Your search keyword '"Morri, C"' showing total 45 results

1. RESQUE: A novel comprehensive approach to compare the performance of different indices in evaluating seagrass health

Author

Oprandi, A., Bianchi, C.N., Karayali, O., Morri, C., Rigo, I., and Montefalcone, M.

Published

2021

2. A large and erected sponge assemblage on granite outcrops in a Mediterranean Marine Protected Area (NE Sardinia)

Author

Canessa, M., Bavestrello, G., Trainito, E., Bianchi, C.N., Morri, C., Navone, A., and Cattaneo-Vietti, R.

Published

2021

3. Ecological status of coralligenous assemblages: Ten years of application of the ESCA index from local to wide scale validation

Author

Piazzi, L., Gennaro, P., Cecchi, E., Bianchi, C.N., Cinti, M.F., Gatti, G., Guala, I., Morri, C., Sartoretto, F., Serena, F., and Montefalcone, M.

Published

2021

4. Effects of a severe storm on seagrass meadows

Author

Oprandi, A., Mucerino, L., De Leo, F., Bianchi, C.N., Morri, C., Azzola, A., Benelli, F., Besio, G., Ferrari, M., and Montefalcone, M.

Published

2020

5. Corals in high diversity reefs resist human impact

Author

Ferrigno, F., Bianchi, C.N., Lasagna, R., Morri, C., Russo, G.F., and Sandulli, R.

Published

2016

6. Capturing ecological complexity: OCI, a novel combination of ecological indices as applied to benthic marine habitats

Author

Paoli, C., Morten, A., Bianchi, C.N., Morri, C., Fabiano, M., and Vassallo, P.

Published

2016

7. Coralligenous reefs state along anthropized coasts: Application and validation of the COARSE index, based on a rapid visual assessment (RVA) approach

Author

Gatti, G., Bianchi, C.N., Morri, C., Montefalcone, M., and Sartoretto, S.

Published

2015

8. What biotic indices tell us about ecosystem change: lessons from the seagrass Posidonia oceanica

Author

Mancini, I, RIGO, I., OPRANDI, A., Montefalcone, M., Morri, C., Peirano, A., Vassallo, P., Paoli, C., Bianchi, C. N., Observatoire océanologique de Banyuls (OOB), and Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2020

9. Changes in the ecological status and natural capital of Posidonia oceanica meadows due to human pressure and extreme events

Author

Rigo, I., Paoli, C., Dapueto, G., Massa, F., Oprandi, A., Venturini, S., Merotto, L., Fanciulli, G., Cappanera, V., Montefalcone, M., Bianchi, C. N., Morri, C., Pergent-Martini, C., Povero, P., and Vassallo, P.

Subjects

Marine Protected Areas, emergy analysis, Seagrass meadows, emergy analysis, Marine Protected Areas, Disturbances, Liguria (Italy), Disturbances, Liguria (Italy), Seagrass meadows

Published

2020

10. WHAT BIOTIC INDICES TELL US ABOUT ECOSYSTEM CHANGE: LESSONS FROM THE SEAGRASS POSIDONIA OCEANICA INDICES APPLICATION ON HISTORICAL DATA

Author

Mancini, I, Rigo, I, Oprandi, A, Montefalcone, M, Morri, C, Peirano, A, Vassallo, P, Paoli, C, and Bianchi, Cn

Subjects

POSIDONIA OCEANICA, SEAGRASS, LIGURIAN SEA, ECOLOGICAL INDICES, HISTORICAL DATA

Published

2020

11. Monitoraggio e valutazione dello stato ecologico dell’habitat a coralligeno. Il coralligeno di parete

Author

Gennaro, P., Piazzi, L., Cecchi, E., Montefalcone, M., Morri, C., and Bianchi, C. N.

Published

2020

12. Use of ecological indices to assess the health status of Posidonia oceanica meadows in Eastern Liguria

Author

Rigo, I., Montefalcone, M., Morri, C., Bianchi, C. N., Oprandi, A., Vassallo, P., and Paoli, C.

Subjects

Posidonia Oceanic, East of Liguria, Posidonia Oceanic, East of Liguria, Ecological Indices, Natural Capital, Ecological Indices, Natural Capital

Published

2019

13. Il coralligeno toscano: distribuzione, struttura dei popolamenti e monitoraggio mediante utilizzo di differenti indici di qualità ecologica

Author

Piazzi, L., Bianchi, C. N., Cecchi, E., Gennaro, P., Marino, G., Montefalcone, M., Morri, C., and Serena, F.

Published

2018

14. Consequences of the marine climate and ecosystem shift of the 1980-90s on the Ligurian Sea biodiversity (NW Mediterranean)

Author

Bianchi, C. N., primary, Azzola, A., additional, Bertolino, M., additional, Betti, F., additional, Bo, M., additional, Cattaneo-Vietti, R., additional, Cocito, S., additional, Montefalcone, M., additional, Morri, C., additional, Oprandi, A., additional, Peirano, A., additional, and Bavestrello, G., additional

Published

2019

15. Global climate change and regional biotic responses: two hydrozoan tales

Author

Morri, C., Bianchi, C. N., Di Camillo, C. G., Ducarme, F., Allison, W. R., and Bavestrello, G.

Published

2017

16. Integration of ESCA index through the use of sessile invertebrates

Author

Piazzi, L., Gennaro, P., Cecchi, E., Serena, F., Bianchi, C. N., Morri, C., and Montefalcone, M.

