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7. High potential for temperate viruses to drive carbon cycling in chemoautotrophy-dominated shallow-water hydrothermal vents

Author

Rastelli E., Corinaldesi C., Dell'Anno A., Tangherlini M., Martorelli E., Ingrassia M., Chiocci F.L., Lo Martire M., and Danovaro R.

Subjects
ecosystem, carbon, fungi, temperate viruses, Benthic microbial assemblages, geologic sediments, water microbiology, hydrothermal vents, carbon cycle, chemoautotrophic growth, Mediterranean Sea, bacteria, seawater
Abstract

Viruses are the most abundant life forms in the world's oceans and they are key drivers of biogeochemical cycles, but their impact on the microbial assemblages inhabiting hydrothermal vent ecosystems is still largely unknown. Here, we analysed the viral life strategies and virus-host interactions in the sediments of a newly discovered shallow-water hydrothermal field of the Mediterranean Sea. Our study reveals that temperate viruses, once experimentally induced to replicate, can cause large mortality of vent microbes, significantly reducing the chemoautotrophic carbon production, while enhancing the metabolism of microbial heterotrophs and the re-cycling of the organic matter. These results provide new insights on the factors controlling primary and secondary production processes in hydrothermal vents, suggesting that the inducible provirus-host interactions occurring in these systems can profoundly influence the functioning of the microbial food web and the efficiency in the energy transfer to the higher trophic levels.

Published
2017

10. Local food availability affects invasion ability of alien bivalves: an experimental and simulation integrated approach

Author

Rinaldi, A, Montalto, V, Niceta, N, Lo Martire, M, SARA', Gianluca, Rinaldi, A, Montalto, V, Niceta, N, Lo Martire, M, and Sarà, G

Subjects
intertidal, food availability, bivalve
Abstract

The Lessepsian bivalve Brachidontes pharaonis is considered as one of 100 worst invasive species in the Mediterranean rapidly colonizing the most part of the Basin. Its current distribution seems primarily due to ship transport of carrying larvae by ballast waters and/or in the fouling attached beneath the ship-keels. Although humanmediated transport seems to potentially in!uence dispersal of invasive species, habitat suitability, temperature, salinity and food availability (i.e. in terms of quality and quantity of organic matter) seem to represent decisive factors in determining survivorship and distribution of this species. Physiological tolerance of B. pharaonis to temperature and salinity changes has been demonstrated to be very large, while scant information available about its physiological response to food availability changes. In this paper, we report the #rst experimental mesocosmal dataset on B. pharaonis’s scope for growth (SFG) as a function of di"erent concentrations of chlorophyll-a from 0.9 – 1.0 to 3.9 – 4.0 μg l-1. B. pharaonis’s SFG varied from negative values at 0.1 μg l-1 [CHL-a] to positive values at > 0.9 μg l-1 [CHL-a]. In addition, by interpolating , SFG data and large satellite dataset of CHL-a values obtained from the Environmental Marine Information System (EMIS), we estimated on a very small spatial scale (8.1 nmi) the potential dispersal and distribution of this specie along Sicilian coastlines.

Published
2009

11. Report on metadata information from pilot areas. DEVOTES FP7 Project

Author

Bizsel, K.C., Cochrane, S., Andersen, J.H., Carstensen, J., Bizsel, N., Eronat, H., Kaboglu, G., Akcali, B., Yilmaz, E.C., Tokat, E., Akcali, I., Ozaydinli, M., Kavcioglu, R., Borja, A., Solaun, O., Carugati, L., Uusitalo, L., Beauchard, O., Moncheva, S., Stefanova, K., Churilova, T., Suslin, S., Papadopoulou, N., Donavaro, R., and Lo Martire, M.

Published
2014

13. L’effetto della mitilicoltura posta a valle di allevamenti di specie ittiche riduce il carico organico

Author

LO MARTIRE M, PUSCEDDU A, SARA', Gianluca, MONTALTO, Valeria, LO MARTIRE M, MONTALTO V, PUSCEDDU A, and SARA' G

Subjects
mitilicoltura, mussel cleaning, carico organico
Abstract

L’utilizzo del mussel cleaning che sfrutta le caratteristiche fisiologiche dei molluschi filtratori per la mitigazione degli impatti derivanti da reflui particellati di origine antropica, ed in particolare delle attività di piscicoltura, è stato introdotto di recente in diversi paesi europei. Tale procedura si basa sull’ipotesi che la filtrazione operata da elevate biomasse di molluschi eduli posti nei pressi degli impianti di pescicoltura possa ridurre il carico organico in eccesso proveniente dal surplus di mangime fornito ai pesci allevati e che in certa parte inutilizzato tende a sedimentare al di sotto delle gabbie di allevamento. In questo studio abbiamo analizzato in due periodi differenti (Luglio e Ottobre 2006) le differenze nel carico e nella composizione biochimica del particellato in sospensione in siti posti nelle vicinanze di gabbie di allevamento di pesci associate a filari per l’allevamento di bivalvi (mitili ed ostriche) ed in siti di controllo lontani dalle gabbie ma caratterizzati dalla presenza di filari di molluschi. Né quantità né composizione biochimica del particellato sospeso differiscono significativamente tra siti interessati dai reflui della piscicoltura e relativi controlli. Questi risultati suggeriscono che la presenza di elevate biomasse di filtratori possa avere un certo effetto nella riduzione del carico organico associato ai reflui di maricoltura.

Published
2007

15. Modificazioni nelle comunità fitobentoniche di fouling in relazione all’impatto antropico ed alla geometria del substrato

Author

MANNINO, Anna Maria, GENNUSA V, RINALDI, Anna Maria, LO MARTIRE M, SARA', Gianluca, MANNINO AM, GENNUSA V, RINALDI A, LO MARTIRE M, and SARA' G

Subjects
Settore BIO/07 - Ecologia, impatto antropico, zona litorale, comunità algali, Settore BIO/02 - Botanica Sistematica
Abstract

Questo studio è stato condotto nella primavera del 2006 in due località del Golfo di Palermo (Arenella e Bandita) a differente grado di impatto antropico. All’interno di ogni località, sono stati scelti siti a differente inclinazione (orizzontale vs verticale). Sono stati campionati i popolamenti mesolitorali dei massi frangiflutti che, insieme a quelli della frangia infralitorale, risentono maggiormente dell’eventuale presenza di inquinamento organico. Le comunità algali nelle due località hanno mostrato differenze in funzione delle diverse caratteristiche ambientali e dei diversi livelli di impatto antropico, in termini di copertura %, strutturazione e diversità specifica. Sono stati inoltre evidenziati effetti significativi della differente inclinazione sulla strutturazione delle comunità indagate, con una più elevata ricchezza specifica riscontrata nei siti con inclinazione verticale rispetto a quelli orizzontali.

