata, San Gregorio and Messina canyons the colonization of cobbles and boulders by slow-growing species vulnerable to physical disturbance such as the gorgonians Acanthogorgia hirsuta and Swiftia dubia was recorded. For the Tremestieri canyons a stronger impact by sedimentary flows was reflected both by a very high abundance of land-based litter and the lowest values of species richness. Interactions between megafauna and marine litter, whose widespread occurrence was recorded on the floor of all these canyons, have been also presented and discussed. Although in several cases litter caused entanglement of benthic species, the anthropogenic debris was also used as growing substrate or shelter by some invertebrates and fishes, suggesting complex fauna-litter interactions that should be better explored. Overall, the large variability in morphology and seafloor characteristics across the studied canyons is reflected on the variability of megafauna assemblages, suggesting a strong influence of the physical conditions specific of each canyon in controlling fauna distribution.

Published

2019

7. Serreta 1998–2001 submarine volcanic eruption, offshore Terceira (Azores): Characterization of the vent and inferences about the eruptive dynamics

Author

Andrea Sposato, José Pacheco, Francesco Latino Chiocci, David Casas, Gemma Ercilla, Eleonora Martorelli, Adriano Pimentel, Belén Alonso, Ministerio de Economía y Competitividad (España), and European Commission

Subjects

010504 meteorology & atmospheric sciences, Lava, Submarine volcanism, Terceira, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Serreta Ridge, Geochemistry and Petrology, submarine volcanism, 0105 earth and related environmental sciences, multibeam bathymetry, geography, cone formation, geography.geographical_feature_category, Vulcanian eruption, lava balloons, Submarine, Seafloor spreading, Submarine eruption, Geophysics, Volcano, Cone formation, Submarine pipeline, Multibeam bathymetry, Lava balloons, Volcanic cone, Geology

Abstract

14 pages, 8 figures, 3 tables, High-resolution bathymetric data and seafloor sampling were used to characterize the most recent volcanic eruption in the Azores region, the 1998–2001 Serreta submarine eruption. The vent of the eruption is proposed to be an asymmetric topographic high, composed of two coalescing volcanic cones, underlying the location where lava balloons had been observed at the sea surface during the eruption. The volcanic products related to the 1998–2001 eruption are constrained to an area of ~0.5 km around the proposed vent position. A submarine Strombolian-style eruption producing basaltic lava balloons, ash and coarse scoriaceous materials with limited lateral dispersion led to the buildup of the cones. The 1998–2001 Serreta eruption shares many similarities with other intermediate-depth lava balloon-forming eruptions (e.g., the 1891 eruption offshore Pantelleria and the 2011–2012 eruption south of El Hierro), revealing the particular conditions needed for the production of this unusual and scarcely documented volcanic product., Project FAUCES (CTM2015-65461-C2-1-R; MINECO/FEDER, UE) provided financial support for the preparation of the article

Published

2018

8. Failure dynamics of landslide scars on the lower continental slope of the Tyrrhenian Calabrian margin: insights from an integrated morpho-bathymetric and seismic analysis

Author

Eleonora Martorelli, Alessandro Bosman, Daniele Casalbore, Francesco Latino Chiocci, and Eleonora Morelli

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, Continental shelf, Geology, Ocean Engineering, Landslide, Morpho, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Seismic analysis, Margin (machine learning), Bathymetry, Geomorphology, 0105 earth and related environmental sciences, Water Science and Technology

Published

2018

9. Morpho-bathymetric and seismo-stratigraphic analysis of the insular shelf of Salina (Aeolian archipelago) to unveil its Late-Quaternary geological evolution

Author

Daniele Casalbore, Alessandro Ricchi, Francesco Latino Chiocci, Rui Quartau, Claudio Antonio Tranne, Alessandro Bosman, Franco Ricci Lucchi, Claudia Romagnoli, Romagnoli, C., Casalbore, D., Ricchi, A., Lucchi, F., Quartau, R., Bosman, A., Tranne C., A., and Chiocci F., L.

Subjects

010504 meteorology & atmospheric sciences, sea-level fluctuation, insular shelves, Volcanism, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Paleontology, coastal cliff, Geochemistry and Petrology, 0105 earth and related environmental sciences, multibeam bathymetry, geography, geography.geographical_feature_category, Multibeam bathymetry Insular shelves Coastal cliff Sea-level fluctuation Volcanic island, Geology, Subsidence, Coastal erosion, volcanic island, Volcano, Subaerial, Submarine pipeline, Radiometric dating, Quaternary

Abstract

The distribution and morphological characteristics of the shelves around Salina Island have been analyzed and integrated with observations from onshore geological field studies in order to improve knowledge about its evolution, and to demonstrate how shelf width/depth can be used as proxies for reconstructing the development of the volcanic edifice. Insular shelves form essentially through marine erosion of volcanic centres during stages of reduced or inactive volcanism, and are representative of their original extension. Shelves having larger widths (commonly > 1000 m) and deeper edges (over 125 m depth) experienced wave erosion during successive cycles of sea-level fluctuations and subsidence after their formation, thus being indicative of a relatively older age of the eroded volcanic centres. Accordingly, we document offshore Salina the occurrence of presently submerged and largely dismantled volcanic centres (namely Pizzo Capo North and Fossa delle Felci South) predating the oldest subaerial products exposed on the adjacent coastal sectors. These offshore centres have subsided after their erosion and are no more documented on land. Furthermore, the finding of the largest and deepest shelf around the subaerial remnants of Pizzo di Corvo volcanic edifice allows relating it to an earlier stage of evolution of Salina, shedding light on contradictory radiometric ages on land. Narrower shelves (commonly < 1000 m) indicate a lower evolutionary maturity with respect to the larger ones; they are, in fact, formed along the sectors of the island where younger volcanic products are exposed, such as to the north and south of Monte dei Porri. The depths of the shelf edges, mostly at - 110 m (in the areas not affected by later mass-wasting), suggest that these coastal sectors were relatively stable or even slightly uplifted after erosion during Last Glacial Maximum. Moreover, several interacting factors (such as lithology of volcanic products, fetch and exposure to prevailing storms, degree of submarine erosion, relative sea level changes) have been taken into account to explain the morphological setting of the different shelf and coastal sectors of Salina. On the whole, our results show the importance of integrated field and marine studies to unravel the geological evolution of insular volcanoes and to obtain inferences on their vertical mobility.

Published

2018

10. Living and dead foraminiferal assemblages from an active submarine canyon and surrounding sectors: the Gioia Canyon system (Tyrrhenian Sea, Southern Italy)

Author

Di Bella Letizia, Porretta Roberta, Pierdomenico Martina, Martorelli Eleonora, and Francesco Latino Chiocci

Subjects

seafloor environmental characterization, Canyon, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, Terrigenous sediment, Continental shelf, Sediment, Submarine canyon, submarine canyons, benthic foraminifers, Gulf of Gioia, Aquatic Science, 010502 geochemistry & geophysics, Oceanography, biology.organism_classification, 01 natural sciences, Cassidulina, Benthic zone, Sedimentary rock, Geology, 0105 earth and related environmental sciences

Abstract

Living (rose Bengal stained) and dead benthic foraminiferal assemblages were studied from 23 stations located between 60 and 670 m depth along the Gioia Canyon and the adjacent continental shelf and slope (Southern Tyrrhenian Sea). The aim of this study is to investigate the relationships among sedimentary processes, hydrological patterns and benthic foraminiferal distribution, in a highly dynamic environment. High sedimentation rates on the shelf and occasional turbidity flows along the canyon, lead to unstable environmental conditions at the seafloor that reflect on the microbenthic community influencing faunal density, diversity, species composition and distribution inside the sediment. The foraminiferal distribution seems to be controlled by sedimentary processes, nutrient supply and organic matter recycling, which in turn are strongly controlled by the seasonal variability of riverine inputs and current dynamics in the Gulf of Gioia. From the inner shelf to the upper continental slope (550 m depth), the living foraminiferal assemblage is dominated by agglutinated taxa, likely favored by the high terrigenous supply. Frequent eutrophic taxa (Valvulineria bradyana and Nonionella turgida) tolerant high turbidity (Leptohalysis scottii,) and low oxygen (Bolivina spp. and Bulimina spp.) are recorded on the edge of the inner shelf, where channeling, deposition of coastal deposits and occasional sediment gravity flows occur. In the outer sector of the shelf a turnover of species is observed; L. scottii replaced by the opportunistic species Reophax scorpiurus, and taxa indicative of high energy conditions (Cassidulina spp.) become dominant in association with mesotrophic species like Globocassidulina subglobosa. Along the continental slope, lower sedimentation rates and more stable environmental conditions support richer and more diversified foraminiferal assemblage. The abundance of Bulimina marginata indicates eutrophic conditions at the shallower station (300 m depth) whereas at greater depth (550 m) typical open slope species dominate (Gyroidina spp., Uvigerina mediterranea). Within the Gioia Canyon, benthic assemblage indicates environmental conditions similar to those observed in other Mediterranean and extra-Mediterranean canyons. The assemblage is characterized by eutrophic and low oxygen taxa (Bolivina spp., Bulimina spp.) in relation to periodical fluxes of sediment and organic matter. Similar relationships arise from the analysis of dead foraminiferal assemblages. However, the comparison between living and dead faunas highlight compositional and structural changes related to taphonomic processes.