Subjects

lcsh:SH1-691, macroalgae, ESCA and ESCA-TA indices, ecological quality, macro-invertebrates, índices ESCA y ESCA-TA, macro-invertebrados, mar Mediterráneo, macro-algas, estado ecológico, lcsh:Aquaculture. Fisheries. Angling, comunidades coralígenas, coralligenous assemblages, Mediterranean Sea

Abstract

The ESCA (Ecological Status of Coralligenous Assemblages) index was developed to assess the ecological quality of coralligenous habitat using macroalgae as a biological indicator. The aim of this study was to evaluate the response to human-induced pressures of macroalgae and sessile macro-invertebrates shaping the coralligenous habitat and to integrate their sensitivity into the ESCA index. Coralligenous assemblages were sampled at 15 locations of the NW Mediterranean Sea classified into three groups: i) marine protected areas; ii) low urbanized locations; and iii) highly urbanized locations. A sensitivity level value was assigned to each taxon/group on the basis of its abundance in each environmental condition, the data available in the literature and the results of an expert judgement survey. The index that includes the totality of the assemblages (named ESCA-TA), calculated using both macroalgae and sessile macro-invertebrates, detected the levels of human pressure more precisely than the index calculated with only macroalgae or with only invertebrates. The potential for assessing the ecological quality of marine coastal areas was thus increased with the ESCA-TA index thanks to the use of a higher variety of descriptors. El índice ESCA (Estado Ecológico de las Comunidades Coralígenas) ha sido desarrollado para determinar el estado ecológico de los hábitats coralígenos utilizando macro-algas como indicador biológico. El objetivo de este estudio fue evaluar la respuesta, ante presiones antropogénicas, de macro-algas y macro-invertebrados sésiles moldeadores de la comunidad coralígena y su sensibilidad al índice ESCA. Se muestrearon comunidades coralígenas en 15 localizaciones del Mediterráneo Nord-Occidental clasificadas en 3 grupos: i) áreas marinas protegidas; ii) poco urbanizadas; iii) muy urbanizadas. Un valor de Nivel de Sensibilidad fue asignado a cada taxón/grupo en base a su abundancia en cada condición medioambiental, a información bibliográfica disponible y a los resultados de juicios por parte de expertos. El índice que integra la totalidad de las comunidades (llamado ESCA-TA), calculado usando tanto macro-algas como macro-invertebrados sésiles, detectó los diferentes niveles de presión humana de manera más precisa que el índice calculado solo con macro-algas o solo con invertebrados. El potencial para determinar el estado ecológico de las áreas marinas protegidas se incrementó con el índice ESCA-TA gracias al uso de una mayor variedad de descriptores.

Published

2017

17. New perspectives in the study of Mediterranean coralligenous assemblages

Author

Bavestrello, G., Bertolino, M., Betti, F., Bianchi, C. N., Bo, M., Cattaneo-vietti, R., Montefalcone, M., and Morri, C.

Subjects

monitoring, megabenthos, coralligenous assemblages, Mediterranean Sea, coralligenous assemblages, megabenthos, monitoring, Mediterranean Sea

Published

2016

18. Resilience of the Marine Animal Forest

Author

Bianchi, C. N., Morri, C., Lasagna, R., Montefalcone, M., Gatti, Giulia, Parravicini, Valeriano, Rovere, Alessio, Department of Earth, Environmental and Life Sciences (DISTAV), Universita degli studi di Genova, Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UMR237-Aix Marseille Université (AMU)-Avignon Université (AU), Centre de recherches insulaires et observatoire de l'environnement (CRIOBE), Université de Perpignan Via Domitia (UPVD)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Center for Marine Environmental Sciences [Bremen] (MARUM), Universität Bremen, Università degli studi di Genova = University of Genoa (UniGe), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), and Université de Perpignan Via Domitia (UPVD)-École Pratique des Hautes Études (EPHE)

Subjects

Settore BIO/07 - Ecologia, Settore GEO/04 - Geografia Fisica e Geomorfologia, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, ComputingMilieux_MISCELLANEOUS

Abstract

International audience; no abstract

Published

2016

19. An integrated method to evaluate and monitor the conservation state of coralligenous habitats: The INDEX-COR approach

Author

Sartoretto, Stéphane, Schohn, T., Bianchi, C. N., Morri, C., Garrabou, Joaquim, Ballesteros, Enric, Ruitton, Sandrine, Verlaque, Marc, Daniel, Boris, Charbonnel, Eric, Blouet, Sylvain, Romain, D., Féral, J.P., Gatti, Giulia, Sartoretto, Stéphane, Schohn, T., Bianchi, C. N., Morri, C., Garrabou, Joaquim, Ballesteros, Enric, Ruitton, Sandrine, Verlaque, Marc, Daniel, Boris, Charbonnel, Eric, Blouet, Sylvain, Romain, D., Féral, J.P., and Gatti, Giulia

Abstract

A new method based on photographic sampling coupled with in situ observations was applied to 53 stations along the French Mediterranean coast, to assess the integrity of coralligenous reefs affected by different levels of anthropogenic pressure. The conservation state of the assemblages characterizing these habitats was then assessed by an index – the INDEX-COR – that integrates three metrics: (i) the sensitivity of the taxa to organic matter and sediment deposition, (ii) the observable taxonomic richness, and (iii) the structural complexity of the assemblages. The sensitivity of INDEX-COR was tested and showed good correlation with the Level of Pressure calculated for each station according to expert judgment and field observations.