Published
2006

16. Ruolo dell’interazione tra impatto antropico e inclinazione del substrato nella struttura delle comunità bentoniche di fouling

Author

SARA' G, RINALDI A, GENNUSA V, LO MARTIRE M, MILAZZO M, MANNINO A M, Cimmaruta, R, Bondanelli, P, SARA' G, RINALDI A, GENNUSA V, LO MARTIRE M, MILAZZO M, and MANNINO A M

Subjects
Settore BIO/07 - Ecologia, Settore BIO/02 - Botanica Sistematica, substrati artificiali, benthos, inclinazione substrato
Abstract

I substrati duri artificiali sono idonei per verificare la risposta ecologica degli organismi del benthos a differenti livelli di variabilità dell’interazione tra fattori antropici, abiotici e biotici. La combinazione tra impatto umano e inclinazione del substrato può influenzare la struttura di comunità. Lo studio è stato condotto nella primavera 2006 nel Golfo di Palermo, nel quale sono state individuate due località a diverso grado di impatto antropico derivante da attività industriali e da reflui urbani. In ogni località, sono stati scelti siti a differente complessità geometrica (inclinazione orizzontale vs verticale). I campionamenti sono stati effettuati sulla fascia mesolitorale di massi frangiflutti con un grattaggio di una superficie di 400 cm . Gli organismi raccolti ad ogni livello di interazione tra impatto e inclinazione sono stati contati e classificati ed i dati ottenuti sono stati analizzati con una ANOVA. Le comunità nelle due località a differente livello di impatto sono risultate differenti sia in termini di abbondanza che di composizione. I principali gruppi erano poliplacofori, gasteropodi, malacostraci, cirripedi e bivalvi; questi ultimi dominavano la comunità nei siti impattati, mentre i cirripedi dominavano la comunità nei siti non impattati. L’inclinazione dei substrati ha mostrato avere un effetto significativo sulla distribuzione degli organismi e partecipa in modo significativo nella strutturazione delle comunità indagate.

Published
2006

23. Messa a punto di impianti di mitilicultura in una ipotesi di riduzione del carico organico da maricoltura

Author

ZENONE A., BUFFA G., D’ANNA G., LO MARTIRE M., MARTINO G., and SARÀ G.

Subjects
reduction of effects, Mollusc, fish farming, organic matter
Abstract

The present study was carried out close to a fish farming area in the Gulf of Castellammare (N-W Sicily) in summer 2004. Specimens of Mytilus galloprovincialis were transplanted in putatively impacted areas and controls to test the recycler capability of bivalves for reducing the impact of waste on the surrounding environment.Mussels cultivated close to farms grew quicker than mussels in controls transforming waste OM in edible biomass and those positioned at 3 meters depth reached higher levels of secondary production than those at 9 meters.

Published
2006

25. Feasibility of the Sabellarid Reef Habitat Restoration

Author

Giulio Franzitta, Alberto Colletti, Beatrice Savinelli, Marco Lo Martire, Cinzia Corinaldesi, Luigi Musco, Franzitta, G., Colletti, A., Savinelli, B., Lo Martire, M., Corinaldesi, C., and Musco, L.

Subjects
environmental restoration, Global and Planetary Change, Mediterranean sea, honeycomb worm, ross worm, Ocean Engineering, Aquatic Science, Oceanography, bioconstruction, habitat restoration, Sabellaria, Water Science and Technology
Abstract

Polychaetes of the genus Sabellaria (Annelida, Sabellariidae) are gregarious bioconstructors that build reefs by assembling rigid tubes with sand grains in shallow waters. Sabellarid bioconstructions provide important ecosystem services such as sediment stabilization, water filtration and the mitigation of coastal erosion as well as nursery areas, shelter and feeding grounds for several marine species. Moreover, sabellarid reefs are exposed to both natural and anthropogenic disturbance and are therefore listed by international directives among the marine habitats deserving protection. We conducted a pilot study to assess the feasibility of habitat restoration with the sabellarid reef through a novel transplantation method. Fragments of S. spinulosa reef were collected at 1 m depth, fixed using epoxy putty into terracotta vases and then attached on the landward side of the two breakwaters in a coastal marine area enclosed in a Site of National Interest (SNI) of the central-western Adriatic (Mediterranean Sea). Overall, 14 of the 24 transplanted fragments (54.2%) survived during the study period (17 months). The total area of the transplanted reef fragments reduced during the early phase, appearing stable toward the end of the experiment. The transplantation method resulted effective given the survival rate observed, however, we did not observe the expected increase in the reef surface. Small-scale variation in environmental conditions such as organic load, sediment granulometry and hydrodynamics might have affected the growth capacity of the transplanted reef fragments. Further studies considering the microscale environmental requirements of this species are needed to better understand the feasibility of sabellarid reef restoration and its large-scale implementation.

Published
2022

26. The Paradox of an Unpolluted Coastal Site Facing a Chronically Contaminated Industrial Area

Author

Cinzia Corinaldesi, Silvia Bianchelli, Eugenio Rastelli, Stefano Varrella, Sara Canensi, Cristina Gambi, Marco Lo Martire, Luigi Musco, Iacopo Bertocci, Emanuela Fanelli, Giulia Lucia, Nicola Simoncini, Antonio Dell’Anno, Corinaldesi, C., Bianchelli, S., Rastelli, E., Varrella, S., Canensi, S., Gambi, C., Lo Martire, M., Musco, L., Bertocci, I., Fanelli, E., Lucia, G., Simoncini, N., and Dell'Anno, A.