Published

2017

11. Morpho-acoustic characterization of a shallow-water mud volcano offshore Scoglio d'Affrica (Northern Tyrrhenian Sea) responsible for a violent gas outburst in 2017

Author

Roberta Ivaldi, Sabina Bigi, Eleonora Martorelli, Daniele Casalbore, Francesco Latino Chiocci, Maurizio Demarte, Michela Ingrassia, Stan E. Beaubien, and Martina Pierdomenico

Subjects

Morphology, Tuscan Archipelago, 010504 meteorology & atmospheric sciences, Multibeam, Geology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Seafloor spreading, Paleontology, Waves and shallow water, Tectonics, Impact crater, Geochemistry and Petrology, mud volcano, gas outburst, morphology, multibeam, tuscan archipelago, Breccia, Gas outburst, Submarine pipeline, Bathymetry, Mud volcano, 0105 earth and related environmental sciences

Abstract

A violent gas outburst occurred offshore the Scoglio d'Affrica islet (Tuscan Archipelago, Northern Tyrrhenian Sea) on March 16th 2017, with local fishermen observing columns of dirty water rising up to 10 m above the sea surface. The integration of video footage and dissolved CH4 measurements collected 5 days after the event with high-resolution multibeam data collected 4 months later, allowed us to characterize the source area of the outburst, corresponding to a shallow-water mud volcano. The mud volcano covers an area of ca. 170,000 m2, has a vertical relief of ca. 30 m with respect to the surrounding seafloor and an estimated volume of ca. 1 × 106 m3, based on bathymetric reconstruction. The elongated NNW-SSE shape of the mud volcano is compatible with local structural trends, indicating a tectonic control for its development. The mud volcano is made up of two mounds whose tops are located at a depth of ca. 10 m. The southern mound was responsible for the 2017 outburst, as testified by a 15–20 m wide circular crater on its summit where a large amount of mud breccia and diffuse seepage from small pockmarks were observed in video footage . The flanks of the mud volcano are steep and characterized in the upper part by a hummocky morphology and multiple sediment flows on the western flank. The characterization of the mud volcano and the deposits associated with the 2017 gas outburst provides insight into seafloor-shaping processes linked to fluid seepage in shallow-water sectors. This is a particularly relevant issue considering both the paucity of studies on shallow-water mud volcanoes as well as the hazard associated with violent gas outbursts in such settings, as witnessed by the March 16th 2017 event.

Published

2020

12. A multidisciplinary approach to the study of insular environments: the 1st Summer School on Geomorphology, Ecology, and Marine Biology in the Tremiti Islands (Southern Adriatic Sea, Puglia, Italy)

Author

Andrea Marassich, Giorgio Paglia, Luisa Bergamin, Enrico Miccadei, Gianluca Esposito, Francesco Cerrone, Carmela Nolè, Cristiano Carabella, Martina Mazzetti, Marcello Buccolini, Elena Romano, Silvia Mecacci, Daniela Federico, Francesco Latino Chiocci, Roberto d’Arielli, Vania Mancinelli, Valerio Piattelli, and Eva Salvati

Subjects

lcsh:Maps, tremiti islands, summer school, 010504 meteorology & atmospheric sciences, Ecology, Ecology (disciplines), Geography, Planning and Development, marine biology, geomorphology, Marine Biology (journal), 010502 geochemistry & geophysics, 01 natural sciences, scientific diving, Geography, Multidisciplinary approach, lcsh:G3180-9980, Earth and Planetary Sciences (miscellaneous), ecology, Tremiti Islands, Geomorphology, 0105 earth and related environmental sciences

Abstract

This paper is the outcome of the 1st Summer School on Geomorphology, Ecology, and Marine Biology in insular environments, focused on the advanced and multidisciplinary methods for the scientific investigation of marine coastal areas. It was held at Tremiti Islands, a significant laboratory for geomorphological, biological, and ecological studies because of its dynamic interaction between geodiversity and biodiversity, which makes it an ideal place for scientific research and geotourism. Landscape information was collected during field trips, while practical activities were finalized to sampling sediments and data collection of hard bottom assemblages. The map is the result of a multidisciplinary analysis incorporating geomorphological field observations and advanced methods applicable for ecological and environmental research, supported by scientific diving. This work represents a useful tool for the dissemination of environmental knowledge of the area and for understanding the relationships between landscape and natural heritage through modern and environmentally aware tourism.

Published

2020

13. The key role of canyons in funnelling litter to the deep sea. A study of the Gioia Canyon (Southern Tyrrhenian Sea)

Author

Daniele Casalbore, Martina Pierdomenico, and Francesco Latino Chiocci

Subjects

Canyon, Global and Planetary Change, geography, marine litter, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ecology, 010501 environmental sciences, drifting plastic, Mediterranean Sea, submarine canyon, 01 natural sciences, Deep sea, Debris, Seafloor spreading, Oceanography, Continental margin, Benthic zone, Earth and Planetary Sciences (miscellaneous), Litter, Sedimentary rock, Geology, 0105 earth and related environmental sciences

Abstract

Litter is a significant environmental issue, threatening all ocean environments including the deep sea, where little is known about the extent of the threat. This study collected underwater videos on shelf-indenting canyons (the Gioia and Petrace Canyon) and adjacent sectors to characterize benthic litter and its distribution patterns. A high density of litter was present in the canyon thalwegs (up to 56.3 items/100 m), where ∼95 % of observed debris was concentrated. Litter primarily comprised of plastic (∼90 %). The presence of household objects intermingled with vegetal material indicates a strong influence of land-based sources for litter in these areas. Sedimentary gravity flow processes transported natural and anthropogenic debris downslope and may determine its burial beneath the seafloor. Another litter transport mechanism is the presence of light items, observed while drifting above the seafloor under the action of down-canyon bottom currents. This phenomenon was frequently documented within Gioia Canyon, where up to 74 drifting items were counted in one hour of video. Conversely, a lower litter concentration was found along the continental margin, where items were mostly fishing-related. Findings from this study confirm that canyons act as conduits for land-sourced debris and litter transport from coastal to deep-sea environments. The funnelling of a large amount of plastic to the deep sea through multiple processes indicates that the magnitude of this pollution may be greater than expected. This pollution could concentrate in canyons along continental margins and possibly at the mouths of canyons at the base of the slope. This issue requires urgent attention, as understanding of deep-sea litter distribution is still limited and potential impacts to benthic ecosystems are poorly understood.

Published

2020

14. Depositional and erosional bedforms in Late Pleistocene-Holocene pro-delta deposits of the Gulf of Patti (southern Tyrrhenian margin, Italy)

Author

Daniele Casalbore, Alessandro Bosman, Domenico Ridente, and Francesco Latino Chiocci

Subjects

Bedform, 010504 meteorology & atmospheric sciences, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Sedimentary depositional environment, Geochemistry and Petrology, River mouth, Gullies Waveforms Flash-floods Multibeam bathymetry Seismic-stratigraphy, Bathymetry, Geomorphology, Holocene, 0105 earth and related environmental sciences, multibeam bathymetry, geography, geography.geographical_feature_category, seismic-stratigraphy, Geology, Last Glacial Maximum, Seafloor spreading, waveforms, flash-floods, Sedimentary rock, gullies, oceanography, geology, geochemistry and petrology

Abstract

Multibeam bathymetry, high-resolution seismic profiles and seafloor samples have been analyzed to characterize depositional and erosional dynamics recorded pro-deltaic deposits and outer shelf sediments along of a sector of the NE Sicilian margin (southern Tyrrhenian Sea). The deltaic deposits cover an area of ca. 15 km 2 in front of the Mazzarra River, and are morphologically characterized by waveforms trending overall along strike and incised cross-strike gullies of variable length. The gullies are shallow and characterized by small, coaxial erosive scours in the inner-middle shelf, whereas they become larger and deeper in the outer shelf-upper slope, in relation to the marked increase of slope gradients at the shelf break. Here, the wider gullies are characterized by a frame of crescent-shaped bedforms interpreted as cyclic steps, indicating the occurrence of sedimentary gravity flows in supercritical regime. Prodelta waveforms are widespread between − 50 and − 120 m, with wave lengths of 34–110 m and wave heights of 0.5–3 m. Morphometric characterization and spatial distribution of the waveforms suggests a main role in their genesis played by hyperpycnal flows, although we cannot discard the possible effect of internal waves or slow deformation processes (i.e., creep). Depositional and erosional features similar to those observed on the seafloor are evident in the subsurface stratigraphy, revealing the onset and growth of the Mazzarra Delta since the Last Glacial Maximum. The post-glacial sea level rise caused lateral shifts of the Mazzarra River mouth controlling migration of depositional lobes and intensity of seafloor incision and sediment reworking, ultimately resulting in the observed wavy bedforms extending from the inner shelf to the upper slope.