Published

2017

20. An ecosystem-based approach to assess the status of Mediterranean algae-dominated shallow rocky reefs

Author

Thibaut, Thierry, Blanfuné, Aurélie, Boudouresque, Charles F., Personnic, Sébastien, Ruitton, Sandrine, Ballesteros, Enric, Bellan-Santini, Denise, Bianchi, C. N., Bussotti, Simona, Cebrian, Emma, Cheminée, A., Culioli, Jean-Michel, Derrien-Courtel, Sandrine, Guidetti, P., Harmelin-Vivien, M., Hereu, Bernat, Morri, C., Poggiale, Jean-Christophe, Verlaque, M., Thibaut, Thierry, Blanfuné, Aurélie, Boudouresque, Charles F., Personnic, Sébastien, Ruitton, Sandrine, Ballesteros, Enric, Bellan-Santini, Denise, Bianchi, C. N., Bussotti, Simona, Cebrian, Emma, Cheminée, A., Culioli, Jean-Michel, Derrien-Courtel, Sandrine, Guidetti, P., Harmelin-Vivien, M., Hereu, Bernat, Morri, C., Poggiale, Jean-Christophe, and Verlaque, M.

Abstract

A conceptual model was constructed for the functioning the algae-dominated rocky reef ecosystem of the Mediterranean Sea. The Ecosystem-Based Quality Index (reef-EBQI) is based upon this model. This index meets the objectives of the EU Marine Strategy Framework Directive. It is based upon (i) the weighting of each compartment, according to its importance in the functioning of the ecosystem; (ii) biological parameters assessing the state of each compartment; (iii) the aggregation of these parameters, assessing the quality of the ecosystemfunctioning, for each site; (iv) and a Confidence Index measuring the reliability of the index, for each site. The reef- EBQI was used at 40 sites in the northwestern Mediterranean. It constitutes an efficient tool, because it is based upon awide set of functional compartments, rather than upon just a fewspecies; it is easy and inexpensive to implement, robust and not redundant with regard to already existing indices.

Published

2017

21. Coastal and marine geomorphology between Albenga and Savona(NW Mediterranean Sea, Italy).

Author

Rovere, A., Casella, E., Vacchi, M., Parravicini, V., Firpo, M., Ferrari, M., Morri, C., and Bianchi, C.N.

Subjects

GEOMORPHOLOGICAL mapping, COASTAL zone management, MARINE resources conservation, CARTOGRAPHY

Abstract

In this paper, we present a map describing the main geomorphological features of the coastal and marine area between the towns of Albenga and Savona (Ligurian Sea, NW Mediterranean) corresponding to a coastal stretch of ∼40 km. To produce this map, we collated data from the literature, orthophotos, perspective photos, multibeam and side scan sonar data, and undertook direct surveys to ground truth data obtained using indirect techniques. We divided the information into nine thematic layers, including bathymetry, natural coastal types, geomorphological elements, seafloor coverage (both geological and biological), coastal and nearshore dynamics, human influence on coastal and marine environments, coastal occupation and protected areas. [ABSTRACT FROM AUTHOR]

Published

2015

22. Geospatial modelling and map analysis allowed measuring regression of the upper limit of Posidonia oceanica seagrass meadows under human pressure

Author

Patrick Astruch, Alessandro Criscoli, Matteo Vacchi, Filippo Luzzu, Carla Morri, Gloria Misson, Giandomenico Ardizzone, Monica Montefalcone, Carlo Nike Bianchi, Renata Archetti, Yolanda Fernández-Torquemada, Marco Ferrari, Agostino Tomasello, Gérard Pergent, Sebastiano Calvo, Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Biología Marina, Montefalcone, Monica, Vacchi, Matteo, Archetti, Renata, Ardizzone, Giandomenico, Astruch, Patrick, Nike Bianchi, Carlo, Calvo, Sebastiano, Criscoli, Alessandro, Fernández-Torquemada, Yolanda, Luzzu, Filippo, Misson, Gloria, Morri, Carla, Pergent, Gérard, Tomasello, Agostino, Ferrari, Marco, Montefalcone M., Vacchi M., Archetti R., Ardizzone G., Astruch P., Bianchi C.N., Calvo S., Criscoli A., Fernandez-Torquemada Y., Luzzu F., Misson G., Morri C., Pergent G., Tomasello A., and Ferrari M.

Subjects

Settore BIO/07 - Ecologia, 0106 biological sciences, Mediterranean climate, Geospatial analysis, 010504 meteorology & atmospheric sciences, Mediterranean sea, Morphodynamic, sPosidonia oceanica, Predictive modelling, Reference conditions, Seagrass, Aquatic Science, Oceanography, computer.software_genre, 01 natural sciences, Morphodynamic, Zoología, Ecosystem, Seagrass, sPosidonia oceanica, 0105 earth and related environmental sciences, biology, 010604 marine biology & hydrobiology, Seagra, Predictive modelling, Fragmentation (computing), Posidonia oceanica, Reference conditions, biology.organism_classification, Morphodynamics, Mediterranean sea, Regression, Settore BIO/03 - Botanica Ambientale E Applicata, Spatial ecology, Environmental science, Reference condition, Physical geography, computer