Subjects
Global and Planetary Change, organic contaminant, Science, marine pollution, trophic state, heavy metals, organic contaminants, meiofauna, highly contaminated marine areas, General. Including nature conservation, geographical distribution, Ocean Engineering, highly contaminated marine area, QH1-199.5, Aquatic Science, heavy metal, Oceanography, marine pollution, trophic state, meiofauna, highly contaminated marine areas, organic contaminants, heavy metals, Water Science and Technology
Abstract

Present and past industrial activities in coastal areas have left us a legacy of contamination and habitat degradation with potential implications for human health. Here, we investigated a coastal marine area enclosed in a Site of National Interest (SNI) of the central-western Adriatic (Mediterranean Sea), where priority actions of environmental remediation are required by governmental laws due the high environmental and human risk, and that is off-limits to any human activity since 2002. In particular, our investigation was focused on an area located in front of a chemical industry dismissed more than 3 decades ago. We report that the concentrations of heavy-metal and organic contaminants in the investigated sediments were generally lower than those expected to induce detrimental biological effects. Meiofaunal abundance, biomass and community structure changed among stations, but regardless of the distance from the abandoned industrial plant. Taxa richness within the SNI did not change significantly compared to the controls and the lack of some taxa in the SNI transects was not due to the contamination of the SNI area. The results of this study suggest a natural recovery of the marine area over 2 decades of restrictions on human activities, including fishing and shipping bans. If the hypothesis of the natural recovery of this SNI will be further confirmed by other studies, the plans for the identification and monitoring of the most polluted areas in Italy should necessarily be redefined also in the light of the Water Framework, the Marine Strategy Framework and the Environmental Quality Standard Directives.

Published
2022

27. Multiple human pressures in coastal habitats: variation of meiofaunal assemblages associated with sewage discharge in a post-industrial area

Author

Iacopo Bertocci, Roberto Danovaro, Vincenzo Saggiomo, Luigi Musco, Augusto Passarelli, C. Gambi, Antonio Dell'Anno, M. Cannavacciuolo, G. Zazo, M. Lo Martire, Bertocci, I., Dell'Anno, A., Musco, L., Gambi, C., Saggiomo, V., Cannavacciuolo, M., Lo Martire, M., Passarelli, A., Zazo, G., and Danovaro, R.

Subjects
Mediterranean climate, Aquatic Organisms, Geologic Sediments, Environmental Engineering, Nematoda, 010504 meteorology & atmospheric sciences, Meiobenthos, Sewage, 010501 environmental sciences, 01 natural sciences, Copepoda, Environmental impact, Contamination, Brownfiled, Abundance (ecology), Tardigrada, Animals, Anthropogenic disturbance, Sediment, Subtidal, Environmental Chemistry, Marine ecosystem, 14. Life underwater, Sanitary sewer, Waste Management and Disposal, 0105 earth and related environmental sciences, Brownfield, Ecology, business.industry, Outfall, 15. Life on land, Invertebrates, Pollution, 6. Clean water, Italy, Environmental science, business, Water Pollutants, Chemical, Environmental Monitoring
Abstract

Marine ecosystems are globally threatened by human activities, but some areas, such as those affected by abandoned industrial plants, show an overlap of acute and chronic impacts, which determine a considerable deterioration of their health status. Here we report the results of a research conducted on coastal sewers that discharge their loads in the highly contaminated area of Bagnoli-Coroglio (Tyrrhenian Sea, Western Mediterranean). The sampling area is characterized by heavy industrial activities (a steel plant using coal, iron and limestone) started in 1905 and ceased in 1990, which left widespread heavy metals and hydrocarbon contamination. After taking into account the potential influence of sediment grain size ranges through their inclusion as covariates in the analysis, we tested the potential impact of sewage discharge on the total abundance and multivariate structure of meiofaunal assemblages, as well as on the abundance of single taxa. The organic matter was analysed in terms of total phytopigment and biopolymeric carbon concentrations. Nematoda, Copepoda (including their nauplii), and Tardigrada were the most abundant meiofaunal taxa at all sites, but nematodes did not show a consistent pattern relative to the sewage outfalls. However, the sewer located in the historically most contaminated area showed a minimal abundance of all taxa, including nematodes, while copepods were relatively less abundant at the two southernmost sewers. Comparing the north vs. south site of the sewers, higher meiofaunal abundances were observed in the southward part, likely as a result of the local circulation. The results of this study indicate the general adaptation of meiofauna to multiple stressors (sewage discharge, superimposed to chronic industrial contamination) and its likely modulation by other local processes. They also provide relevant baseline information for future restoration interventions that would take into account the spatial variation of target organisms as needed.

Published
2019

28. Impact of historical contamination on meiofaunal assemblages: The case study of the Bagnoli-Coroglio Bay (southern Tyrrhenian Sea)

Author

Antonio Dell'Anno, M. Lo Martire, Luigi Musco, Giovanna Armiento, Cinzia Corinaldesi, Roberto Danovaro, Z. Da Ros, Cristina Gambi, Gambi, C., Dell'Anno, A., Corinaldesi, C., Lo Martire, M., Musco, L., Da Ros, Z., Armiento, G., and Danovaro, R.

Subjects
0106 biological sciences, Aquatic Organisms, Geologic Sediments, Biodiversity, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Metals, Heavy, Mediterranean Sea, Animals, Marine ecosystem, Ecosystem, 14. Life underwater, Polycyclic Aromatic Hydrocarbons, Transect, Biomass (ecology), Ecology, 010604 marine biology & hydrobiology, General Medicine, 15. Life on land, Pollution, Bays, Italy, 13. Climate action, Benthic zone, Environmental science, Species richness, Bay, Water Pollutants, Chemical, Environmental Monitoring
Abstract

The effects of contaminants on marine organisms have been documented since decades, but the long-term responses and recovery rates of benthic communities to mixtures of contaminants, several years after the cessation of industrial activities, need to be further investigated. Bagnoli-Coroglio Bay (Gulf of Naples, Tyrrhenian Sea) is a typical example of historically contaminated coastal area due to industrial activities stopped at the beginning of nineties. In the present study we carried out a fine spatial scale analysis of the distribution of meiofaunal (and nematodes) assemblages along five bathymetric transects located at increasing distance from the historical source of contamination in relation with the polycyclic aromatic hydrocarbon and heavy metal concentrations present in the sediment. Meiofaunal abundance and biomass changed widely along transects but independent from the distance from the source of contamination. Even when the contamination levels were expected to induce significant detrimental biological consequences, meiofaunal abundance and biomass were similar to those reported in unpolluted benthic coastal areas worldwide. Conversely, biodiversity in terms of meiofaunal taxa richness was generally low (range: 5–8 taxa in 12 of the overall 15 stations investigated). This was explained by the lack of sensitive groups such as ostracods, gastrotrichs and tardigrades commonly encountered in benthic coastal ecosystems, thus reflecting an overall poor/moderate environmental quality of the investigated area. Nematode (structural and functional) diversity was also low, particularly at stations characterized by higher contamination levels. At the same time, nematode species composition did not change significantly among stations suggesting a widespread effect of contaminants able to reduce the variability (i.e., turnover diversity) within the assemblages of the whole study area. Overall, our results indicate that even decades after the cessation of contaminant emissions, benthic biodiversity was affected in terms of both meiofaunal taxa and nematode species. These findings strongly reinforce the call for reducing sources of chronic pollution in marine ecosystems and provide new insights for a better understanding of the ecological recovery of historically contaminated marine environments.