Published

2017

15. Evidence of a shallow water submarine hydrothermal field off Zannone Island from morphological and geochemical characterization: Implications for Tyrrhenian Sea Quaternary volcanism

Author

Eleonora Martorelli, Leonardo Macelloni, Francesco Latino Chiocci, Aida Maria Conte, Francesco Italiano, Alessandro Bosman, Michela Ingrassia, Andrea Sposato, S. Graziani, and Stan E. Beaubien

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Geochemistry, Volcanism, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Hydrothermal circulation, Waves and shallow water, Geophysics, Mediterranean sea, Volcano, Space and Planetary Science, Geochemistry and Petrology, Archipelago, Earth and Planetary Sciences (miscellaneous), Quaternary, Geomorphology, Geology, 0105 earth and related environmental sciences

Abstract

Discoveries from multibeam bathymetry and geochemical surveys performed off Zannone Island (western Pontine Archipelago, Tyrrhenian Sea) provide evidence of an undocumented hydrothermal field characterized by ongoing fluid emissions and morphologically complex giant depressions located in shallow water ( 250 m) that host pockmarks, mounds, small cones and active fluid vents, and which are interpreted as complex fluid escape features developed both through vigorous-explosive events and steady seepage. Their spatial distribution suggests that the NE-SW trending faults bounding the Ponza-Zannone structural high and the shallow fractured basement are favorable conditions for the upward migration of hydrothermal fluids. Moreover, we performed a detailed geochemical study to investigate the source of the hydrothermal fluids. The geochemical signature of the collected fluids provides information of active CO2-dominated degassing with a significant contribution of mantle volatiles, with measured 3He/4He values > 3.0 Ra that are similar to those recorded at Stromboli and Panarea volcanoes. The hydrothermal system produces volatiles that may originate from residual magma batches, similar to the Pleistocene trachytes cropping out in the SE sector of Ponza Island, that were probably intruded in the shallow crustal levels and never erupted. The discovery of the Zannone hydrothermal field updates the record of active hydrothermal areas of the Mediterranean Sea. Moreover, the recognition of several giant hydrothermal depressions characterized by a complex morphology is peculiar for the Mediterranean Sea.

Published

2016

16. Environmental factors controlling the distribution of rhodoliths: An integrated study based on seafloor sampling, ROV and side scan sonar data, offshore the W-Pontine Archipelago

Author

Eleonora Martorelli, E. Sañé, Daniela Basso, Francesco Latino Chiocci, Sañé, E, Chiocci, F, Basso, D, and Martorelli, E

Subjects

0106 biological sciences, geography, Side-scan sonar, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 010604 marine biology & hydrobiology, Sampling (statistics), Geology, Aquatic Science, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, Oceanography, Remotely operated vehicle, Remotely operated underwater vehicle, 01 natural sciences, Seafloor spreading, Grabs, living rhodoliths, Mediterranean Sea, remotely operated vehicle, side scan sonar, oceanography, aquatic science, geology, Mediterranean sea, Archipelago, Submarine pipeline, Living rhodoliths, Mediterranean Sea, Grabs, Remotely Operated Vehicle, Side Scan Sonar, 0105 earth and related environmental sciences

Abstract

The effects of different environmental factors controlling the distribution of different morphologies, sizes and growth forms of rhodoliths in the western Pontine Archipelago have been studied. The analysis of 231 grab samples has been integrated with 68 remotely operated vehicle (ROV) videos (22 h) and a high resolution (

Published

2016

17. Role of upper-flow-regime bedforms emplaced by sediment gravity flows in the evolution of deltas

Author

Jutta Winsemann, Jörg Lang, Svetlana Kostic, Daniele Casalbore, and Francesco Latino Chiocci

Subjects

Dewey Decimal Classification::500 | Naturwissenschaften::550 | Geowissenschaften, Delta, transitional upper-flow-regime bedforms, Bedform, Transitional upper-flow-regime bedforms, 010504 meteorology & atmospheric sciences, Outcrop, Flow (psychology), Borehole, antidunes, confined or unconfined setting, cyclic steps, delta evolution, foreset-bottomset transition, gullies, marine and lacustrine deltas, Ocean Engineering, 010502 geochemistry & geophysics, Antidunes, 01 natural sciences, Confined or unconfined setting, Cyclic steps, Paleontology, ddc:550, Gullies, Marine and lacustrine deltas, Digital elevation model, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, geography, River delta, geography.geographical_feature_category, Foreset-bottomset transition, Sediment, Delta evolution, Geology

Abstract

Upper-flow-regime bedforms and their role in the evolution of marine and lacustrine deltas are not well understood. Wave-like undulations on delta foresets are by far the most commonly reported bedforms on deltas and it will take time before many of these features get identified as upper-flow-regime bedforms. This study aims at: (1) Providing a summary of our knowledge to date on deltaic bedforms emplaced by sediment gravity flows; (2) illustrating that these features are most likely transitional upper-flow-regime bedforms; and (3) using field case studies of two markedly different deltas in order to examine their role in the evolution of deltas. The study combines numerical analysis with digital elevation models, outcrop, borehole, and high-resolution seismic data. The Mazzarrà river delta in the Gulf of Patti, Italy, is selected to show that upper-flow-regime bedforms in gullies can be linked to the onset, growth, and evolution of marine deltas via processes of gully initiation, filling, and maintenance. Ice-marginal lacustrine deltas in Germany are selected as they illustrate the importance of unconfined upper-flow-regime bedforms in the onset and evolution of distinct delta morphologies under different lake-level trends.

Published

2019

18. Isidella elongata (Cnidaria: Alcyonacea). First report in the Ventotene Basin (Pontine Islands, western Mediterranean Sea)

Author

Alessandro Bosman, Francesco Latino Chiocci, Michela Ingrassia, and Eleonora Martorelli

Subjects

0106 biological sciences, Cnidaria, Side-scan sonar, education.field_of_study, 010504 meteorology & atmospheric sciences, Ecology, biology, 010604 marine biology & hydrobiology, Population, Isidella elongata, bamboo coral, vulnerable marine ecosystem, pockmark, ROV, trawl mark, Aquatic Science, Structural basin, biology.organism_classification, 01 natural sciences, Mediterranean sea, Oceanography, Alcyonacea, Animal Science and Zoology, education, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences

Abstract

A mono-specific population of Isidella elongata in the Ventotene Basin (Pontine Islands, western Mediterranean Sea) was recently revealed by ROV survey. This vulnerable marine community was found on top of a 3.6 km long morphological high, in water depths between 510 and 560 m. Side scan sonar data showed the presence of several trawl marks suggesting a high anthropogenic impact of the study area. Furthermore, multibeam and high-resolution seismic data revealed the presence of widespread pockmarks, indicating occurrence of fluids in the sub-seafloor.

Published

2019

19. Coastal hazard due to submarine canyons in active insular volcanoes: examples from Lipari Island (southern Tyrrhenian Sea)

Author

Marco Anzidei, Francesco Latino Chiocci, Alessandro Bosman, Claudia Romagnoli, Daniele Casalbore, Casalbore, Daniele, Romagnoli, Claudia, Bosman, Alessandro, Anzidei, Marco, and Chiocci, Francesco Latino

Subjects

010504 meteorology & atmospheric sciences, Submarine canyon, submarine canyons, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Subsidence, Head (geology), Tsunamigenic potential, Lipari island, Bathymetry, Aeolian islands, Slope failure, 0105 earth and related environmental sciences, Nature and Landscape Conservation, Canyon, geography, Coastal hazards, geography.geographical_feature_category, Ecology, Waves and shallow water, Volcano, Coastal retreat, Geology

Abstract

The recent high-resolution multibeam bathymetry surveys around Lipari Island allowed to evidence several submarine canyons, whose head often cut back up to very shallow water and at a few tens of meters far from the coast. These canyons are mainly located in the eastern and southern side of the island and are characterized by an ongoing retrogressive (landward) erosion, that also controlled the shape and the evolution of the coastline. The canyon heads are formed by minor slide scars. By coupling slide scar morphometry and simple numerical model we have been able to roughly estimate the potential tsunami wave amplitudes generated by related slope failures. Moreover, the retrogressive erosion of canyon heads can be claimed as a cause of the enhanced subsidence reported in the last few thousand years in the eastern part of Lipari, where the main villages are located. Based on these evidence, we propose a first assessment of the coastal hazard due to marine retrogressive activity in the largest and most densely populated island of the Aeolian Archipelago.

