Margherita Toma scite author profile

The Ligurian Sea is one of the most studied Mediterranean basins. Since the beginning of the last century, many research expeditions have characterized its benthic and pelagic fauna through scuba diving and trawl surveys. However, a large knowledge gap exists about the composition of benthic communities extending into the so-called mesophotic or twilight depth range, currently under intense pressure from commercial and recreational fishing. A series of visual surveys, carried out by means of remotely operated vehicles between 2012 and 2018, were conducted along the Ligurian deep continental shelf and shelf break, between 30 and 210 m depth, in order to characterize the main benthic biocoenoses dwelling at this depth range and to determine the most relevant environmental factors that explain their spatial distribution. Deep circalittoral communities of the Ligurian Sea were represented by a mixture of species belonging to the deepest extension of shallow-water habitats and deep circalittoral ones. Twelve major biocoenoses were identified, each one characterized by specific preferences in depth range, substrate type and seabed slope. Those biocoenoses included gorgonian and hydrozoan forests, dense keratose sponge grounds, Dendrophyllia cornigera gardens, bryozoan beds and soft-bottom meadows of sabellid polychaetes and soft-corals. Other less common aggregations included six forests of black corals and two populations of Paramuricea macrospina. A georeferenced database has been created in order to provide information to managers and stakeholders about the location of the identified communities and high-diversity areas, aiming to facilitate sustainable long-term conservation of the Ligurian benthic ecosystem.

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Assessing the environmental status of temperate mesophotic reefs: A new, integrated methodological approach

Enrichetti

Morri

et al. 2019

Ecological Indicators

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Keratose‐dominated sponge grounds from temperate mesophotic ecosystems (NW Mediterranean Sea)

et al. 2020

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Sponges are known to form dense aggregations all over the world, ranging from inter-tidal to high depths, in tropical, temperate and polar regions (Maldonado et al., 2017). These aggregations, commonly known as sponge grounds, increase habitat three-dimensionality and enhance biodiversity providing shelter, food sources and suitable habitats for several organisms and by actively producing micro-currents that are exploited by a rich associated fauna (Beazley et al., 2013; Hogg et al., 2010; Kenchington et al., 2013). Furthermore, due to their influence in the pelagicbenthic coupling, some of the densest sponge aggregations play an important role in biogeochemical cycles and food webs (Coppari et al., 2016; Kahn et al., 2015). Several international agencies and organizations recognize sponge grounds as vulnerable habitats deserving special attention and legal protection, due to the fragmentary understanding of their functioning coupled with well-documented situations of physical damage and habitat destruction derived from anthropic activities (Hogg et al., 2010;

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Basin-scale occurrence and distribution of mesophotic and upper bathyal red coral forests along the Italian coasts

Toma

CATTANEO-VIETTI³

et al. 2022

Medit. Mar. Sci.

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The analysis of 879 ROV dives carried out along the Italian coasts on hard substrata at mesophotic and upper bathyal depths (40-775 m) allowed us to evaluate the current basin-scale presence, relative abundance, bathymetric limits, and habitat preferences of one of the most charismatic Mediterranean habitat-former anthozoan species, Corallium rubrum (Linnaeus, 1758). The species is widespread, and its occurrence ranged from 13% of the explored sites in Ionian Calabria to a hotspot of approximately 80% in Sardinia. Population relative densities were generally low (< 10 colonies m-2), except along the Sardinian coasts and in some areas along the Apulian coast. Almost no red coral colonies were observed between 60 m and 590 m in the nine explored offshore seamounts in the Ligurian and Tyrrhenian Seas. A distinctive coastal distribution discontinuity was found in the Ionian Sea. The optimum bathymetric distribution was between 75 m and 125 m, and no colonies were found below 247 m. Red coral colonies showed a preference for biogenic habitats dominated by crustose coralline algae (CCA) and vertical substrata. The species was absent on iron wrecks. Corallium rubrum disappeared from 14% of the historical fishing banks, while it was confirmed in 86% of them, some of which have been deeply harvested in the past. In particular, the still flourishing Sardinian populations could be supported by the high reproductive potential and favourable hydrodynamic conditions in the area.

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Assessment and distribution of seafloor litter on the deep Ligurian continental shelf and shelf break (NW Mediterranean Sea)

Enrichetti

Domínguez-Carrió

Toma

et al. 2020

Marine Pollution Bulletin

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Margherita Toma

Megabenthic communities of the Ligurian deep continental shelf and shelf break (NW Mediterranean Sea)

Assessing the environmental status of temperate mesophotic reefs: A new, integrated methodological approach

Keratose‐dominated sponge grounds from temperate mesophotic ecosystems (NW Mediterranean Sea)

Basin-scale occurrence and distribution of mesophotic and upper bathyal red coral forests along the Italian coasts

Assessment and distribution of seafloor litter on the deep Ligurian continental shelf and shelf break (NW Mediterranean Sea)

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