Published
2020

29. Anthropogenic noise and biological sounds in a heavily industrialized coastal area (Gulf of Naples, Mediterranean Sea)

Author

N. Pieretti, Cinzia Corinaldesi, Luigi Musco, Roberto Danovaro, M. Lo Martire, Antonio Dell'Anno, Pieretti, N., Lo Martire, M., Corinaldesi, C., Musco, L., Dell'Anno, A., and Danovaro, R.

Subjects
0106 biological sciences, Soundscape, Ambient noise level, Passive acoustic monitoring, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Site of national interest, Marine Strategy Framework Directive, Mediterranean Sea, Animals, Humans, Marine ecosystem, 14. Life underwater, Underwater, Baseline (configuration management), Ecosystem, Animal, 010604 marine biology & hydrobiology, General Medicine, Pollution, Coring, Noise, Sound, Italy, 13. Climate action, Mediterranean sea, Environmental science, Underwater noise, Human, Environmental Monitoring
Abstract

Underwater noise is one of the most widespread threats to the world oceans. Its negative impact on fauna is nowadays well established, but baseline data to be used in management and monitoring programs are still largely lacking. In particular, the acoustic assessment of human-impacted marine coastal areas provides complementary information on the health status of marine ecosystems. The objective of our study was to provide a baseline of underwater noise levels and biological sounds at two sites within the Gulf of Naples (Italy), one of which is located in Bagnoli-Coroglio, a Site of National Interest (SIN) for its high contamination levels. Within the SIN, sounds were recorded both before and during sediment coring activities (vibrocorer sampling), in order to investigate the potential acoustic impact due to such operations. Acoustic recordings were analyzed following the European Marine Strategy Framework Directive indications as defined in the frame of the Descriptor 11. Results reported here show that the investigated area is characterized by a high anthropogenic noise pressure. Ambient noise levels were principally driven by shipping noise and biological sounds of invertebrates (e.g., snapping shrimps). Sounds referable to other biological activity were difficult to detect because heavily masked by shipping noise. Coring activity determined a substantial introduction of additional noise at a local spatial scale. This study expands underwater noise baseline data to be further implemented in future monitoring programs of coastal areas affected by anthropogenic impacts. In addition, it proposes new cues for using underwater acoustic monitoring tools to complement traditional methodologies for evaluating health status of ecosystems and for investigating recovery rates after restoration/reclamation programs.

Published
2019

30. Hypothalamic activity at torpor onset in mice

Author

Timna Hitrec, R. Amici, S. Bastianini, C. Berteotti, V. Lo Martire, M. Luppi, D. Martelli, F. Squarcio, A. Stanzani, D. Tupone, G. Zoccoli, M. Cerri, and Timna Hitrec, R. Amici, S. Bastianini, C. Berteotti, V. Lo Martire, M. Luppi, D. Martelli, F. Squarcio, A. Stanzani, D. Tupone, G. Zoccoli, M. Cerri

Subjects
Termoregolazione Torpore Topo Ipotalamo Raphe Pallidus c-Fos
Published
2018

31. The impact of climate change on Mediterranean intertidal communities: losses in coastal ecosystem integrity and services

Author

Gianluca Sarà, Martina Milanese, Ivana Prusina, Antonio Sarà, Dror L. Angel, Branko Glamuzina, Tali Nitzan, Shirra Freeman, Alessandro Rinaldi, Valeria Palmeri, Valeria Montalto, Marco Lo Martire, Paola Gianguzza, Vincenzo Arizza, Sabrina Lo Brutto, Maurizio De Pirro, Brian Helmuth, Jason Murray, Stefano De Cantis, Gray A. Williams, Sara', G, Milanese, M, Prusina, I, Sara', A, Angel, DL, Glamuzina, B, Nitzan, T, Freeman, S, Rinaldi, A, Palmeri, V, Montalto, V, Lo Martire, M, Gianguzza, P, Arizza, V, Lo Brutto S, De Pirro, M, Helmuth, B, Murray, J, De Cantis, S, and Williams, GA

Subjects
Settore BIO/07 - Ecologia, Global and Planetary Change, Ecosystem service, Ecology, Bioenergetic mechanistic modelling, Ecophysiology, Mytilaster minimus, Invasive specie, Intertidal zone, Climate change, Intertidal, Ecosystem services, Invasive species, Mediterranean Sea, Introduced species, Intertidal ecology, Fishery, Geography, Habitat, Ecosystem, intertidal, bioenergetic mechanistic modelling, ecophysiology, ecosystem services, climate change, invasive species
Abstract

As has been shown for other ecosystems, the ecological and socio-economic impacts of climate change on Mediterranean intertidal habitats are highly variable in space and time. We conducted field and laboratory measurements of cellular, ecophysiological and behavioural responses of selected intertidal invertebrates (mussels, gastropods and sponges) and completed a literature review to determine what is known of socioeconomic consequences of these biological changes. Results suggest significant gaps in our knowledge that may impede a complete understanding of likely impacts (physical, biological, and socioeconomic) and that sufficient data for such an analysis is available only for mussels. Application of ecological models for native mussels Mytilaster minimus and invasive Brachidontes pharaonis bivalves indicates that the current distribution of these species is linked to the availability of food and local temperature. Choosing Israel as a case study, the study focused on the identification of ecosystem services and goods provided by the Mediterranean rocky intertidal and on the assessment of conservation approaches. Intertidal systems were poorly represented in the socio-economic literature and there was low awareness of the value of these ecosystems among stakeholders. Subsequently, conservation efforts for intertidal communities were minimal. While climate change will very likely continue to impact these systems, our predictive capacity for the extent and locations of such impacts, and of any derived socio-economic consequences, remains limited.