Published

2018

20. Submarine Canyons and Gullies

Author

Pere Puig, Steven Yueh Jen Lai, Anna Sanchez-Vidal, Silvia Ceramicola, Claudio Lo Iacono, Veerle A.I. Huvenne, Peter T. Harris, Miquel Canals, Joshu J. Mountjoy, David Amblas, Galderic Lastras, Francesco Latino Chiocci, Aaron Micallef, Julian A. Dowdeswell, Thomas P. Gerber, Charles K. Paull, and European Commission

Subjects

Canyon, Water mass, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, sediment transport, turbidity current, submarine channels, Continental shelf, Submarine, Sediment, Submarine canyon, 010502 geochemistry & geophysics, 01 natural sciences, Abyssal zone, Oceanography, Continental margin, 13. Climate action, 14. Life underwater, Geology, 0105 earth and related environmental sciences

Abstract

Amblas, David ... et al.-- 22 pages, 8 figures, 1 table, Submarine canyons are deep incisions observed along most of the world’s continental margins. Their topographic relief is as dramatic as that of any canyon or river valley on land but is hidden beneath the surface of the ocean. Our knowledge of canyons has therefore come primarily from remote sensing and sampling, and has involved contributions from various oceanographic disciplines. Canyons are a critical link between coastal and shelf waters and abyssal depths; water masses, sediment, nutrients, and even litter and pollutants are carried through them. Advances in technology continue to provide new insights into canyon environments by pushing the frontier of deep marine observations and measurements. In this chapter we describe the main geomorphic features of submarine canyons and what is known about their formation and the processes that shape them. We also consider submarine gullies, which are small valleys commonly found within or alongside submarine canyons on the continental slope and may represent an incipient stage of canyon development, This work was supported by the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 658358 (D. Amblas)

Published

2018

21. Submarine depositional terraces at salina island (Southern tyrrhenian sea) and implications on the late-quaternary evolution of the insular shelf

Author

F. Falese, Alessandro Ricchi, Francesco Latino Chiocci, Daniele Casalbore, Alessandro Bosman, Chiara Adami, Claudia Romagnoli, Casalbore, Daniele, Romagnoli, Claudia, Adami, Chiara, Bosman, Alessandro, Falese, Francesco, Ricchi, Alessandro, and Chiocci, Francesco Latino

Subjects

010504 meteorology & atmospheric sciences, prograding wedges, coastal areas, paleo sea-level, insular shelf, volcanic islands, multibeam bathymetry, Prograding wedge, Surf zone, 010502 geochemistry & geophysics, 01 natural sciences, Sedimentary depositional environment, Paleontology, Bathymetry, Paleo sea-level, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Insular shelf, Bedrock, lcsh:QE1-996.5, lcsh:Geology, Terrace (geology), Volcanic island, General Earth and Planetary Sciences, Sedimentary rock, Coastal area, Multibeam bathymetry, Quaternary, Earth and Planetary Sciences (all), Geology, Marine transgression

Abstract

The integrated analysis of high-resolution multibeam bathymetry and single-channel seismic profiles around Salina Island allowed us to characterize the stratigraphic architecture of the insular shelf. The shelf is formed by a gently-sloping erosive surface carved on the volcanic bedrock, mostly covered by sediments organized in a suite of terraced bodies, i.e. submarine depositional terraces. Based on their position on the shelf, depth range of their edge and inner geometry, different orders of terraces can be distinguished. The shallowest terrace (near-shore terrace) is a sedimentary prograding wedge, whose formation can be associated to the downward transport of sediments from the surf zone and shoreface during stormy conditions. According to the range depth of the terrace edge (i.e., 10–25 m, compatible with the estimated present-day, local storm-wave base level in the central and western Mediterranean), the formation of this wedge can be attributed to the present-day highstand. By assuming a similar genesis for the deeper terraces, mid-shelf terraces having the edge at depths of 40–50 m and 70–80 m can be attributed to the late and early stages of the Post-LGM transgression, respectively. Finally, the deepest terrace (shelf-edge terrace) has the edge at depths of 130–160 m, being thus referable to the lowstand occurred at ca. 20 ka. Based on the variability of edge depth in the different sectors, we also show how lowstand terraces can be used to provide insights on the recent vertical movements that affected Salina edifice in the last 20 ka, highlighting more generally their possible use for neo-tectonic studies elsewhere. Moreover, being these terraces associated to different paleo-sea levels, they can be used to constrain the relative age of the different erosive stages affecting shallow-water sectors.

Published

2018

22. Effects of trawling activity on the bamboo-coral Isidella elongata and the sea pen Funiculina quadrangularis along the Gioia Canyon (Western Mediterranean, southern Tyrrhenian Sea)

Author

Stefano Ambroso, Tommaso Russo, Lorenzo D'Andrea, Josep Maria Gili, Martina Pierdomenico, Francesco Latino Chiocci, Eleonora Martorelli, Andrea Gori, Pierdomenico, Martina, Russo, Tommaso, Ambroso, Stefano, Gori, Andrea, Martorelli, Eleonora, D'Andrea, Lorenzo, Gili, Josep-Maria, and Chiocci, Francesco L.

Subjects

0106 biological sciences, Settore BIO/07, 010504 meteorology & atmospheric sciences, Sea pen, Biodiversity, Deep-water coral, Bottom trawling impacts, Aquatic Science, 01 natural sciences, Deep-water corals, Bamboo coral, Bottom trawling impact, Marine ecosystem, Transect, 0105 earth and related environmental sciences, Vessel Monitoring System (VMS), biology, Trawling, 010604 marine biology & hydrobiology, Geology, biology.organism_classification, Bottom trawling, Submarine canyon, Oceanography, Benthic zone, bottom trawling impacts, deep-water corals, Remotely Operated Vehicle (ROV), submarine canyons, Submarine canyons, Environmental science

Abstract

Special issue Bridging the gap between the shallow and deep oceans: The key role of submarine canyons.-- 13 pages, 9 figures, 2 tables, The impacts of fishing activities on ecosystems represent an acknowledged environmental issue, especially considering the increasing demands for the conservation of biodiversity. Submarine canyons are complex environments that can harbor high biodiversity of benthic ecosystems and high biomass of fish species, thus representing preferential fishing areas for bottom trawling fleets. The effects of bottom trawling on the benthic epifauna were investigated over the soft-bottom margins of the Gioia Canyon (Southeastern Tyrrhenian Sea) by means of quantitative analysis of Remote Operated Vehicle (ROV) video transects and compared with the recent pattern of trawling intensity, reconstructed through processing of data collected with the Vessel Monitoring System (VMS). Four ROV transects were then performed at 320–540 m depth in areas affected by different trawling pressure. The analysis was focused on the bamboo coral Isidella elongata and the sea pen Funiculina quadrangularis, which are considered indicator taxa of Vulnerable Marine Ecosystems (VMEs) and relevant in terms of sustainable management priorities. I. elongata only occurred at the two deeper stations, below 400 m depth. This species showed a clear relationship with trawling intensity, since its abundance was significantly higher under low trawling intensity, where coexistence of large (>20 cm height) and small colonies was observed. The relatively high prevalence of small colonies in areas exposed to higher trawling effort was interpreted as a consequence of the trawling activity that removed the larger colonies. However, the frequent occurrence of dead colonies and the diffuse presence of epibionts (e.g. the anemone Amphianthus dohrnii and the hydroid Clytia linearis) on living colonies indicate stressful conditions for I. elongata even in areas where trawling intensity was lower. Conversely, the relationship between trawling intensity and species abundance was not straightforward for F. quadrangularis; despite the lowest abundance of this species was recorded in areas subject to high trawling intensity, relatively high abundances were observed in areas with intermediate trawling effort. Although such distribution may be driven by other environmental factors, it suggests that vulnerability to bottom trawling can be different for the two species

Published

2018

23. Spiculosiphon oceana (Foraminifera) a new bio-indicator of acidic environments related to fluid emissions of the Zannone Hydrothermal Field (central Tyrrhenian Sea)

Author

Francesco Latino Chiocci, Virgilio Frezza, Michela Ingrassia, Eleonora Martorelli, Raffaella Pecci, Letizia Di Bella, and Rossella Bedini

Subjects

0106 biological sciences, Geologic Sediments, 010504 meteorology & atmospheric sciences, Meiobenthos, Stressed environment, stressed environments, Foraminifera, Aquatic Science, Oceanography, 01 natural sciences, Spiculosiphon oceana, hydrothermal activity, acidification, western Mediterranean Sea, Mediterranean sea, Mediterranean Sea, Seawater, 0105 earth and related environmental sciences, biology, 010604 marine biology & hydrobiology, fungi, Ocean acidification, General Medicine, biology.organism_classification, Pollution, Italy, Benthic zone, Environmental science, Environmental Monitoring

Abstract

The new record of a shallow-water submarine hydrothermal field (

Published

2018

24. Characterization of overbanking features on the lower reach of the Gioia-Mesima canyon-channel system (southern Tyrrhenian Sea) through integration of morpho-stratigraphic data and physical modelling

Author

Eleonora Morelli, Federico Falcini, Eleonora Martorelli, Francesco Latino Chiocci, Marilena Calarco, Alessandro Bosman, and Daniele Casalbore

Subjects

Canyon, geography, geography.geographical_feature_category, Turbidity current, Turbidity currents, 010504 meteorology & atmospheric sciences, Continental shelf, Multibeam, Erosive channels, Geology, Sinuosity, Aquatic Science, 010502 geochemistry & geophysics, Fault scarp, 01 natural sciences, Turbidite, Oceanography, Gioia-Mesima canyon-channel system (GMS), Tyrrenian sea, multibeam bathymetry, Bathymetry, Sedimentary rock, Physical modelling, Calabrian margin, Geomorphology, 0105 earth and related environmental sciences

Abstract

The collection of high-resolution multibeam bathymetry, single-channel seismic profiles, TOBI side scan sonar data, and gravity cores allowed the characterization of the main morpho-sedimentary processes acting along the lower reach of the shelf-indenting Gioia-Mesima canyon-channel system (GMS) and the surrounding continental slope (southern Tyrrhenian Sea). This last area, developing across a depth range of 1000–1700 m, shows a complex morphology due to the interaction between downslope gravitative processes (mainly turbidite sheet flows) and abrupt changes in slope gradients related to tectonically-controlled scarps. Particularly, several erosive-depositional features (levee deposits, sediment undulations, channels) have been related to overflow processes from the northern flank of the GMS, although the lower reach of the GMS is characterized by strong entrenchment (canyon height ranging from 120 to 270 m) and low sinuosity. Morphological and seismic stratigraphy data indicate that the distribution and dimension of these features vary in response both to the proximity to the external levee of the GMS and to the topographic gradient of the lower continental slope. Particularly, we were able to discriminate between a gently sloping sector (on average 1.5°) dominated by sedimentary bypass of the turbidity currents and a steeper sector (about 3°), where the erosional capability of these currents seems to increase. Indeed, three channels, 4,3–6,5 km long and up to 20 m deep, incise this steeper sector, running parallel to each other at a distance of 1250–1500 m. To support the capability of overbanking flow in producing these channels, we used a physical model for the ignition of turbidity currents that provides realistic values for the ignitive state of the overbanking turbidity flows. More generally, the methodological approach used in this study may be useful to provide constraints on the genesis and evolution of erosive-depositional features in other tectonically-controlled margins, where sedimentary gravity flows interact with an uneven morphology.