Abstract

Marine coastal ecosystems are facing structural and functional changes due to the increasing human footprint worldwide, and the assessment of their long-term changes becomes particularly challenging. Measures of change can be done by comparing the observed ecosystem status to a purposely defined reference condition. In this paper, a geospatial modelling approach based on 2D mapping and morphodynamic data was used to predict the natural position of the upper limit (i.e., the landward continuous front) of Posidonia oceanica seagrass meadows settled on soft bottom. This predictive model, formerly developed at the regional spatial scale, was here applied for the first time at the Mediterranean spatial scale in eight coastal areas of Spain, France, Italy, and Greece showing different coastal morphologies and hydrodynamic characteristics, and affected by a number of natural and/or human local disturbances. The model was effective in measuring the regression (i.e., seaward withdrawal) of the meadow upper limit. In all the meadows investigated the upper limit was regressed, laying deeper than the reference condition, with the proportion of regression ranging from 17.7% to 98.9%. The highest values of regression were found in Spain and in France, and were consistent with the highest levels of fragmentation detected with map analysis and of coastal pressures. This geospatial modelling approach represents an effective tool to define the reference conditions when proper pristine areas or historical data are not available, thus allowing the assessment of long-time changes experienced by seagrass ecosystems due to human impacts.

Published

2019

23. Unpublished Mediterranean records of marine alien and cryptogenic species

Author

Maria Zotou, Hasan Cerim, Rossana Sanfilippo, Luca Castriota, Monica Montefalcone, Pierre Noel, Joxe Mikel Garmendia, Alice Lodola, Mohamed Mourad Ben Amor, Jorge Terrados, Mohamed Hédi Ktari, Giorgos Chatzigeorgiou, Konstantinos Tsirintanis, Vincenzo Di Martino, Julian Evans, Ernesto Azzurro, Françoise Monniot, Gérard Pergent, Emna Soufi-Kechaou, Sercan Yapıcı, Domen Trkov, Anna Maria Mannino, Ante Žunec, Alan Deidun, Jamila Rizgalla, Joseph A. Borg, Joaquim Garrabou, Antonietta Rosso, Ana Fortič, Maïa Fourt, Ali Türker, Martina Orlando-Bonaca, Nikos Doumpas, Stelios Katsanevakis, Charalampos Dimitriadis, Murat Bilecenoglu, Soultana Tsioli, Dimitrios Damalas, Paraskevi K. Karachle, Markos Digenis, Fiona Tomas, Gianni Insacco, Free Espinosa, Periklis Kleitou, Shevy B.S. Rothman, Manuela Falautano, Arthur R. Bos, Ergün Taşkın, Hocein Bazairi, Maria Sini, Ioanna Kosma, Patrick J. Schembri, Jorge Santamaría, Dimitris Poursanidis, Miraine Rizzo, Grigorios Skouradakis, Demetris Kletou, Melih Ertan Çinar, Razy Hoffman, Luigi Piazzi, Carla Morri, Konstantinos Tsiamis, Borut Mavrič, Agnese Marchini, Michail Ragkousis, Ioannis Giovos, Halit Filiz, Francesco Tiralongo, Jonathan Tempesti, Andrés Izquierdo Muñoz, Najib El Ouamari, Bruno Zava, Rym Zakhama-Sraieb, Paolo G. Albano, Omar Inglese, A. Siapatis, Mehmet Fatih Huseyinoglu, Sotiris Orfanidis, Raül Golo, Angela Bartolo, C. Stamouli, Alfonso A. Ramos-Esplá, Paolo Balistreri, Yassine-Ramzi Sghaier, Mohamed Selfati, Faten Khamassi, Said Benhissoune, Fabio Crocetta, Emma Cebrian, Cristina Linares, Vasilis Gerovasileiou, Anna Occhipinti-Ambrogi, Carlo Nike Bianchi, Khadija Ounifi Ben Amor, Jana Verdura, Christine Pergent, Marc Verlaque, Emmanouil Andriotis, Mouna Rifi, Laura Royo, Jamila Ben Souissi, Thanos Dailianis, Michel Bariche, Maria Cristina Gambi, Louis Hadjioannou, Enric Ballesteros, Raouia Ghanem, Fabio Badalamenti, Stefanos Kalogirou, Emilio Mancuso, Martina Gaglioti, Carlo Pipitone, Lovrenc Lipej, Wafa Rjiba-Bahri, Nikolas Michailidis, Carlos Jiménez, Orestis Papadakis, Jasmine Ferrario, Eleni Kytinou, Jeanne Zaouali, Joachim Langeneck, María Josefa Mosteiro García, Sami Karaa, Argyro Zenetos, Ya’arit Levitt-Barmats, Ivan Cvitković, Ege Üniversitesi, European Commission, Agencia Estatal de Investigación (España), Hellenic Centre for Marine Research (HCMR), AZTI - Tecnalia, American University of Beirut [Beyrouth] (AUB), Faculty of Science, Department of Biology (UNIVERSITY OF MALTA), University of Malta [Malta], Sciences pour l'environnement (SPE), Centre National de la Recherche Scientifique (CNRS)-Université Pascal Paoli (UPP), Dept. of 'Ecologia del Territorio', Institute of Marine Biology and Genetics, Hellenic Center for Marine Research (HCMR), Aristotle University of Thessaloniki, Department of Physics, Cyprus University of Technology, Faculté des sciences [Rabat], Université Mohammed V de Rabat [Agdal], Observatoire océanologique de Banyuls (OOB), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Laboratorio