Published
2012

32. Impacts of marine aquaculture at large spatial scales: evidences from n and p catchment loading and phytoplankton biomass

Author

A. Manganaro, Marilena Sanfilippo, Antonio Pusceddu, M. Lo Martire, Giuseppa Pulicanò, G. Cortese, Gianluca Sarà, Antonio Mazzola, Dipartimento di Scienze della Terra e del Mare [Palermo] (DiSTeM), Università degli studi di Palermo - University of Palermo, Dipartimento di Scienze del Mare, Università Politecnica delle Marche [Ancona] (UNIVPM), Dipartimento di Biologia Animale ed Ecologia Marina, Sarà, G, Lo Martire, M, Sanfilippo, M, Pulicanò, G, Cortese, G, Mazzola, A, Manganaro, A, and Pusceddu, A

Subjects
Settore BIO/07 - Ecologia, Chlorophyll, 0106 biological sciences, 010504 meteorology & atmospheric sciences, Nitrogen, [SDV]Life Sciences [q-bio], Drainage basin, Aquaculture, Aquatic Science, Structural basin, Oceanography, 01 natural sciences, Phosphorus, Phytoplankton, Chlorophyll-a, Mediterranean Sea, Nutrient, Seawater, Marine ecosystem, Biomass, 14. Life underwater, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, business.industry, Chlorophyll A, 010604 marine biology & hydrobiology, Phosphoru, General Medicine, Pollution, Disturbance (ecology), 13. Climate action, Period (geology), Environmental science, business, Bay, Water Pollutants, Chemical, Environmental Monitoring
Abstract

International audience; While several studies point at off-shore aquaculture as a possible source of impacts on the local marine environment, very few have analysed its effects at large scales such as at the bay, gulf or basin levels. Similar analyses are hampered by the multiple sources of disturbance that may concomitantly affect a given area. The present paper addresses these issues taking the Gulf of Castellammare (Southern Tyrrhenian Sea) as an example. Nitrogen (N) and phosphorous (P) loads were calculated for the period 1970-2007, and compared to chlorophyll-a concentration as measured inside and outside the Gulf over the same period. Results indicate that N and P catchment loading has constantly decreased because of improved environmental management. Nevertheless, nutrient concentration in the Gulf has steadily increased since the establishment of aquaculture facilities in 1999. Chlorophyll-a concentration followed this trend, showing a marked increase from 2001 onwards. In the same period, chlorophyll-a concentrations measured inside and outside the Gulf have significantly diverged. As all the other possible causes can be ruled out, aquaculture remains the sole explanation for the observed situation. This paper demonstrates for the first time ever that off-shore aquaculture may affect the marine ecosystem well beyond the local scale and provides an additional element of concern to be kept into consideration when allocating oceans' space for new fish farming activities.

Published
2011

33. Investigating marine shallow waters dynamics to explore the role of turbidity on ecological responses

Author

Di Marca, S, LO MARTIRE, Marco, Nasello, C, Ciraolo, G, Sarà, G, Di Marca, S, Lo Martire, M, Nasello, C, Ciraolo, G, and Sarà, G

Subjects
Biological-physical interaction, ecological responses, hydrodynamics, resuspension, shallow water, turbulent kinetic energy, turbidity
Abstract

The ecological tangible effect of the complex interaction between sediments and water column in shallow waters is represented by turbidity which is a common feature of most aquatic ecosystems: it varies both temporally and spatially; it can cover a huge area and persist for a long period or it can be very localized and temporary. Among many factors able to generate turbidity, wind generated wave action and water mass movements due to tides seem important in causing resuspension of sediments. Although there is much research spent in last decades on this topic and many models to explain the complexity of the wind-water-sediment interaction, some interactive aspects are too site specific and then still poor understood. On the other hand, this interaction involves many physical, chemical and trophic aspects like water flow velocity, turbulence, boundary layer thickness, environmental stresses and, in turn, resuspension, transport, and deposition of particulate matter, mechanical limits to size, larval dispersion, food availability. To get further knowledge on these aspects, we carried out in March 2007 a 5-day-experiment in a Mediterranean shallow area (The Stagnone di Marsala, Western Sicily) by collecting data on wind and water velocities, their directions and the contextual response of the water column in term of turbidity, chlorophyll-a and suspended solids (by ignition). To analyse the interaction, we proceeded step by step. Firstly, we studied data from the two current meters (an acoustic doppler velocimeter 40 ± 2 cm deep, and an electromagnetic current meter 20 ± 2 cm deep). From this data, the water column had the following features: i) during the big semidiurnal tidal transitional phase, the flow field followed a behaviour leading us to hypothesize a logarithmic layer defined by the law of the wall and to obtain friction velocity values with linear regression in good agreement with calculated ones with covariance and TKE method, while ii) during the small tidal transition and at high and low tides, a not-well defined gradient was present (i.e., the mean deviation of the direction of the two water velocities was more than 30° and the flow magnitude at 40 cm was less than that measured at 20 cm implying high values of turbulence intensity). The second step analysed data from multiprobe, ADV, meteorological station and considered turbidity (NTU) as proxy of food availability for consumers. NTU followed a one-day-period and the lower the turbidity, the higher the turbulence (both at 20 and 40 cm).

Published
2009

34. Effect of boat noise on the behaviour of bluefin tuna Thunnus thynnus in the Mediterranean Sea

Author

Simona Genovese, Giuseppa Buscaino, J. M. Dean, D. DAmato, Salvatore Mazzola, Gaspare Buffa, A. Oliveri, M. Lo Martire, S. Ferro, Gianluca Sarà, SARA' G, DEAN JM, D'AMATO D, BUSCAINO G, OLIVERI A, GENOVESE S, FERRO S, BUFFA G, LO MARTIRE M, and MAZZOLA S

Subjects
Settore BIO/07 - Ecologia, Bluefin tuna, Boat noise, Fish behaviour, Swimming, Schooling, Anthropogenic, impact, Mediterranean Sea, Ecology, Noise pollution, Ambient noise level, Aquatic Science, Fishery, Mediterranean sea, Oceanography, Swimming behaviour, Environmental science, Tuna, Ecology, Evolution, Behavior and Systematics
Abstract

The effect of boat noise on the behaviour of bluefin tuna Thunnus thynnus was investi- gated in the Egadi Islands, Sicily, during spring 2005 using a fixed tuna trap set near shipping routes. Tuna behaviour was observed when exposed to both natural ambient sound and sound generated by hydrofoil passenger ferries, small boats and large car ferries. Acoustical and behavioural analyses were conducted with and without extraneous sound to define a list of behavioural categories. Each vessel produced different engine sounds with regard to their composition and bandwidth, and all were distinctly different from ambient sound levels. In the absence of boat noise, tuna assumed a con- centrated coordinated school structure with unidirectional swimming and without a precise shape. When a car ferry approached, tuna changed swimming direction and increased their vertical move- ment toward surface or bottom; the school exhibited an unconcentrated structure and uncoordinated swimming behaviour. Hydrofoils appeared to elicit a similar response, but for shorter periods. Ago- nistic behaviour was more evident when exposed to sounds from outboard motors of small boats. This study showed that local noise pollution generated by boats produced behavioural deviations in tuna schools. Schooling enhances tuna homing accuracy during their spawning migration, and an alter- ation in schooling behaviour can affect the accuracy of their migration to spawning and feeding grounds.