Published

2018

25. Marine geological and archaeological evidence of a possible pre-Neolithic site in Pantelleria Island, Central Mediterranean Sea

Author

Daniele Casalbore, Andrea Sposato, Claudia Romagnoli, Fabrizio Antonioli, Francesco Latino Chiocci, Leonardo Abelli, Alessandro Bosman, Martina Pierdomenico, Maria Vittoria Agosto, and Antonioli, F.

Subjects

Sea level change, Artifact (archaeology), 010504 meteorology & atmospheric sciences, Geology, Ocean Engineering, 010502 geochemistry & geophysics, 01 natural sciences, Archaeological evidence, Mediterranean sea, Oceanography, Paleoceanography, Geochronology, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

Recent underwater archaeological surveys recovered hundreds of flint artefacts between depths of 18 and 21 m at cala tramontana, a small bay located in the eastern part of pantelleria island. Most of the flint artefactsindicate debitage, and are characterized by cores and flakes without any specific morphology. Different lithic tools were also identified, such as fragments of blades, truncations, end-scrapers, points and crested blades. Aninitial hypothesis is that this lithic industry represents the oldest traces of human visitation to the island,possibly related to the exploitation of the nearby obsidian source, and favoured because of the sheltered coastalconfiguration of cala tramontana and cala levante with respect to the dominant winds and related storms. However,the present-day coastal setting in the bay is rather inhospitable, with high cliffs and difficult marine access.in contrast, palaeo-landscape reconstructions by means of high-resolution multibeam bathymetry reveal thepossible presence of a small palaeobeach in the inner part of the bay when the sea level was 15 m lower than at present.By comparing this palaeo-sea level with the eustatic curve (and by excluding possible vertical movements), we roughly estimate an age of the lithic industry of 9.6-7.7 cal ka BP © The geological society of london 2016.

Published

2014

26. Bathy-morphological setting of Terceira Island (Azores) after the FAIVI cruise

Author

F. Maisto, Ana Hipólito, Claudia Romagnoli, Marcel-lí Farran, Francesco Latino Chiocci, Ferran Estrada, Fernando Tempera, Íris Sampaio, V. Forleo, Belén Alonso, Gemma Ercilla, David Casas, F. Falese, L. Di Bella, P.C. Santoro, Daniele Casalbore, Andrea Sposato, Cristina Roque, Virgilio Frezza, Joana Pacheco, A. Lebani, Eleonora Martorelli, Rui Quartau, Aida Maria Conte, Adriano Pimentel, F. Chiocci, C. Romagnoli, D. Casalbore, A. Sposato, E. Martorelli, B. Alonso, D. Casa, A. M. Conte, L. Di Bella, G. Ercilla, F. Estrada, F.Falese, M. Farran, V. Forleo, V. Frezza, A.Hipolito, A. Lebani, F. Maisto, J. Pacheco, A. Pimentel, R. Quartau, C. Roque, I. Sampaio, P. C. Santoro, and F. Tempera.

Subjects

erosive depositional features, Bedform, 010504 meteorology & atmospheric sciences, Lava, multibeam bathymetry, multibeam, erosive-depositional features, tectonics, submarine volcanism, geomorphology, bathymetry, Geography, Planning and Development, Submarine volcanism, 010502 geochemistry & geophysics, Fault scarp, 01 natural sciences, Earth and Planetary Sciences (miscellaneous), 14. Life underwater, Geomorphology, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Tectonics, Landslide, Erosive-depositional features, Seafloor spreading, tectonic, Volcano, Submarine pipeline, Multibeam bathymetry, Geology

Abstract

Chiocci, Francesco L. ... et. al.-- 6 pages, 2 figures, High-resolution morpho-bathymetric data at 1:200,000 scale obtained during the FAIVI cruise (2011) and the resulting geomorphologic map of the Terceira island offshore area (central Azores, Portugal) are presented for the first time. The uneven morphology around Terceira is primarily related to volcanic features, such as linear and cone-shaped eruptive centres and lava flows. Such features are mostly concentrated on volcanic ridges and are aligned along preferential axes, suggesting a strong interaction between tectonics and volcanic processes. The occurrence of active tectonics is also demonstrated by systems of faults cutting the seafloor to the north, east and south of the island. Mapped erosive-depositional features include an insular shelf located at < 150 m water depth (wd), small landslide headwalls, erosive scarps, channelized features and crescent-shaped bedforms. The presented map may represent the base for a first-order geo-hazard assessment. © 2013 Copyright D. Casalbore

Published

2013

27. Tsunamigenic potential of a newly discovered active fault zone in the outer Messina Strait, Southern Italy

Author

Francesco Latino Chiocci, Lili Fu, Jörg Bialas, Mohammad Heidarzadeh, Sebastian Krastel, Deniz Cukur, Domenico Ridente, and Felix Gross

Subjects

010504 meteorology & atmospheric sciences, Slip (materials science), Active fault, Fault (geology), 010502 geochemistry & geophysics, 01 natural sciences, Slope failure, New fault, Tsunami earthquake, Messina Strait, tsunami modeling, Tsunami hazard, Active fault zone, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Source area, active fault, Messina Straits, 1908 Messina earthquake and tsunami, Landslide, tsunami source, Geophysics, General Earth and Planetary Sciences, seismicity, Seismology, Geology

Abstract

The 1908 Messina tsunami was the most catastrophic tsunami hitting the coastline of southern Italy in the younger past. The source of this tsunami, however, is still heavily debated, and both rupture along a fault and a slope failure have been postulated as potential origin of the tsunami. Here we report a newly-discovered active Fiumefreddo-Melito di Porto Salvo Fault Zone (F-MPS_FZ), which is located in the outer Messina Strait in a proposed landslide source area of the 1908 Messina tsunami. Tsunami modeling showed that this fault zone would produce devastating tsunamis by assuming slip amounts of ≥ 5 m. An assumed slip of up to 17 m could even generate a tsunami comparable to the 1908 Messina tsunami, but we do not consider the F-MPS_FZ as a source for the 1908 Messina tsunami because its E-W strike contradicts seismological observations of the 1908 Messina earthquake. Future researches on the F-MPS_FZ, however, may contribute to the tsunami risk assessment in the Messina Strait. Marine Geological and Geophysical Mapping of the Korean Seas. Grant Number: GP2015-042

Published

2017

28. Unexpected fast rate of morphological evolution of geologically- active continental margins during Quaternary: examples from selected areas in the Italian seas

Author

Daniele Casalbore and Francesco Latino Chiocci

Subjects

geology, Canyons, Erosion rates, 010504 meteorology & atmospheric sciences, economic geology, Mass wasting, 010502 geochemistry & geophysics, 01 natural sciences, Sedimentary depositional environment, Paleontology, Continental margin, oceanography, Tectonically-controlled margins, 0105 earth and related environmental sciences, Canyon, geography, geography.geographical_feature_category, Continental shelf, geophysics, stratigraphy, Seafloor spreading, Insular volcanoes, canyons, erosion rates, insular volcanoes, mass-wasting, multibeam bathymetry, tectonically-controlled margins, Mass-wasting, Physical geography, Multibeam bathymetry, Geohazard, Quaternary, Geology

Abstract

In the last few decades, seafloor imagery systems have drastically changed our vision of a mostly regular and depositional marine landscape, evidencing how erosive and mass-wasting processes are widespread in the marine environments, with particular reference to geologically-active areas. Most of the previous studies have focused on the characterization of these features, whereas a very few ones have tried to estimate what is the extent and order of magnitude of erosion rates in these areas. In this paper, we show several examples from some of the most geologically-active margins off Southern Italy aimed to a) quantify the spatial extent of such processes, b) better understand the role of submarine erosion in the morphogenesis of the coastal sector, and c) try to roughly estimate the order of magnitude of erosion rates in these areas. The results are impressive, with mass-wasting features widespread from coast down to −2600, affecting from the 52% up to 97% of the whole continental slope. Because of the narrow or totally lacking shelves in these areas, mass-wasting processes often occur close to the coast and match embayment of the coast, so indicating a key role in the morphogenesis of coastal sector, with significant implication on the related geohazard. Finally, based on a morphological approach integrated by available stratigraphic constraints we have roughly estimated average erosion rates in these areas, ranging from (at least) some mm/year to a few cm/year, i.e., some hundreds of meters up to kilometers eroded in each eustatic cycle. Despite the large uncertainties of these estimates as well as their spatial and temporal variability in response to regional and local factors, the obtained values are very high and they should be considered for future model of margin evolution, source-to-sink computation and marine/coastal geohazard assessment.

