Your search keyword '"Tassetti N."' showing total 3 results

1. Cost-effective and relocatable monitoring of natural hydrocarbon seepages in the Italian Offshore

Author

Rovere M., Mercorella A., Spagnoli F, Funari V., Frapiccini E., Pellegrini C., Ciccone F., Antoncecchi I., Bonetti A.S., Dell'Orso M., Tassetti N., Giuliano G., De Marco R., and Fabi G.

Subjects

bottom sea monitoring

Abstract

Hydrocarbon seepage is overlooked in the marine environment, mostly due to lack of marine exploration data, especially over the continental shelf and upper slope, where data may be available but not at adequate resolution. Shallow marine environments, such as the north and the central Adriatic Sea, are ideal for the formation of hydrocarbons, because organic matter sinks to the sea bottom where undergoes rapid burial and anaerobic degradation. On the other hand, deeply-trapped hydrocarbons tend to migrate to shallower sedimentary horizons, they may pierce the seabed, giving rise to peculiar seafloor morphology, and, under particular conditions, fluids escape the seabed to form gas plumes in the water column. The latter can be accurately detected by modern multibeam sonar systems as 3D density anomalies, which sometimes can reach high at the sea surface. This contribution is about the geophysical and geochemical investigation of two seepage sites on the shelf of the Adriatic Sea. The study areas are represented by: an oil spill off Civitanova Marche, at water depth of 10 m; scattered biogenic seeps offshore Mt. Conero, at water depth of 84 m. Dissolved benthic fluxes of nutrients, metals and DIC have been measured by in situ deployment of a benthic chamber equipped with an automatic water sampler and a multi-parameter probe. Geochemical analysis was performed to identify the presence of and characterize hydrocarbons in the water samples and provide insights into the origins of the organic matter. Concentration of Polycyclic Aromatic Hydrocarbons and major and trace elements was analyzed to provide an estimate of hydrocarbon contamination in the surrounding sediment. We conducted these research activities under the umbrella of a technical agreement between ISMARCNR and the Italian Ministry of Economic Development, Directorate General for Safety - National Mining Office for Hydrocarbons and Georesources, within the Clypea Innovation Network, which seeks to increase the safety, also in terms of environmental protection, of offshore oil & gas exploration and exploitation, using innovative approaches. This study aims at: i) establishing a cost-effective and relocatable geochemical and geophysical monitoring system for natural hydrocarbon seepage to mitigate the adverse effects of hydrocarbon spill and discharge, especially if located near the coast or nearby human activities; ii) delivering a better understanding of the characteristics and origins of the petroleum system, adding a valuable layer of information to more conventional offshore exploration data; iii) to unravel the relationship of fluid seepage with geohazards, notably softsediment deformation, and sea level changes as triggering mechanism.

Published

2019

2. Distribution of the sea pens Virgularia mirabilis and Funiculina quadrangularis (Cnidaria Anthozoa) in the northern and central Adriatic Sea

Author

Salvalaggio V.(1), Fabi G.(1), Punzo E.(1), Santelli A.(1), Strafella P.(1), Tassetti N.(1), Cvitkovi? I.(2), Despalatovi? M.(2), Raicevich S.(3), and Scarcella G.(1)

Subjects

Cnidaria, North Adriatic Sea, Conservation

Abstract

Occurrence and distribution of the sea pens Virgularia mirabilis and Funiculina quadrangularis in the northern and central Adriatic Sea were determined from data collected during five trawl surveys from 2011 to 2015 carried out through rapido trawl. Species density data (number of individuals per km ) were processed to describe their spatial distribution.

Published

2016

3. Characterization of microplastic litter in the gastrointestinal tract of Solea solea from the Adriatic Sea.

Author

Pellini, G., Gomiero, A., Fortibuoni, T., Ferrà, Carmen, Grati, F., Tassetti, N., Polidori, P., Fabi, G., and Scarcella, G.

Subjects

PLASTIC marine debris, GASTROINTESTINAL system, SOLEA solea, MARINE ecology

Abstract

Micro-plastic particles in the world's oceans represent a serious threat to both human health and marine ecosystems. Once released into the aquatic environment plastic litter is broken down to smaller pieces through photo-degradation and the physical actions of waves, wind, etc. The resulting particles may become so small that they are readily taken up by fish, crustaceans and mollusks. There is mounting evidence for the uptake of plastic particles by marine organisms that form part of the human food chain and this is driving urgent calls for further and deeper investigations into this pollution issue. The present study aimed at investigating for the first time the occurrence, amount, typology of microplastic litter in the gastrointestinal tract of Solea solea and its spatial distribution in the northern and central Adriatic Sea. This benthic flatfish was selected as it is a species of high commercial interest within the FAO GFCM (General Fisheries Commission for the Mediterranean) area 37 (Mediterranean and Black Sea) where around 15% of the overall global Solea solea production originates. The digestive tract contents of 533 individuals collected in fall during 2014 and 2015 from 60 sampling sites were examined for microplastics. These were recorded in 95% of sampled fish, with more than one microplastic item found in around 80% of the examined specimens. The most commonly found polymers were polyvinyl chloride, polypropylene, polyethylene, polyester, and polyamide, 72% as fragments and 28% as fibers. The mean number of ingested microplastics was 1.73 ± 0.05 items per fish in 2014 and 1.64 ± 0.1 in 2015. PVC and PA showed the highest densities in the northern Adriatic Sea, both inshore and off-shore while PE, PP and PET were more concentrated in coastal areas with the highest values offshore from the port of Rimini. [ABSTRACT FROM AUTHOR]

Published

2018