di Ecologia (CNR-IAMC), CNRS-IAMC, Laboratoire de Modélisation en Hydraulique et Environnement [Tunis] (LR-LMHE ENIT), Ecole Nationale d'Ingénieurs de Tunis (ENIT), Université de Tunis El Manar (UTM)-Université de Tunis El Manar (UTM), Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), Institute of Oceanography and Fisheries, Fondazione IRCCS Instituto Nazionale dei Tumori [Milan, Italy], Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Biología Marina, Katsanevakis, S, Poursanidis, D, Hoffman, R, Rizgalla, J, Bat-Sheva Rothman, S, Levitt-Barmats, Y, Hadjioannou, L, Trkov, D, Mikel Garmendia, J, Rizzo, M, Bartolo, AG, Bariche, M, Tomas, F, Kleitou, P, Schembri, PJ, Kletou, D, Tiralongo, F, Pergent, C, Pergent, G, Azzurro, E, Bilecenoglu, M, Lodola, A, Ballesteros, E, Gerovasileiou, V, Verlaque, M, Occhipinti-Ambrogi, A, Kytinou, E, Dailianis, T, Ferrario, J, Crocetta, F, Jimenez, C, Evans, J, Ragkousis, M, Lipej, L, Borg, JA, Dimitriadis, D, Chatzigeorgiou, G, Albano, PG, Kalogirou, S, Bazairi, H, Espinosa, F, Ben Souissi, J, Tsiamis, K, Badalamenti, F, Langeneck, J, Noel, P, Deidun, A, Marchini, A, Skouradakis, G, Royo, L, Sini, M, Nike Bianchi, C, Sghaier, YR, Ghanem, R, Doumpas, N, Zaouali, J, Tsirintanis, K, Papadakis, O, Morri, C, Çinar, ME, Terrados, J, Insacco, G, Zava, B, Soufi-Kechaou, E, Piazzi, L, Ounifi Ben Amor, K, Andriotis, E, Gambi, MC, Ben Amor, MM, Garrabou, J, Linares, C, Fortič, A, Digenis, M, Cebrian, E, Fourt, M, Zotou, M, Castriota, L, Di Martino, V, Rosso, A, Pipitone, C, Falautano, M, García, M, Zakhama-Sraieb, R, Khamassi, F, Mannino, AM, Ktari, MH, Kosma, I, Rifi, M, Karachle, PK, Yapıcı, S, Bos, AR, Balistreri, P, Ramos Esplá, AA, Tempesti, J, Inglese, O, Giovos, I, Damalas, D, Benhissoune, S, Huseyinoglu, MF, Rjiba-Bahri, W, Santamaría, J, Orlando-Bonaca, M, Izquierdo, A, Stamouli, C, Montefalcone, M, Cerim, H, Golo, R, Tsioli, S, Orfanidis, S, Michailidis, N, Gaglioti, M, Taşkın, E, Mancuso, E, Žunec, A, Cvitković, I, Filiz, H, Sanfilippo, R, Siapatis, A, Mavrič, B, Karaa, S, Türker, A, Monniot, F, Verdura, J, El Ouamari, N, Selfati, M, Zenetos, A, Department of Marine Sciences, University of the Aegean, Lofos Panepistimiou, Mytilene, 81100, Greece, Foundation for Research and Technology—Hellas (FORTH), Institute of Applied and Computational Mathematics, Remote Sensing lab, N. Plastira 100, Vassilika Vouton, Heraklion, 70013, Greece, The Steinhardt Museum of Natural History, Israel National Center for Biodiversity Studies, Tel Aviv University, Tel Aviv, 69978, Israel, Department of Aquaculture, Faculty of Agriculture, University of Tripoli, Tripoli, Libyan Arab Jamahiriya, School of Zoology, The George S. Wise Faculty of Life Science, Tel-Aviv University, Tel Aviv, 69978, Israel, Department of Fisheries and Marine Research, 101 Vithleem Str., Strovolos, Nicosia, 1416, Cyprus, Enalia Physis Environmental Research Centre, Acropoleos 2, Aglantzia, Nicosia, 2101, Cyprus, Marine Biology Station Piran, National Institute of Biology, Fornace 41, Piran, 6330, Slovenia, Mediterranean Institute of Advanced Studies, IMEDEA (CSIC-UIB), C/ Miquel Marquès, 21, Esporles, 07190, Spain, AZTI, Marine Research Division, Herrera kaia, Portualdea z/g, Pasaia, 20110, Spain, ERA, Hexagon House, Spencer Hill, Marsa, MRS 1441, Malta, Department of Biology, American University of Beirut, Beirut, 11-0236, Lebanon, Marine & Environmental Research (MER) Lab, 202 Amathountos Av, Marina Gardens, Block B, Off. 13-14, Limassol, Cyprus, Department of Biology, University of Malta, Msida, MSD2080, Malta, Department of Biological, Geological and Environmental Sciences, University of Catania, Corso Italia, 57, Catania, 95129, Italy, EqEL, FRES 3041 – UMR 6134, University of Corsica, BP 52, Corte, 20250, France, Italian National Research Council (CNR-IRBIM), Largo Fiera della Pesca, 2, Ancona, AN 60125, Italy, Department of Biology, Faculty of Arts and Sciences, Aydin Adnan Menderes University, Aydin, 09010, Turkey, Department of Earth and Environmental Sciences, University of Pavia, Pavia, 27100, Italy, Centre d´Estudis Avançats de Blanes, Consejo Superior de Investigaciones Científicas (CEAB-CSIC), Blanes, Catalonia, Spain, Institute of Marine Biology, Biotechnology and Aquaculture, Hellenic Centre for Marine Research, P.O. Box 2214, Heraklion, 71003, Greece, Mediterranean Institute of Oceanography (UMR_D 235 MIO) & GIS Posidonie, Aix-Marseille University, Marseille, 13288, France, Department of Integrative Marine Ecology, Stazione Zoologica Anton Dohrn, Napoli, 80121, Italy, National Marine Park of Zakynthos, El Venizelou1, Zakynthos Island, 29100, Greece, Department of Palaeontology, University of Vienna, Althanstrasse 14, Vienna, A-1090, Austria, Hellenic