Published

2017

29. Submarine depositional terraces in the Tyrrhenian Sea as a proxy for paleo-sea level reconstruction: Problems and perspective

Author

Eleonora Martorelli, Daniele Casalbore, Claudia Romagnoli, F. Falese, Francesco Latino Chiocci, Casalbore, D., Falese, F., Martorelli, E., Romagnoli, C., and Chiocci, F.L.

Subjects

multibeam bathymetry, seismic profiles, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Continental shelf, Submarine, Prograding wedge, Continental shelves, Insular shelves, Multibeam bathymetry, Seismic profiles, Last Glacial Maximum, insular shelves, Last Glacial Maximum, 010502 geochemistry & geophysics, Spatial distribution, 01 natural sciences, Sedimentary depositional environment, continental shelves, last glacial maximum, prograding wedge, earth-surface processes, River terraces, Sedimentary rock, Geomorphology, Sea level, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

In the last decade great effort was put in the study of relative sea-level changes on Mediterranean coastlines through the integration of geophysical modelling and proxy data of paleo-shorelines. In this paper, we show potential and limitations of using additional marine geomorphic/sedimentary markers for earlier and lower sea levels. These markers are submarine depositional terraces (SDTs), i.e., deposits formed by a set of small prograding sedimentary wedges, having a terraced shape and found at variable shallow-water depths (mainly the first −150 m) on continental and insular shelves in the Tyrrhenian Sea. The shallowest terraces (near-shore) have their edges at depths between −10 m and −30 m, approximating the modern, local storm-wave base level. Their formation is thought to be associated with the modern sea-level highstand and thus, can be used as the modern analogue for deeper terraces formed in the past when the sea level was on the middle and outer shelf. Mid-shelf terraces have their edges at variable depths between −40 m and −90 m and probably formed during the last sea-level rise. They show a patchy spatial distribution and a large variability in their internal structure, so that they are not suitable for correlation on a regional scale. Shelf-edge terraces have their edges at depths between −120 m and −170 m, which is close or deeper than the Last Glacial Maximum (LGM) sea-level stand. They show a remarkable lateral continuity and a prograding internal structure similar to those at shallower depth and, thus, represent a proxy for the sea-level position at around 20 ka. However, the position of SDTs' edges is not a direct measure of paleo sea level positions because their depth depends on a complex interplay of several factors, such as the base of the storm wave and its variation in response to coastal physiography, as well as the occurrence of subsequent erosional or depositional processes. Depending on the geophysical and mapping methods used to determine their depth, the associated error range can also differ. Based on the analysis of these complexities and a wide range of physiographic settings of the Tyrrhenian Sea, we discuss these error ranges in order to assess potential and limitation of the SDT for analyses of vertical mobility of an area.

Published

2017

30. Relative sea level rise, palaeotopography and transgression velocity on the continental shelf

Author

Fabrizio Antonioli, Francesca Marra, Francesco Latino Chiocci, Claudia Romagnoli, Daniele Casalbore, G.N. Bailey, J. Harff, D. Sakellariou, Chiocci, Francesco Latino, Casalbore, Daniele, Marra, Francesca, Antonioli, Fabrizio, and Romagnoli, Claudia

Subjects

Shore, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Continental shelf, Last Glacial Maximum, underwater prehistoric archaeology, 010502 geochemistry & geophysics, Seafloor morphology, underwater prehistoric archaeology, sea-level curve, computer modeling, paleo-landscape, European seas, 01 natural sciences, Seafloor spreading, sea-level curve, Oceanography, computer modelling, Continental margin, Sea-level curve, seafloor morphology, palaeolandscapes european seas, Physical geography, Geology, Sea level, 0105 earth and related environmental sciences, Marine transgression

Abstract

After the Last Glacial Maximum, some 21,000 years BP, the sea level rose from −130 m to its present-day position. This process of marine transgression inundated or eroded palaeolandscapes to varying degrees, resulting in the landward movement of the shoreline. The transgression velocity (TV), i.e., the velocity at which the shoreline migrated landwards, depends on evaluating the balance between the rate of relative sea level rise and the slope of the transgressed palaeotopography. It has a key role in determining the possibilities for reconstructing palaeoenvironments, the potential preservation of archaeological sites and the socio-economic and psychological impact of sea-level rise on past human populations. In this chapter we present a simple conceptual and computational approach to reconstructing the transgression velocity on shelf areas, making use of Digital Terrain Models (DTMs) of seafloor topography coupled with relative sea level curves, and discuss the different outcomes and limitations at different spatial scales, ranging from the continental (European seas) to the ultra-local scale.

Published

2017

31. Flooding scenarios due to land subsidence and sea-level rise. A case study for Lipari Island (Italy)

Author

Alessandra Esposito, Roberto Carluccio, A. Vecchio, Marco Anzidei, Vincenzo Sepe, Cosmo Carmisciano, Alessandro Bosman, Francesca D'Ajello Caracciolo, Iacopo Nicolosi, Francesco Latino Chiocci, Filippo Muccini, Massimo Chiappini, Grazia Pietrantonio, and Daniele Casalbore

Subjects

Shore, education.field_of_study, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Population, Flooding (psychology), Climate change, Geology, Terrain, sea-level rise, 010502 geochemistry & geophysics, 01 natural sciences, Lipari, Tectonics, Oceanography, multibeam, Bathymetry, education, climate change, digital terrain model, flooding, Lipari Islands (Italy), Bay, 0105 earth and related environmental sciences, subsidence

Abstract

Archaeological and instrumental data indicate that the southern sector of the volcanic island of Lipari has been subsiding for the last 2100 years due to isostatic and tectonic factors, at variable rates of up to ~11 mm/yr. Based on this data, a detailed marine flooding scenario for 2100 A.D. is provided for the bay of Marina Lunga in the eastern part of the island from (i) an ultra-high-resolution Digital Terrain and Marine Model (DTMM) generated from multibeam bathymetry (MB) and Unmanned Aerial Vehicles (UAV), (ii) the rate of land subsidence from GPS data and (iii) the regional sea-level projections of the International Panel on Climate Change (IPCC). When land subsidence is considered, the upper bound of sea-level rise is estimated at 1.36 m and 1.60 m for RCP4.5 and RCP8.5 climate change scenarios, respectively. Here, we show the expected impact of marine flooding at Lipari for the next 85 years and discuss the hazard implications for the population living along the shore. This article is protected by copyright. All rights reserved.

Published

2017

32. The Ventotene Volcanic Ridge: a newly explored complex in the central Tyrrhenian Sea (Italy)

Author

Carlo Doglioni, Francesco Latino Chiocci, Simonepietro Canese, Luca Cocchi, Alessia Conti, Davide Scrocca, Cristina Perinelli, Marco Ligi, Filippo Muccini, Giovanni Bortoluzzi, Alessandro Bosman, Marco Cuffaro, Aida Maria Conte, Sabina Bigi, and Eleonora Martorelli

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Subduction, High-resolution geophysical data, Escarpment, Fault (geology), Pontine Islands, 010502 geochemistry & geophysics, 01 natural sciences, Submarine volcanic edifices, Graben, Tectonics, Basement (geology), Volcano, Geochemistry and Petrology, submarine volcanic edifices, high-resolution geophysical data, Submarine volcano, Geology, Seismology, 0105 earth and related environmental sciences

Abstract

New high-resolution geophysical data collected along the eastern margin of the Tyrrhenian back-arc basin, in the Pontine Islands area, reveal a ~NW-SE elongated morphological high, the Ventotene Volcanic Ridge (VR), located on the northern edge of the Ventotene Basin. High-resolution multibeam bathymetry, combined with magnetic data, multi- and single-channel seismic profiles, and ROV dives, suggest that VR results from aggregation of a series of volcanic edifices. The summit of these volcanoes is flat and occurs at about 170 m water depth. Given their depths, we propose that flat morphologies were probably caused by surf erosion during Quaternary glacial sea level lowstands. Seismic stratigraphy together with magnetic data suggest that the volcanic activity in this area is older than 190-130 ka age and may be coeval with that of Ventotene Island (Middle Pleistocene). The submarine volcanoes, located 25 km north of Ventotene, are part of a ~E-W regional volcanic alignment and extend the Pontine volcanism landward toward the Gaeta bay. Integration of structural data from multichannel seismic profiles in this sector of the eastern Tyrrhenian margin indicates that several normal and/or transtensional faults, striking WNW-ESE, NNW-SSE, and NE-SW, offset the basement and form alternating structural highs and depressions filled by thick, mostly undeformed, sedimentary units. Arc-related magmatism is widespread in the study area, where the VR is placed at the hangingwall of the west-directed Apennines subduction zone, which is undergoing tensional and transtensional tectonics. Bathymetric and topographic evidence shows that VR lies in between a major NE-SW trending escarpment east of Ponza and a NE-SW trending graben southwest of the Roccamonfina volcano, a NE-SW transfer zone that accommodate the extension along this segmented portion of the margin. This suggests that the interaction between NE-SW and NW-SE trending fault systems acts as a structural control on location of eruptive centers, given that main volcanic edifices develop along the NW-SE direction, compatible with the extensional setting of the Tyrrhenian basin.

