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Vacchi, Matteo
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Vacchi, Matteo
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- PublicationRestrictedForecasted weakening of Atlantic overturning circulation could amplify future relative sea-level rise in the Mediterranean: A review of climate and tide-gauge data linksSea-level rise is one of the most significant and perceptible consequences of global warming because it affects natural environments and coastal anthroposcapes at human timescales, particularly in sediment-starved littoral contexts. Within this framework, improvements in understanding the projection of sea-level rise require better knowledge of regional changes. Here we focus on the recent sea-level history of the Mediterranean Sea, an area characterized by a densely populated coast and where climate variability is larger, and the rate of sea-level rise higher than the global average. We produce a spatially-averaged Mediterranean relative sea-level (RSL) time series, based on 138 tide-gauge records, stretching back to the late 1800s, indicating that Mediterranean RSL has risen by ∼24 cm in the past ∼140 years. At interdecadal timescales and beyond, we find that Mediterranean relative sea-level rising rates (RSLRR) are significantly influenced by the strength of the Atlantic Multidecadal Oscillation (AMO) and the Atlantic Meridional Overturning Circulation (AMOC). Climate-model predictions of a weakened Atlantic overturning circulation in the coming decades, slowing and diminishing North Atlantic heat transport, has the potential to accentuate Mediterranean rising rates, with significant implications for the basin's coastal societies, infrastructure and economies. We conservatively estimate that a 0.1 °C decrease in AMO sea surface temperatures can accentuate Mediterranean RSLRR by up to −0.61 ± 0.5 mm yr−1. Future coastal management and adaptation policies must assimilate these findings into local/regional-scale impact and vulnerability assessments.
72 58 - PublicationOpen AccessPreservation of Modern and MIS 5.5 Erosional Landforms and Biological Structures as Sea Level Markers: A Matter of Luck?(2021)
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;The Mediterranean Basin is characterized by a significant variability in tectonic behaviour, ranging from subsidence to uplifting. However, those coastal areas considered to be tectonically stable show coastal landforms at elevations consistent with eustatic and isostatic sea level change models. In particular, geomorphological indicators—such as tidal notches or shore platforms—are often used to define the tectonic stability of the Mediterranean coasts. We present the results of swim surveys in nine rocky coastal sectors in the central Mediterranean Sea using the Geoswim approach. The entire route was covered in 22 days for a total distance of 158.5 km. All surveyed sites are considered to have been tectonically stable since the last interglacial (Marine Isotope Stage 5.5 [MIS 5.5]), because related sea level markers fit well with sea level rise models. The analysis of visual observations and punctual measurements highlighted that, with respect to the total length of surveyed coast, the occurrence of tidal notches, shore platforms, and other indicators accounts for 85% of the modern coastline, and only 1% of the MIS 5.5 equivalent. Therefore, only 1% of the surveyed coast showed the presence of fossil markers of paleo sea levels above the datum. This significant difference is mainly attributable to erosion processes that did not allow the preservation of the geomorphic evidence of past sea level stands. In the end, our research method showed that the feasibility of applying such markers to define long-term tectonic behaviour is much higher in areas where pre-modern indicators have not been erased, such as at sites with hard bedrock previously covered by post-MIS 5.5 continental deposits, e.g., Sardinia, the Egadi Islands, Ansedonia, Gaeta, and Circeo. In general, the chances of finding such preserved indicators are very low.70 22 - PublicationOpen AccessChronology of the Mediterranean sea‐level highstand during the Last Interglacial: a critical review of the U/Th‐dated depositsRelative sea‐level (RSL) evolution during Marine Isotopic Stage (MIS) 5 in the Mediterranean basin is still not fully understood despite a plethora of morphological, stratigraphic and geochronological studies carried out on highstand deposits of this area. In this review we assembled a database of 323 U/Th‐dated samples (e.g. corals, molluscs, speleothems) which were used to chronologically constrain RSL evolution within MIS 5. The application of strict geochemical criteria to the U/Th samples indicates that only ~33% of data available for the Mediterranean Sea can be considered ‘reliable’. Most of these data (~65%) refer to the MIS 5e highstand, while only ~17% could be related to the MIS 5a. No attribution to MIS 5c can be unequivocally supported. Nevertheless, the resulting framework does not allow us to define a satisfactory RSL trend during the MIS 5e highstand and subsequent MIS 5 substages. Overall, the proposed selection of reliable/unreliable data would be useful for detecting areas where MIS 5 substage attributions are not supported by confident U/Th chronological data and thus the related reconstructions need to be revised. In this regard, the resulting framework calls for a reappraisal and re‐examination of the Mediterranean records with advanced geochronological methodologies.