Published
2007

35. The fouling community as an indicator of fish farming impact in Mediterranean

Author

Fabio Badalamenti, Gianluca Sarà, Marco Lo Martire, Giacomo Buffa, Anna Maria Mannino, SARA' G, LO MARTIRE M, BUFFA G, MANNINO AM, and BADALAMENTI F

Subjects
chemistry.chemical_classification, Mediterranean climate, Settore BIO/07 - Ecologia, Biomass (ecology), anthropic system, Fouling community, Fouling, Ecology, MED, Aquatic Science, Biology, fish farm organic enrichment, artificial substrata, chemistry, Benthic zone, Abundance (ecology), Organic matter, Species richness, fouling community
Abstract

Fouling species richness, abundance and composition and biomass were chosen as the descriptors of effect of fish farm organic enrichment. The study was carried out in September 2004 in the Gulf of Castellammare (South Tyrrhenian, Mediterranean). The fouling species were sampled from plastic buoys spaced throughout the study area both up- [UP] and down-stream [DOWN]. The results showed that fouling community responded to the chronic input of allochthonous organic matter experiencing local changes more or less significantly with regard to abundance, species composition and general community diversity. Upper fouling would work as a first filter naturally opposed by environment resistance assimilating and facilitating the accommodation of most organic surplus. In highly hydrodynamic and sufficiently deep systems, the transport of organic particles produced from farms would have an effect along the horizontal axis rather than along the vertical axis, involving upper located benthic organisms rather than sedimentary benthic organisms.

Published
2007

36. Rhodobacteraceae dominate the core microbiome of the sea star Odontaster validus (Koehler, 1906) in two opposite geographical sectors of the Antarctic Ocean.

Author

Buschi E, Dell'Anno A, Tangherlini M, Stefanni S, Lo Martire M, Núñez-Pons L, Avila C, and Corinaldesi C

Abstract

Microbiota plays essential roles in the health, physiology, and in adaptation of marine multi-cellular organisms to their environment. In Antarctica, marine organisms have a wide range of unique physiological functions and adaptive strategies, useful for coping with extremely cold conditions. However, the role of microbiota associated with Antarctic organisms in such adaptive strategies is underexplored. In the present study, we investigated the diversity and putative functions of the microbiome of the sea star Odontaster validus , one of the main keystone species of the Antarctic benthic ecosystems. We compared the whole-body bacterial microbiome of sea stars from different sites of the Antarctic Peninsula and Ross Sea, two areas located in two opposite geographical sectors of the Antarctic continent. The taxonomic composition of O. validus microbiomes changed both between and within the two Antarctic sectors, suggesting that environmental and biological factors acting both at large and local scales may influence microbiome diversity. Despite this, one bacterial family (Rhodobacteraceae) was shared among all sea star individuals from the two geographical sectors, representing up to 95% of the microbial core, and suggesting a key functional role of this taxon in holobiont metabolism and well-being. In addition, the genus Roseobacter belonging to this family was also present in the surrounding sediment, implying a potential horizontal acquisition of dominant bacterial core taxa via host-selection processes from the environment., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Buschi, Dell’Anno, Tangherlini, Stefanni, Lo Martire, Núñez-Pons, Avila and Corinaldesi.)

Published
2023
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37. Microbiome network in the pelagic and benthic offshore systems of the northern Adriatic Sea (Mediterranean Sea).

Author

Scicchitano D, Lo Martire M, Palladino G, Nanetti E, Fabbrini M, Dell'Anno A, Rampelli S, Corinaldesi C, and Candela M

Subjects
Hydrocarbons, Italy, Mediterranean Sea, Water, Ecosystem, Microbiota
Abstract

Because of their recognized global importance, there is now the urgent need to map diversity and distribution patterns of marine microbial communities. Even if available studies provided some advances in the understanding the biogeographical patterns of marine microbiomes at the global scale, their degree of plasticity at the local scale it is still underexplored, and functional implications still need to be dissected. In this scenario here we provide a synoptical study on the microbiomes of the water column and surface sediments from 19 sites in a 130 km 2 area located 13.5 km afar from the coast in the North-Western Adriatic Sea (Italy), providing the finest-scale mapping of marine microbiomes in the Mediterranean Sea. Pelagic and benthic microbiomes in the study area showed sector specific-patterns and distinct assemblage structures, corresponding to specific variations in the microbiome network structure. While maintaining a balanced structure in terms of potential ecosystem services (e.g., hydrocarbon degradation and nutrient cycling), sector-specific patterns of over-abundant modules-and taxa-were defined, with the South sector (the closest to the coast) characterized by microbial groups of terrestrial origins, both in the pelagic and the benthic realms. By the granular assessment of the marine microbiome changes at the local scale, we have been able to describe, to our knowledge at the first time, the integration of terrestrial microorganisms in the marine microbiome networks, as a possible natural process characterizing eutrophic coastal area. This raises the question about the biological threshold for terrestrial microorganisms to be admitted in the marine microbiome networks, without altering the ecological balance., (© 2022. The Author(s).)

Published
2022
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38. Organic enrichment can increase the impact of microplastics on meiofaunal assemblages in tropical beach systems.

Author

Corinaldesi C, Canensi S, Carugati L, Lo Martire M, Marcellini F, Nepote E, Sabbatini S, and Danovaro R

Subjects
Animals, Biodiversity, Ecosystem, Environmental Monitoring, Geologic Sediments, Humans, Plastics, Microplastics, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity
Abstract

The cumulative impact of microplastic and organic enrichment is still largely unknown. Here, we investigated the microplastic contamination, the organic enrichment and their effects on meiofaunal distribution and diversity in two islands of the Maldivian archipelago: one more pristine, and another strongly anthropized. Field studies were coupled with manipulative experiments in which microplastic polymers were added to sediments from the non-anthropized island (i.e., without organic enrichment) to assess the relative effect of microplastic pollution on meiofauna assemblages. Our results reveal that the impact of microplastic contamination on meiofaunal abundance and taxa richness was more significant in the anthropized island, which was also characterized by a significant organic enrichment. Meiofauna exposed experimentally to microplastic contamination showed: i) the increased abundance of opportunistic nematodes and copepods and ii) a shift in the trophic structure, increasing relevance in epistrate-feeder nematodes. Based on all these results, we argue that the coexistence of chronic organic enrichment and microplastics can significantly increase the ecological impacts on meiofaunal assemblages. Since microplastic pollution in the oceans is predicted to increase in the next decades, its negative effects on benthic biodiversity and functioning of tropical ecosystems are expected to worsen especially when coupled with human-induced eutrophication. Urgent actions and management plans are needed to avoid the cumulative impact of microplastic and organic enrichment., (Copyright © 2021. Published by Elsevier Ltd.)