Published

2016

33. Small-Scale Bedforms Generated by Gravity Flows in the Aeolian Islands

Author

Daniele Casalbore, Alessandro Bosman, Francesco Latino Chiocci, Claudia Romagnoli, J. Guillen, J. Acosta, S. Bernè, F. Chiocci, A. Palanques, Casalbore, D., Bosman, A., Romagnoli, C., and Chiocci, F. L.

Subjects

geography, Bedform, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Feature (archaeology), Salina, Sediment, Channelized, 010502 geochemistry & geophysics, 01 natural sciences, Stromboli, Salina, repeated bathymetric surveys, seafloor mapping, Headwall, Turbidite, Volcano, repeated bathymetric surveys, Aeolian processes, Stromboli, seafloor mapping, Geomorphology, Geology, 0105 earth and related environmental sciences

Abstract

Small-scale crescent-shaped bedforms were identified within flat-bottomed channelized features carving the submarine volcanic flanks of the Stromboli and Salina edifices. The bedforms are downslope-asymmetric, with a sub-horizontal stoss side and a steep lee side. They have a wavelength of tens of metres and a wave height of metres, and their crest-lines are roughly perpendicular to the maximum slope. Based on their size, texture and similarities to other bedforms, they can be interpreted as cyclic steps, i.e. a class of upslope-migrating turbidite sediment waves. Although their genesis must be similar, some differences are observed between the two cases. At Stromboli, repeated multibeam surveys at an 11-year scale showed a significant upslope migration of the bedforms because they lie on the bottom of a channel connected to active coastal dynamics, whose headwall is located at a few metres depth. By contrast, the surveys showed no significant morphological variations at Salina, where the bedforms are larger than at Stromboli and the channel headwall is located at about -100 m, suggesting that these feature are mostly inactive at present.

Published

2016

34. Morphological Variability of Submarine Mass Movements in the Tectonically–Controlled Calabro–Tyrrhenian Continental Margin (Southern Italy)

Author

Alessandro Bosman, Daniele Casalbore, Domenico Ridente, Eleonora Martorelli, David Casas, Francesco Latino Chiocci, Sapienza Università di Roma, and Ministerio de Economía y Competitividad (España)

Subjects

canyon, geology, fault escarpments, landslide scars, 010504 meteorology & atmospheric sciences, Contourite deposits, Canyon, continental slope, multibeam, 010502 geochemistry & geophysics, Fault scarp, 01 natural sciences, Landslide scars, Continental margin, Geomorphology, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Multibeam, Continental shelf, lcsh:QE1-996.5, Landslide, Fault escarpments, Headwall, lcsh:Geology, General Earth and Planetary Sciences, Geohazard, Geology, Continental slope, Submarine landslide

Abstract

The analysis of high resolution morpho&ndash, bathymetric data on the Calabro Tyrrhenian continental margin (Southern Italy) enabled us to identify several morphological features originated by mass&ndash, wasting processes, including shallow gullies, shelf&ndash, indenting canyons and landslides. Specifically, we focus our attention on submarine landslides occurring from the coast down to &minus, 1700 m and affecting variable areas from thousands of square meters up to few tens of square kilometers. These landslides also show a large variability of geomorphic features which seems strictly related to the physiographic/morphological domains where the landslide formed. Tectonically&ndash, controlled scarps and canyon flanks are typically characterized by several coalescent and nested landslides, with diameters ranging from hundreds to a few thousands of meters. Canyon headwalls are commonly characterized by a cauliflower shape due to an array of small (diameters of tens of meters) and coalescent scars. In all these sectors, disintegrative&ndash, like landslides dominate and are generally characterized by a marked retrogressive evolution, as demonstrated by their morphology and comparison of repeated bathymetric surveys at the canyon headwall. Only in the lower part of tectonically&ndash, controlled scarps, a few cohesive&ndash, like and isolated landslides are present, indicating the main role of slope gradients and height drop in controlling the post&ndash, failure behavior of the mobilized material. Open slopes are generally characterized by large&ndash, scale (diameters of thousands of meters) and isolated scars, with associated landslide deposits. A peculiar case is represented by the Capo Vaticano Scar Complex that affected an area of about 18 km2 and is characterized by an impressive variability of landslide morphologies, varying also at short distance. The large extent and variability of such scar complex are thought to be associated with the occurrence of a mixed contouritic&ndash, turbidite system. By integrating the high&ndash, resolution morpho&ndash, bathymetric dataset with the results of previous studies, we discuss the main factors controlling the variability in size and morphology of submarine landslides developed in a tectonically&ndash, controlled setting and provide preliminary considerations on their potential geohazard in a densely populated coastal area.

Published

2019

35. The response of benthic meiofauna to hydrothermal emissions in the Pontine Archipelago, Tyrrhenian Sea (central Mediterranean Basin)

Author

Virgilio Frezza, Letizia Di Bella, Michela Ingrassia, Francesco Latino Chiocci, and Eleonora Martorelli

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Meiobenthos, benthic foraminiferal assemblages, Aquatic Science, Oceanography, CO2 emissions, 01 natural sciences, Mediterranean Basin, seafloor venting, giant depression, Pontine Archipelago, central Mediterranean Sea, Spiculosiphon oceana, chemistry.chemical_compound, Paleontology, Mediterranean sea, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, biology, 010604 marine biology & hydrobiology, Pockmark, biology.organism_classification, chemistry, Benthic zone, Archipelago, Carbonate, Geology

Abstract

Recent investigations highlighted the occurrence of a giant depression related to hydrothermal activity off the Pontine Archipelago (central Mediterranean Sea, Italy). The new record of a giant seeping depression (Zannone Giant Pockmark, ZGP) in shallow-water provides the opportunity to study fluid vent impact on meiobenthic communities. The micropaleontological analyses on living (Rose Bengal stained) and dead assemblages recorded inside and outside the Zannone Giant Pockmark, allow to highlight changes in the structure and composition of the foraminiferal community that suggest variations of fluid emissions in different sectors of the study area. Inside the ZGP, under the direct influence of venting activity, a very peculiar living foraminiferal assemblage is found. It consists of agglutinated species (Spiculosiphon oceana, Jaculella acuta, Deuterammina rotaliformis) never found or very rare in the Mediterranean Sea. On the contrary dead assemblage testifies the changes on foraminiferal assemblages under carbonate dissolution process. Outside the pockmark in the nearby area of ZGP, the integrated meiofaunal and geochemical data suggest a transitional condition between vent influenced sedimentation and the typical carbonate sedimentation recorded in the rest of the Pontine Archipelago. In particular a possible spread of the venting activity in the northern and southern sectors of the study area, towards the edge of the Zannone insular shelf, is inferred. The impact of fluid emissions on foraminiferal assemblages can be summarized in the following observations: reduced biodiversity, increase of agglutinated species with predominant siliceous component in the test structure, limited distribution of living specimens inside the sediment, disappearance of porcelaneous taxa and presence of carbonate loss tests. As the result, the venting activity is likely to be the main environmental driver on the meiofaunal distribution. We also report, at the emission sites in the Pontine Archipelago, the presence of agglutinated species such as Spiculosiphon oceana, Jaculella acuta, Deuterammina rotaliformis, never found earlier in the Mediterranean Sea.