49 43 - PublicationRestrictedMillennial variability of rates of sea-level rise in the ancient harbour of Naples (Italy, western Mediterranean Sea)(2020)
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;; ; ; ; ; ; ; ;We reconstructed the late Holocene relative sea-level (RSL) evolution of the ancient harbour of Naples, one of the largest coastal conurbations in the Mediterranean. We carried out multiproxy investigations, coupling archaeological evidence with biological indicators. Our data robustly constrain 2000 yr of non-monotonic changes in sea level, chiefly controlled by the complex volcano-tectonic processes that characterize the area. Between ∼200 BC and AD ∼0, a subsidence rate of more than ∼1.5 mm/yr enhanced the postglacial RSL rise, while negligible or moderate land uplift < ∼0.5 mm/yr triggered a RSL stabilization during the Roman period (first five centuries AD). This stabilization was followed by a post-Roman enhancement of the sea-level rise when ground motion was negative, attested by a subsidence rate of ∼0.5 to ∼1 mm/yr. Our analysis seems to indicate very minor impacts of this nonmonotonic RSL evolution on the activities of the ancient harbour of Naples, which peaked from the third century BC to the second century AD. After this period, the progressive silting of the harbour basin made it impossible to safely navigate within the basin, leading to the progressive decline of the harbour.472 6 - PublicationRestrictedAn end to the Last Interglacial highstand before 120 ka: Relative sea-level evidence from Infreschi Cave (Southern Italy)(2020)
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; The timing, duration and evolution of sea level during the Marine Isotope Stage 5e (MIS 5e) highstand is a subject of intense debate. A major problem in resolving this debate is the difficulty of chronologically constraining the sea level fall that followed the peak of the highstand. This was mainly controlled by icesheet dynamics, the understanding of which is relevant for assessing future sea-level behavior due to global warming. Here we use stratigraphical and geochoronological (U/Th dating and tephra fingerprinting) evidence from the Infreschi archaeological cave (Marina di Camerota, Southern Italy) to constrain relative sea level (RSL) evolution during the MIS 5e highstand and younger stages. Uraniumthorium dating of speleothem deposition phases places the maximum highstand RSL at 8.90 ± 0.6 m a.s.l., as indicated by the near-horizontal upper limit of Lithophaga boreholes measured for along a ~3.5 km coastal cliff section. Geochronological data show that RSL fell more than 6 m before ~120 ka, suggesting a duration of the Last Interglacial highstand significantly shorter than proposed in some previous studies. Modelling shows that the RSL trend predicted by the ICE-5G and ICE-6G ice-sheet simulations is consistent with our data, but requires an additional significant reduction of both Greenland and Antarctic ice sheets to match the height of the local maximum highstand if no correction for tectonics is applied. Reconciling field data and models requires an earlier and likely shorter duration of the MIS 5e highstand. This suggests that our new data can constrain global ice-volume variations during the penultimate deglaciation, as well as glacial inception at the end of the Last Interglacial. According to our chronology, there is no local evidence of higher-than-present-day sea levels after 120 ka.67 2 - PublicationRestrictedMillstone quarries along the Mediterranean coast: Chronology, morphological variability and relationships with past sea levels(2017)
; ; ; ; ; ; ; ; ; ; ; ; ; ;; ; ; ; ; ; ; ; ;The coast of the Mediterranean provide several remnants of ancient coastal quarries, which are now useful to study sea level change occurring during the last millennia. Millstones quarries were exploited with same quarrying techniques from rocks like beachrocks, sandstones or similar lithologies, were shaped to be suitable to grind olives, seeds and wheat, to produce oil and flour, or to break apart soft rocks. In this study we integrated historical sources, aerial photography, field surveys and palaeo sea-level modelling to investigate a number of millstones quarries with the aim to asses the intervening sea level change that occurred since the quarries were abandoned. We investigated on their chronology, spatial distribution and spatial relationship to the sea-level. Our results indicate that most of these were carved close to sea level between 1.45 ka and 0.25 ka cal BP, but mainly around 0.45 cal ka BP. Despite the uncertainties associated with the chronology in, we found good agreement between their lowest elevation (between 0.33 m and −0.06 m) and the paleo sea-levels, as predicted by the GIA models.291 6 - PublicationRestrictedLate Quaternary sea-level changes and early human societies in the central and eastern Mediterranean Basin: An interdisciplinary review(2017)