Centre for Marine Research, Hydrobiological Station of Rhodes, Rhodes, 85100, Greece, BioBio Research Center, BioEcoGen Laboratory, Faculty of Sciences, Mohammed V University in Rabat, 4 Avenue Ibn Battouta, B.P. 1014 RP, Rabat, 10106, Morocco, Laboratorio de Biología Marina, Departamento de Zoologia, Universidad de Sevilla, Avda. Reina Mercedes 6, Sevilla, 41012, Spain, University Tunis El Manar, Biodiversity, Biotechnology and Climate Change Laboratory (LR 11ES09), Tunis, 1002, Tunisia, University of Carthage, National Institute of Agronomy of Tunis (INAT), Tunis, 1082, Tunisia, European Commission, Joint Research Centre (JRC), Ispra, Italy, CNR-IAS, Lungomare C. Colombo 4521, Palermo, 90149, Italy, University of Pisa, Department of Biology, via Derna 1, Pisa, 56126, Italy, UMS 2006 AFB-CNRS-MNHN, 'Patrimoine Naturel', Centre d'expertise et de données sur la nature, Muséum national d'Histoire naturelle, 43 rue Buffon-Bat. 48, Paris cedex 05, 75231, France, Department of Geosciences, University of Malta, Msida, MSD 2080, Malta, DiSTAV (Department of Earth, Environment and Life Sciences), University of Genoa, Corso Europa 26, Genova, 16132, Italy, University of Tunis El Manar, Faculty of Sciences of Tunis, Research Laboratory of Diversity, Management and Conservation of Biological Systems, LR18ES06, Tunis, Tunisia, Regional Activity Centre for Specially Protected Areas, Boulevard du Leader Yasser Arafet-B.P. 337, Tunis Cedex, 1080, Tunisia, Environmental Organization for the Preservation of Aquatic Ecosystems, iSea, Agios Pavlos, Thessaloniki, 55438, Greece, Ege University, Faculty of Fisheries, Dept. of Hydrobiology, Bornova, Izmir 35100, Turkey, Museo Civico di Storia Naturale di Comiso, Via degli Studi n° 9, Comiso, RG 97013, Italy, Department of Chemistry and Pharmacy, University of Sassari, Via Piandanna 4, Sassari, 70100, Italy, Université de Tunis El Manar, Faculté des Sciences de Tunis, Laboratoire de Biodiversité, Biotechnologie et Changement Climatique, LR11ES09, Tunis, 1002, Tunisia, Institut National des Sciences et Technologies de la Mer, port de pêche, La Goulette, 2025, Tunisia, Institute of Marine Sciences, CSIC, Passeig Marítim de la Barceloneta, 37-49, Barcelona, 08003, Spain, Department of Evolutionary Biology, Ecology and Environmental Sciences, Institut de Recerca de la Biodiversitat (IRBIO), University of Barcelona, Av. Diagonal 643, Barcelona, 08028, Spain, GRMAR, Institute of Aquatic Ecology, University of Girona, Catalonia, Girona, E-17071, Spain, Institut Méditerranéen de Biodiversité et d'Ecologie marine et continentale, Aix-Marseille Université, CNRS, IRD, Avignon Université, Station Marine d'Endoume, Rue de la Batterie des Lions, Marseille, 13007, France, Italian Institute for Environmental Protection and Research, Lungomare Cristoforo Colombo n. 4521 (ex complesso Roosevelt), Località Addaura, Palermo, 90149, Italy, CNR/ISAFoM (National Research Counsil of Italy/Institute for Agricultural and Forestry System in the Mediterranean), via Empedocle 58, Catania, 95128, Italy, Department of Biological, Chemical and Pharmaceutical Sciences and Technologies, University of Palermo, Palermo, 90123, Italy, Tunis El Manar University, Faculty of Science of Tunis, Tunisia, Institute of Marine Biological Resources and Inland Waters, Hellenic Centre for Marine Research, 576 Vouliagmenis Ave., Argyroupoli, Attika, 164 52, Greece, Muğla Sıtkı Koçman University, Faculty of Fisheries, Muğla, 48000, Turkey, The American University in Cairo, Department of Biology, Cairo, Egypt, Vicolo Giotto N 6, Favignana, TP 91023, Italy, Marine Research Center of Santa Pola (CIMAR), University of Alicante, Alicante, 03080, Spain, Faculty of Maritime Studies, University of Kyrenia, Girne, 99350, Cyprus, Mediterraneo Servicios Marinos, Nueva Dársena Pesquera s/n Buzones 50 y 51, Alicante, 03008, Spain, Association ‘Action Bleue Maroc’, Rabat, Morocco, Fisheries Research Institute, Hellenic Agricultural Organization-Demeter, Kavala, Nea Peramos, 64007, Greece, Department of Biology, Faculty of Arts and Sciences, Manisa Celal Bayar University, Muradiye, Manisa, 45140, Turkey, Istituto per gli Studi sul Mare, Viale Gadio 2, Milano, 20121, Italy, Institute for Oceanography and Fisheries, Šetalište Ivana Meštrovića 63, Split, 21 000, Croatia, Institut National des Sciences et Technologies de la Mer (Centre Sfax), BP. 1035, Sfax, 3018, Tunisia, CNRS, Museum national d'histoire naturelle, 55 rue Buffon, Paris, 75005, France, National Institute of fisheries research, 13, Bd Zerktouni, BP 493, Nador, Morocco, Universidad de Sevilla. Departamento de Zoología, Université Pascal Paoli (UPP)-Centre National de la Recherche Scientifique (CNRS), and Université Mohammed V de Rabat [Agdal] (UM5)