Published

2016

36. Sea floor characterization and benthic megafaunal distribution of an active submarine canyon and surrounding sectors: The case of Gioia Canyon (Southern Tyrrhenian Sea)

Author

Carlos Dominguez-Carrió, Martina Pierdomenico, Francesco Latino Chiocci, Josep Maria Gili, and Eleonora Martorelli

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Evolution, Megabenthic communities, Submarine canyon, Aquatic Science, Oceanography, 01 natural sciences, Marine ecosystem, Bathymetry, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Canyon, geography, geomorphology, megabenthic communities, submarine canyon, aquatic Science, oceanography, ecology, Evolution, behavior and systematics, geography.geographical_feature_category, biology, 010604 marine biology & hydrobiology, Geomorphology, behavior and systematics, biology.organism_classification, Black coral, Seafloor spreading, Benthic zone, Ridge, ecology, Geology

Abstract

17 pages, 13 figures, 4 tables supplementary data https://dx.doi.org/10.1016/j.jmarsys.2016.01.005, In this paper, we used multibeam bathymetry and backscatter, high-resolution seismic profiles, ROV video images and sediment samples to identify the principal morpho-sedimentary features and related megabenthic communities along the upper reach of the Gioia Canyon (depth < 600 m) and the surrounding shelf and slope areas. Interpretation of the multidisciplinary dataset was undertaken to evaluate the relationships between seafloor characteristics and faunal distribution along a submarine canyon in an active tectonic setting. The results from this study indicate that physical disturbance on the seafloor at the canyon head and surrounding shelf, related to high sedimentation rates and occasional turbidite flows, may limit the variability of megabenthic communities. Evidence of diffuse trawl marks over soft sedimentary bottoms indicates anthropogenic impact due to fishing activities, which could explain low abundances of megabenthic species observed locally. The canyon margins and flanks along the continental slope host octocorals Funiculina quadrangularis and Isidella elongata, species that are indicative of vulnerable marine ecosystems (VMEs) and relevant in terms of sustainable management priorities. At the Palmi Ridge, the occurrence of outcropping rocks and bottom currents related to the presence of Levantine Intermediate Waters, provide conditions for the development of hard-bottom assemblages, including the black coral Antipathella subpinnata and deep-sea sponges fields, This research was performed in the framework of the Flagship Project RITMARE (SP4-WP2-A1)

Published

2016

37. The limits of seaward spreading and slope instability at the continental margin offshore Mt Etna, imaged by high-resolution 2D seismic data

Author

Jörg Bialas, Morelia Urlaub, Domenico Ridente, Jacob Geersen, Sebastian Krastel, Jan H. Behrmann, Deniz Cukur, Francesco Latino Chiocci, Cord Papenberg, Aaron Micallef, and Felix Gross

Subjects

earth-surface processes, 010504 meteorology & atmospheric sciences, Morphobathymetry, submarine canyons, Fault (geology), 010502 geochemistry & geophysics, 01 natural sciences, flank instability, Continental margin, continental margin, Interferometric synthetic aperture radar, Mt Etna, reflection seismics, spreading, tectonics, geophysics, Bathymetry, active faults, 0105 earth and related environmental sciences, Canyon, geography, geography.geographical_feature_category, Ionian Sea, Tectonics, Volcano, submarine landslides, 13. Climate action, Submarine pipeline, Seismology, Geology

Abstract

Highlights: - Analysis of a combined new high-resolution 2D seismic and bathymetric data set offshore Mt Etna - Extensional domains are mapped at the shallow subsurface of the continental margin - Compressional structures are mapped at the toe of the continental margin - A coupled volcano edifice / continental margin instability is proposed Mount Etna is the largest active volcano in Europe. Instability of its eastern flank is well documented onshore, and continuously monitored by geodetic and InSAR measurements. Little is known, however, about the offshore extension of the eastern volcano flank, defining a serious shortcoming in stability models. In order to better constrain the active tectonics of the continental margin offshore the eastern flank of the volcano, we acquired a new high-resolution 2D reflection seismic dataset. The data provide new insights into the heterogeneous geology and tectonics at the continental margin offshore Mt Etna. The submarine realm is characterized by different blocks, which are controlled by local- and regional tectonics. A compressional regime is found at the toe of the continental margin, which is bound to a complex basin system. Both, the clear link between on- and offshore tectonic structures as well as the compressional regime at the easternmost flank edge, indicate a continental margin gravitational collapse as well as spreading to be present at Mt Etna. Moreover, we find evidence for the offshore southern boundary of the moving flank, which is identified as a right lateral oblique fault north of Catania Canyon. Our findings suggest a coupled volcano edifice / continental margin instability at Mt Etna, demonstrating first order linkage between on- and offshore tectonic processes.

Published

2016

38. Magnitude-frequency distribution of submarine landslides in the Gioia Basin (southern Tyrrhenian Sea)

Author

J. Ortiz de Urbina, David Casas, Francesco Latino Chiocci, Gemma Ercilla, and Daniele Casalbore

Subjects

010504 meteorology & atmospheric sciences, earth and planetary Sciences, oceanography, geotechnical engineering and engineering geology, environmental science, Landslide, Environmental Science (miscellaneous), Structural basin, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, Oceanography, 01 natural sciences, Heavy-tailed distribution, Earth and Planetary Sciences (miscellaneous), Range (statistics), Submarine pipeline, Bathymetry, Digital elevation model, Geomorphology, Geology, 0105 earth and related environmental sciences, Submarine landslide

Abstract

10 pages, 5 figures, 2 tables, Regional inventories and magnitude-frequency relationships provide critical information about landslides and represent a first step in landslide hazard assessment. Despite this, the availability of accurate inventories in the marine environment remains poor because of the commonly low accessibility of high-resolution data at regional scales. Evaluating high-resolution bathymetric data spanning the time interval 2007–2011 for the Gioa Basin of the southern Tyrrhenian Sea yielded a landslide inventory of 428 events affecting an area of >85 km2 and mobilizing approximately 1.4 km3 of sediment. This is the first time that this area is studied in such detail, justifying comparison with other areas both onland and offshore. Statistical analyses revealed that the cumulative distribution of the dataset is characterized by two right-skewed probability distributions with a heavy tail. Moreover, evidence of a rollover for smaller landslide volumes is consistent with similar trends reported in other settings worldwide. This may reflect an observational limitation and the site-specific geologic factors that influence landslide occurrence. The robust validation of both power-law and log-normal probability distributions enables the quantification of a range of probabilities for new extreme events far from the background landslide sizes defined in the area. This is a useful tool at regional scales, especially in geologically active areas where submarine landslides can occur frequently, such as the Gioia Basin, This study was supported by the Italian MaGIC and RITMARE projects, and by the Spanish projects MOWER (CTM2012-39599-C03), FAUCES (CTM2015-65461-C2-1-R) and Eurofleets2 project LGT GIOIA 77

Published

2016

39. Holocene sediments of the Messina Strait (southern Italy). Relationships between source area and depositional basin

Author

Eleonora Martorelli, Emilia Le Pera, Rocco Dominici, Francesco Latino Chiocci, and Francesco Perri

Subjects

geography, Provenance, geography.geographical_feature_category, Felsic, 010504 meteorology & atmospheric sciences, Stratigraphy, Geochemistry, Geology, Weathering, Sedimentary basin, Silt, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Sedimentary depositional environment, Geophysics, Source rock, Economic Geology, Sedimentary rock, Geomorphology, geochemistry and mineralogy, Messina strait, provenance, source rocks weathering, oceanography, geophysics, geology, economic geology, stratigraphy, 0105 earth and related environmental sciences

Abstract

The Messina Strait, situated along the southern sector of the Italian peninsula, provides a good setting to study the source-to-basin relationships and, thus, the complete transect from continental to deep-marine environments. This work concerns the chemical and mineralogical composition of the fine-grained sediments collected along the Messina Strait, since the distribution of major and trace elements related to the mineralogical assemblages allow us the reconstruction of sedimentary evolution and geological processes affecting the studied sediments and, thus, the relationships developed between source area and sedimentary basin. Studied sediments are very-fine sand, silt and clay mainly phyllosilicates and quartz-bearing. Specifically, sediments located on submerged Calabrian and Sicilian slopes generally show high quartz content, whereas samples of the Calabrian and Sicilian continental slopes generally show high phyllosilicates content. Calcite and feldspars (plagioclase and K-feldspar) occur in different amounts. Few samples contain Fe-oxides. The geochemical signatures of the sediments reflect a provenance from felsic lithotypes. The A-CN-K diagram shows a linear trend parallel to A-CN join reflecting, primarily, weathering from granitoid rocks. This trend may result from non-steady state weathering conditions where active tectonism and uplift, as shown by morpho-structural conditions of the Messina Strait and its complex tectonic network, enhance mechanical erosion of mineralogical zones differentiated along weathering profiles developed on source rocks. Weathering efficiency at source area suggests weak intensity, related to a temperate Mediterranean climate similar to that characterizing the present-day study area.

Published

2016

40. A general theory for the effect of local topographic unevenness on contourite deposition around marine capes: An inverse problem applied to the Italian continental margin (Cape Suvero)

Author

Ettore Salusti, Federico Falcini, Francesco Latino Chiocci, and Eleonora Martorelli

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ocean current, Topographic obstacles, Geology, Contourite, Infill drifts, 010502 geochemistry & geophysics, Oceanography, topographic obstacles, infill drifts, slide scar, potential vorticity, headlands, 01 natural sciences, Sedimentary structures, Geostrophic current, Headland, Potential vorticity, Continental margin, Geochemistry and Petrology, Headlands, Sedimentary rock, Geomorphology, 0105 earth and related environmental sciences, Slide scar

Abstract

The interaction between ocean bottom currents and topographic obstacles often results in sedimentary processes that form intriguing sedimentary deposits. However, without a thorough knowledge of both fluid mechanical processes and oceanographic settings regarding these sedimentary deposits, such an inherited interaction is not easy to understand. We here analyze the interaction between a bottom, geostrophic current and a local topographic depression, a slide scar offshore Cape Suvero, an Italian headland in the southern Tyrrhenian Sea, in order to explain the presence of contourite drifts off this cape. We apply the classical conservation of marine water potential vorticity and demonstrate the presence of a steady cyclonic circulation over the scar, which in turn affects contourite deposition. We thus show that the application of the potential vorticity conservation provides a simple but powerful, general tool for the understanding of the complex relations among ocean current, seafloor morphologies and sedimentary structures. (C) 2016 Elsevier B.V. All rights reserved.

Published

2016