Published
2022
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39. In Vitro Evaluation of Antioxidant Potential of the Invasive Seagrass Halophila stipulacea .

Author

Sansone C, Galasso C, Lo Martire M, Fernández TV, Musco L, Dell'Anno A, Bruno A, Noonan DM, Albini A, and Brunet C

Subjects
Antioxidants isolation & purification, Cell Line, Cell Survival drug effects, Cell Survival physiology, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical methods, Female, Fetus, Humans, Oxidative Stress physiology, Plant Extracts isolation & purification, Salt-Tolerant Plants, Antioxidants pharmacology, Hydrocharitaceae, Introduced Species, Oxidative Stress drug effects, Plant Extracts pharmacology
Abstract

Marine organisms with fast growth rates and great biological adaptive capacity might have biotechnological interests, since ecological competitiveness might rely on enhanced physiological or biochemical processes' capability promoting protection, defense, or repair intracellular damages. The invasive seagrass Halophila stipulacea , a non-indigenous species widespread in the Mediterranean Sea, belongs to this category. This is the premise to investigate the biotechnological interest of this species. In this study, we investigated the antioxidant activity in vitro, both in scavenging reactive oxygen species and in repairing damages from oxidative stress on the fibroblast human cell line WI-38. Together with the biochemical analysis, the antioxidant activity was characterized by the study of the expression of oxidative stress gene in WI-38 cells in presence or absence of the H. stipulacea extract. Concomitantly, the pigment pool of the extracts, as well as their macromolecular composition was characterized. This study was done separately on mature and young leaves. Results indicated that mature leaves exerted a great activity in scavenging reactive oxygen species and repairing damages from oxidative stress in the WI-38 cell line. This activity was paralleled to an enhanced carotenoids content in the mature leaf extracts and a higher carbohydrate contribution to organic matter. Our results suggest a potential of the old leaves of H. stipulacea as oxidative stress damage protecting or repair agents in fibroblast cell lines. This study paves the way to transmute the invasive H. stipulacea environmental threat in goods for human health.

Published
2021
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40. A high biodiversity mitigates the impact of ocean acidification on hard-bottom ecosystems.

Author

Rastelli E, Petani B, Corinaldesi C, Dell'Anno A, Lo Martire M, Cerrano C, and Danovaro R

Subjects
Animals, Anthozoa, Bacteria cytology, Fungi cytology, Phylogeny, Acids chemistry, Biodiversity, Oceans and Seas
Abstract

Biodiversity loss and climate change simultaneously threaten marine ecosystems, yet their interactions remain largely unknown. Ocean acidification severely affects a wide variety of marine organisms and recent studies have predicted major impacts at the pH conditions expected for 2100. However, despite the renowned interdependence between biodiversity and ecosystem functioning, the hypothesis that the species' response to ocean acidification could differ based on the biodiversity of the natural multispecies assemblages in which they live remains untested. Here, using experimentally controlled conditions, we investigated the impact of acidification on key habitat-forming organisms (including corals, sponges and macroalgae) and associated microbes in hard-bottom assemblages characterised by different biodiversity levels. Our results indicate that, at higher biodiversity, the impact of acidification on otherwise highly vulnerable key organisms can be reduced by 50 to >90%, depending on the species. Here we show that such a positive effect of a higher biodiversity can be associated with higher availability of food resources and healthy microbe-host associations, overall increasing host resistance to acidification, while contrasting harmful outbreaks of opportunistic microbes. Given the climate change scenarios predicted for the future, we conclude that biodiversity conservation of hard-bottom ecosystems is fundamental also for mitigating the impacts of ocean acidification.

Published
2020
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41. Drivers of Bacterial α- and β-Diversity Patterns and Functioning in Subsurface Hadal Sediments.

Author

Rastelli E, Corinaldesi C, Dell'Anno A, Tangherlini M, Lo Martire M, Nishizawa M, Nomaki H, Nunoura T, and Danovaro R

Abstract

Oceanic trenches at hadal (>6,000 m) depths are hot spots of organic matter deposition and mineralization and can host abundant and active bacterial assemblages. However, the factors able to shape their biodiversity and functioning remain largely unexplored, especially in subsurface sediments. Here, we investigated the patterns and drivers of benthic bacterial α- and β-diversity (i.e., OTU richness and turnover diversity) along the vertical profile down to 1.5 m sediment depth in the Izu-Bonin Trench (at ~10,000 m water depth). The protease and glucosidase enzymatic activity rates were also determined, as a proxy of organic matter degradation potential in the different sediment layers. Molecular fingerprinting based on automated ribosomal intergenic spacer analysis (ARISA) indicated that the α-diversity of bacterial assemblages remained high throughout the vertical profile and that the turnover (β-) diversity among sediment horizons reached values up to 90% of dissimilarity. Multivariate distance-based linear modeling (DISTLM) pointed out that the diversity and functioning of the hadal bacterial assemblages were influenced by the variability of environmental conditions (including the availability of organic resources and electron donors/acceptors) and of viral production rates along the sediment vertical profile. Based on our results, we can argue that the heterogeneity of physical-chemical features of the hadal sediments of the Izu-Bonin Trench contribute to increase the niches availability for different bacterial taxa, while viruses contribute to maintain high levels of bacterial turnover diversity and to enhance organic matter cycling in these extremely remote and isolated ecosystems., (Copyright © 2019 Rastelli, Corinaldesi, Dell’Anno, Tangherlini, Lo Martire, Nishizawa, Nomaki, Nunoura and Danovaro.)

Published
2019
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42. Impact of mangrove forests degradation on biodiversity and ecosystem functioning.