Subjects

Invasions biològiques -- Mediterrània (Mar), geo-referenced records, 0206 medical engineering, Non-native species, Invasive alien species, Library science, non-native species, non-indigenous, distribution, citizen science, invasive alien species, geo-referenced records, Mediterranean Sea, 02 engineering and technology, Alien, Distribution, Citizen science, 01 natural sciences, Records -- Management, Science -- Mediterranean Region, 0103 physical sciences, Agency (sociology), citizen science, distribution, Mediterranean Sea, media_common.cataloged_instance, non-indigenous, Zoología, 14. Life underwater, European union, non-indigenous species, ComputingMilieux_MISCELLANEOUS, Ecology, Evolution, Behavior and Systematics, Global environmental analysis, media_common, Biological invasions -- Mediterranean Sea, invasive alien species, 010304 chemical physics, Ecology, Settore BIO/02 - Botanica Sistematica, Marine reserve, non-native species, Geo-referenced records, 020601 biomedical engineering, Espècies introduïdes -- Mediterrània (Mar), Introduced organisms -- Mediterranean Sea, 13. Climate action, General partnership, [SDE]Environmental Sciences, Marine protected area, Non-indigenous, Science -- Methodology -- Case studies

Abstract

Este artículo contiene 18 páginas, 4 figuras., Good datasets of geo-referenced records of alien species are a prerequisite for assessing the spatio-temporal dynamics of biological invasions, their invasive potential, and the magnitude of their impacts. However, with the exception of first records on a country level or wider regions, observations of species presence tend to remain unpublished, buried in scattered repositories or in the personal databases of experts. Through an initiative to collect, harmonize and make such unpublished data for marine alien and cryptogenic species in the Mediterranean Sea available, a large dataset comprising 5376 records was created. It includes records of 239 alien or cryptogenic taxa (192 Animalia, 24 Plantae, 23 Chromista) from 19 countries surrounding the Mediterranean Sea. In terms of records, the most reported Phyla in descending order were Chordata, Mollusca, Chlorophyta, Arthropoda, and Rhodophyta. The most recorded species was Caulerpa cylindracea, followed by Siganus luridus, Magallana sp. (cf. gigas or angulata) and Pterois miles. The dataset includes records from 1972 to 2020, with the highest number of records observed in 2018. Among the records of the dataset, Dictyota acutiloba is a first record for the Mediterranean Sea. Nine first country records are also included: the alga Caulerpa taxifolia var. distichophylla, the cube boxfish Ostracion cubicus, and the cleaner shrimp Urocaridella pulchella from Israel; the sponge Paraleucilla magna from Libya and Slovenia; the lumpfish Cyclopterus lumpus from Cyprus; the bryozoan Celleporaria vermiformis and the polychaetes Prionospio depauperata and Notomastus aberans from Malta., The publication of this article is supported by the Open Access Publishing Fund of the International Association for Open Knowledge on Invasive Alien Species (INVASIVESNET; www.invasivesnet.org). Stelios Katsanevakis, Maria Sini and Konstantinos Tsirintanis were supported by the Hellenic Foundation for Research and Innovation (H.F.R.I.) under the “First Call for H.F.R.I. Research Projects to support Faculty members and Researchers and the procurement of high-cost research equipment grant” (Project Number: HFRI-FM17-1597). Enalia Physis acknowledges Pantelis Patsalou for his support with field-logistics and links with fishers. Fiona Tomas would like to acknowledge funding from FECYT FCT- 14-9319 (¡OJO A LAS INVASORAS! BIODIVERSIDAD Y ESPECIES INVASORAS DEL MEDITERRÁNEO BALEAR). Vasilis Gerovasileiou, Thanos Dailianis and Maria Sini acknowledge the support by the MARISCA project (www.marisca.eu), co-funded (85%) by EEA GRANTS, 2009–2014, and the Public Investments Program (PIP) of the Hellenic Republic (15%). Razy Hoffman acknowledges funding by Yad-Hanadiv foundation, through the Israel Society of Ecology and Environmental Sciences and Israel Nature and Parks Authority (An integrated program for establishing biological baselines and monitoring protocols for marine reserves in the Israeli Mediterranean Sea). Argyro Zenetos and Paraskevi K. Karachle would like to thank the citizenscientists collaborating with the Ellenic Network on Aquatic Invasive Species (ELNAIS – elnais.hcmr.gr). Nikolaos Doumpas, Ioannis Giovos, Periklis Kleirou and Francesco Tiralongo would like to thank all the citizen-scientists that contributed with their shared records and data in the citizen-science project “Is it alien to you? Share it!!!” (https://www.facebook.com/ groups/104915386661854/). Data from Gyaros Island marine reserve were collected under the “GyarosMPA” project, funded by “MAVA Fondation pour la Nature”. Data from Corsica coastline were mainly collected