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;; This article reviews key data and debates focused on relative sea-level changes since the Last Interglacial (approximately the last 132,000 years) in the Mediterranean Basin, and their implications for past human populations. Geological and geomorphological landscape studies are critical to archaeology. Coastal regions provide a wide range of resources to the populations that inhabit them. Coastal landscapes are increasingly the focus of scholarly discussions from the earliest exploitation of littoral resources and early hominin cognition, to the inundation of the earliest permanently settled fishing villages and eventually, formative centres of urbanisation. In the Mediterranean, these would become hubs of maritime transportation that gave rise to the roots of modern seaborne trade. As such, this article represents an original review of both the geo-scientific and archaeological data that specifically relate to sea-level changes and resulting impacts on both physical and cultural landscapes from the Palaeolithic until the emergence of the Classical periods. Our review highlights that the interdisciplinary links between coastal archaeology, geomorphology and sea-level changes are important to explain environmental impacts on coastal human societies and human migration. We review geological indicators of sea level and outline how archaeological features are commonly used as proxies for measuring past sea levels, both gradual changes and catastrophic events. We argue that coastal archaeologists should, as a part of their analyses, incorporate important sea-level concepts, such as indicative meaning. The interpretation of the indicative meaning of Roman fishtanks, for example, plays a critical role in reconstructions of late Holocene Mediterranean sea levels. We identify avenues for future work, which include the consideration of glacial isostatic adjustment (GIA) in addition to coastal tectonics to explain vertical movements of coastlines, more research on Palaeolithic island colonisation, broadening of Palaeolithic studies to include materials from the entire coastal landscape and not just coastal resources, a focus on rescue of archaeological sites under threat by coastal change, and expansion of underwater archaeological explorations in combination with submarine geomorphology. This article presents a collaborative synthesis of data, some of which have been collected and analysed by the authors, as the MEDFLOOD (MEDiterranean sea-level change and projection for future FLOODing) community, and highlights key sites, data, concepts and ongoing debates.265 7 - PublicationRestrictedReply to comment by Evelpidu N., and Pirazzoli P. on “Tidal notches in the Mediterranean sea: A comprehensive analysis”(2016)
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;; ; ; ; ; ; ; ; ; ; ; ;We take the chance offered by the comment of Evelpidou and Pirazzoli (2015a) to our paper (Antonioli et al., 2015) to clarify some aspects of our work. We reinforce our statement that a present-day tidal notch is almost continuously developed along much of the central Mediterranean coast.130 3 - PublicationRestrictedTidal notches in Mediterranean Sea: a comprehensive analysis(2015)
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;Antonioli, F.; ENEA ;Lo Presti, V.; ENEA ;Rovere, A.; MARUM, University of Bremen & ZMT, Tropical Marine Ecology Center, Bremen, Germany ;Ferranti, L.; Department of Earth Sciences, Environment and Resources, “Federico II” University, Napoli, Italy ;Anzidei, M.; Istituto Nazionale di Geofisica e Vulcanologia, Sezione CNT, Roma, Italia ;Furlani, S.; Department of Mathematics and Geosciences, University of Trieste, Italy ;Mastronuzzi, G.; Department of Earth and Geoenvironmental Sciences, “Aldo Moro” University, Bari, Italy ;Orrù, P.; Department of Chemical and Geological Sciences, University of Cagliari, Italy ;Scicchitano, G.; Department of Phisics and Earth Sciences, University of Messina, Italy ;Sannino, G.; ENEA ;Spampinato, C.; Department of Biological, Geological and Environmental Sciences, University of Catania, Italy ;Pagliarulo, R.; CNR, IRPI, Bari, Italy ;Deiana, G.; Department of Chemical and Geological Sciences, University of Cagliari, Italy ;De Sabata, E.; MedSharks, Roma, Italy ;Sansò, P.; Department of Biological and Environmental Sciences and Technologies, University of Salento, Lecce, Italy ;Vacchi, M.; Aix-Marseille Universit e, CEREGE CNRS-IRD UMR 34, Europole de l'Arbois Aix-en-Provence, France ;Vecchio, A.; Istituto Nazionale di Geofisica e Vulcanologia, Sezione CNT, Roma, Italia ;; ; ; ; ; ; ; ;; ; ; ; ; ; ; Recent works (Evelpidou et al., 2012) suggest that the modern tidal notch is disappearing worldwide due sea level rise over the last century. In order to assess this hypothesis, we measured modern tidal notches in several of sites along the Mediterranean coasts. We report observations on tidal notches cut along carbonate coasts from 73 sites from Italy, France, Croatia, Montenegro, Greece, Malta and Spain, plus additional observations carried outside the Mediterranean. At each site, we measured notch width and depth, and we described the characteristics of the biological rim at the base of the notch. We correlated these parameters with wave energy, tide gauge datasets and rock lithology. Our results suggest that, considering ‘the development of tidal notches the consequence of midlittoral bioerosion’ (as done in Evelpidou et al., 2012) is a simplification that can lead to misleading results, such as stating that notches are disappearing. Important roles in notch formation can be also played by wave action, rate of karst dissolution, salt weathering and wetting and drying cycles. Of course notch formation can be augmented and favoured also by bioerosion which can, in particular cases, be the main process of notch formation and development. Our dataset shows that notches are carved by an ensemble rather than by a single process, both today and in the past, and that it is difficult, if not impossible, to disentangle them and establish which one is prevailing. We therefore show that tidal notches are still forming, challenging the hypothesis that sea level rise has drowned them.340 84 - PublicationRestrictedThe Ligurian Sea: present status, problems and perspectives(2010-06)
; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;Cattaneo Vietti, R.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Albertelli, G.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Aliani, S.; CNR- ISMAR, La Spezia, Italy ;Bava, S.; Area Marina Protetta di Portofino, Portofino, Italy ;Bavestrello, G.; Università degli Studi di Ancona, Ancona, Italy ;Benedetti Cecchi, L.; Dipartimento di Biologia, Università degli Studi di Pisa, Pisa, Italy ;Bianchi, C. N.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Bozzo, E.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Capello, M.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Castellano, M.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Cerrano, C.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Chiantore, M.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Corradi, N.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Cocito, S.; ENEA, Santa Teresa, La Spezia, Italy ;Cutroneo, L.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Diviacco, G.; Regione Liguria, Genoa, Italy ;Fabiano, M.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Faimali, M.; CNR-ISMAR, Genoa, Italy ;Ferrari, M.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Gasparini, G. P.; CNR- ISMAR, La Spezia, Italy ;Locritani, M.; Istituto Nazionale di Geofisica e Vulcanologia, Sezione Roma2, Roma, Italia ;Mangialajo, L.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Marin, V.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Moreno, M.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Morri, C.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Orsi Relini, L.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Pane, L.; Dipartimento di Biologia, Università degli Studi di Genova, Genoa, Italy ;Paoli, C.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Petrillo, M.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Povero, P.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Pronzato, R.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Relini, G.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Santangelo, G.; Dipartimento di Biologia, Università degli Studi di Pisa, Pisa, Italy ;Tucci, S.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Tunesi, L.; ISPRA, Rome, Italy ;Vacchi, M.; ISPRA, Rome, Italy ;Vassallo, P.; Dip.Te.Ris. Università degli Studi di Genova, Genoa, Italy ;Vezzulli, L.; Dipartimento di Biologia, Università degli Studi di Genova, Genoa, Italy ;Wurtz, M.; Dipartimento di Biologia, Università degli Studi di Genova, Genoa, Italy; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; The Ligurian Sea is a deep basin in the northernmost sector of the western Mediterranean which shows peculiar hydrodynamic and meteo-oceanographic features. The coasts of the Ligurian Sea are among the most urbanised and industrialised along the Italian coastline: the main causes of disturbance being littoral urban development and harbour activities, the building of littoral rail- and highways, and the presence of several polluted discharges. This review, by evaluating the huge scientific output published in the last three decades, describes and discusses the most important geological, hydrological and biological characteristics of the Ligurian Sea.We show that this regional sea has largely been investigated in terms of its geological and structural evolution, as well as in terms of the sedimentation dynamics of the littoral and deep bottoms, with particular attention to the sedimentation balance of the beaches and their erosive processes.We report that the prevalent hydrodynamic and meteo-oceanographic conditions favour a continuous exchange of coastal water masses, and that the seasonal and interannual dynamics of water masses can effects the local climate, with direct and indirect consequences on fish and benthic communities documented in the last decade. We stress that although recent studies offer good knowledge of the distribution of coastal benthic communities, only scant information is available for the whole continental shelf, the submarine canyons and the rocky bathyal bottoms. Our meta-analysis reveals that significant fishing activities are monitored, but also that certain sectors of the biological resource are suffering, and suggests the set up of appropriate management measures. The Ligurian Sea hosts a number of Marine Protected Areas (MPAs) of high relevance, while the institution of the Whale Sanctuary completes the protection policy of the Regione Liguria. Our meta-analysis points out the need for long-term studies, based primarily on the analysis of those areas of the Ligurian Sea that have been little investigated to date. Finally, only properly addressed studies, using experimental approaches and along appropriate spatial and temporal scales, might allow us to understand the functioning of the Ligurian marine ecosystems, evaluate their health conditions and the dynamics of the main variables that affect the distribution of the single species (including species of high economic value) and benthic communities.868 53