Author

Carugati L, Gatto B, Rastelli E, Lo Martire M, Coral C, Greco S, and Danovaro R

Subjects
Biomass, Conservation of Natural Resources methods, Forests, Heterotrophic Processes, Biodiversity, Ecosystem, Wetlands
Abstract

Mangroves are amongst the most productive marine ecosystems on Earth, providing a unique habitat opportunity for many species and key goods and services for human beings. Mangrove habitats are regressing at an alarming rate, due to direct anthropogenic impacts and global change. Here, in order to assess the effects of mangrove habitat degradation on benthic biodiversity and ecosystem functioning, we investigated meiofaunal biodiversity (as proxy of benthic biodiversity), benthic biomass and prokaryotic heterotrophic production (as proxies of ecosystem functioning) and trophic state in a disturbed and an undisturbed mangrove forests. We report here that disturbed mangrove area showed a loss of 20% of benthic biodiversity, with the local extinction of four Phyla (Cladocera, Kynorincha, Priapulida, Tanaidacea), a loss of 80% of microbial-mediated decomposition rates, of the benthic biomass and of the trophic resources. The results of this study strengthen the need to preserve mangrove forests and to restore those degraded to guarantee the provision of goods and services needed to support the biodiversity and functioning of wide portions of tropical ecosystems.

Published
2018
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43. High potential for temperate viruses to drive carbon cycling in chemoautotrophy-dominated shallow-water hydrothermal vents.

Author

Rastelli E, Corinaldesi C, Dell'Anno A, Tangherlini M, Martorelli E, Ingrassia M, Chiocci FL, Lo Martire M, and Danovaro R

Subjects
Carbon, Carbon Cycle, Ecosystem, Mediterranean Sea, Water Microbiology, Bacteria virology, Chemoautotrophic Growth physiology, Geologic Sediments virology, Hydrothermal Vents microbiology, Seawater microbiology
Abstract

Viruses are the most abundant life forms in the world's oceans and they are key drivers of biogeochemical cycles, but their impact on the microbial assemblages inhabiting hydrothermal vent ecosystems is still largely unknown. Here, we analysed the viral life strategies and virus-host interactions in the sediments of a newly discovered shallow-water hydrothermal field of the Mediterranean Sea. Our study reveals that temperate viruses, once experimentally induced to replicate, can cause large mortality of vent microbes, significantly reducing the chemoautotrophic carbon production, while enhancing the metabolism of microbial heterotrophs and the re-cycling of the organic matter. These results provide new insights on the factors controlling primary and secondary production processes in hydrothermal vents, suggesting that the inducible provirus-host interactions occurring in these systems can profoundly influence the functioning of the microbial food web and the efficiency in the energy transfer to the higher trophic levels., (© 2017 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2017
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44. Transfer of labile organic matter and microbes from the ocean surface to the marine aerosol: an experimental approach.

Author

Rastelli E, Corinaldesi C, Dell'Anno A, Lo Martire M, Greco S, Cristina Facchini M, Rinaldi M, O'Dowd C, Ceburnis D, and Danovaro R

Abstract

Surface ocean bubble-bursting generates aerosols composed of microscopic salt-water droplets, enriched in marine organic matter. The organic fraction profoundly influences aerosols' properties, by scattering solar radiations and nucleating water particles. Still little is known on the biochemical and microbiological composition of these organic particles. In the present study, we experimentally simulated the bursting of bubbles at the seawater surface of the North-Eastern Atlantic Ocean, analysing the organic materials and the diversity of the bacteria in the source-seawaters and in the produced aerosols. We show that, compared with seawater, the sub-micron aerosol particles were highly enriched in organic matter (up to 140,000x for lipids, 120,000x for proteins and 100,000x for carbohydrates). Also DNA, viruses and prokaryotes were significantly enriched (up to 30,000, 250 and 45x, respectively). The relative importance of the organic components in the aerosol did not reflect those in the seawater, suggesting their selective transfer. Molecular analyses indicate the presence of selective transfers also for bacterial genotypes, highlighting higher contribution of less abundant seawater bacterial taxa to the marine aerosol. Overall, our results open new perspectives in the study of microbial dispersal through marine aerosol and provide new insights for a better understanding of climate-regulating processes of global relevance.

Published
2017
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45. CO 2 leakage from carbon dioxide capture and storage (CCS) systems affects organic matter cycling in surface marine sediments.

Author

Rastelli E, Corinaldesi C, Dell'Anno A, Amaro T, Greco S, Lo Martire M, Carugati L, Queirós AM, Widdicombe S, and Danovaro R

Subjects
Carbon, Carbon Dioxide analysis, Ecosystem, Geologic Sediments, Seawater, Water Pollutants, Chemical analysis, Carbon Sequestration, Ecological and Environmental Phenomena, Environmental Monitoring
Abstract

Carbon dioxide capture and storage (CCS), involving the injection of CO 2 into the sub-seabed, is being promoted worldwide as a feasible option for reducing the anthropogenic CO 2 emissions into the atmosphere. However, the effects on the marine ecosystems of potential CO 2 leakages originating from these storage sites have only recently received scientific attention, and little information is available on the possible impacts of the resulting CO 2 -enriched seawater plumes on the surrounding benthic ecosystem. In the present study, we conducted a 20-weeks mesocosm experiment exposing coastal sediments to CO 2 -enriched seawater (at 5000 or 20,000 ppm), to test the effects on the microbial enzymatic activities responsible for the decomposition and turnover of the sedimentary organic matter in surface sediments down to 15 cm depth. Our results indicate that the exposure to high-CO 2 concentrations reduced significantly the enzymatic activities in the top 5 cm of sediments, but had no effects on subsurface sediment horizons (from 5 to 15 cm depth). In the surface sediments, both 5000 and 20,000 ppm CO 2 treatments determined a progressive decrease over time in the protein degradation (up to 80%). Conversely, the degradation rates of carbohydrates and organic phosphorous remained unaltered in the first 2 weeks, but decreased significantly (up to 50%) in the longer term when exposed at 20,000 ppm of CO 2 . Such effects were associated with a significant change in the composition of the biopolymeric carbon (due to the accumulation of proteins over time in sediments exposed to high-pCO 2 treatments), and a significant decrease (∼20-50% at 5000 and 20,000 ppm respectively) in nitrogen regeneration. We conclude that in areas immediately surrounding an active and long-lasting leak of CO 2 from CCS reservoirs, organic matter cycling would be significantly impacted in the surface sediment layers. The evidence of negligible impacts on the deeper sediments should be considered with caution and further investigated simulating the intrusion of CO 2 from a subsurface source, as occurring during real CO 2 leakages from CCS sites., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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