in the framework of the “Corsica Alien Network” initiated by “Office de l’Environnement de la Corse”. Carla Morri and Carlo Nike Bianchi received financial support from FFARB (funds for basic research activities) by the Italian Ministry of Education, University and Research. Ergün Taşkın has been supported by TÜBİTAK, Ankara, Turkey (Project Number: 114Y238). The Slovenian authors would like to acknowledge their financial support from the Slovenian Research Agency (research core funding No. P1-0237) and the Ministry of Agriculture, Forestry and Food of the Republic of Slovenia. Mehmet Fatih Huseyinoglu thanks University of Kyrenia’s Scientific Research Project numbered GRN-20191-004. Fabio Crocetta was funded by the COST (European Cooperation in Science and Technology) Action TD1209 Alien Challenge project. The FRI (HAO DEMETER) team is very grateful to the Marine Strategy Project for financial support. Records of NIS in Jbel Moussa, the National Park of Al Hoceima and Cap des Trois Fourches sites from Morocco were obtained during surveys conducted within the framework of the MedKeyHabitats and the MedMPAnet Projects implemented by UNEP/MAP-RAC/SPA in close collaboration with the Haut Commissariat aux Eaux et Forêts et à la Lutte Contre la Désertification (HCEFLCD) and financially supported by RAC/SPA, Tunisia and the MAVA Foundation, Switzerland (MedKeyHabitats Project) and the European Commission (EC), the Spanish Agency for International Cooperation to Development (AECID), and the French Global Environment Facility (MedMPAnet Project). Jamila Ben Souissi was partially funded by BiodivMex /Chantier MISTRALS. Konstantinos Tsiamis sampling records were retrieved during his post in the Hellenic Centre for Marine Research, which he would like to thank for. Periklis Kleitou and Demetris Kletou were supported by the LIFE financial instrument of the European Union – RELIONMED project [Grant Agreement LIFE16 NAT/ CY/000832]. Some of the data included in the dataset were obtained through the marine citizen science platform Observadores del Mar www.observadoresdelmar.es with the support of FECYT FCT-17-12469, LIFE IP Intemares and Fundació Marilles, and through the citizen science site of the Italian Marine Protected Area of “Regno di Nettuno” (islands of Ischia, Procida and Vivara): www.citizensciencerdn.org. Most data from Lebanon were retrieved from social media dedicated to citizen science (Facebook group: Sea Lebanon https://www.facebook.com/ groups/109615625861815/) or fishers and scuba divers WhatsApp groups). Jamila Rizgalla wishes to thank the administration of Regatta for granting a free pass to conduct field surveys and the security personnel for providing a safe environment. Anna Occhipinti-Ambrogi was supported by European Community’s Seventh Framework Program VECTORS (Vectors of Change in Oceans and Seas Marine Life, Impact on Economic Sectors). The long lasting collaboration with the ICES Working Group on Introductions and Transfer of Marine Organisms (WGITMO) has been a good forum where many information and ideas could be exchanged within some of the authors (Anna Occhipinti-Ambrogi, Argyro Zenetos, Agnese Marchini, and a wider community of scientists working on biological invasions). A. Rosso and R. Sanfilippo received grants from the Catania University Research Plan 2016/2018. Data from Kuriat island were collected under the “Kuriat project”, funded by “MAVA Fondation pour la Nature” executed by SPA/RAC in partnership with the Coastal Protection and Management Agency (APAL) and Notre Grand Bleu (NGB) NGO. The AIS/ERA (Environment and Resources Authority) Maltese data were obtained from the EU funded project EMFF 8.3.1 under the European Maritime and Fisheries Fund 2014–2020 with a total cost of €1.6 million in public eligible EMFF funds (75% EU 25% MT), managed by AIS/ERA (Environment and Resources Authority). The ultimate goals of this European Maritime and Fisheries Fund (EMFF 2014–2020) project are to devise a holistic approach towards marine monitoring and develop a comprehensive database of data collected about the Maltese waters., With the funding support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S), of the Spanish Research Agency (AEI)

Published

2020

24. Benthic diversity patterns and predictors: A study case with inferences for conservation

Author

Stefano Aliani, Carlo Nike Bianchi, Carla Morri, Chiara Paoli, Silvia Cocito, Paolo Vassallo, Vassallo, P., Paoli, C., Aliani, S., Cocito, S., Morri, C., and Bianchi, C. N.

Subjects

0106 biological sciences, Conservation of Natural Resources, Marine protected area, Sorting (sediment), 010501 environmental sciences, Aquatic Science, Oceanography, 01 natural sciences, Mediterranean sea, Diversity, Equitability, Hot spots, Macrobenthos, Marine protected areas, Mediterranean Sea, Species richness, Hot spot, Ecosystem, 0105 earth and related environmental sciences, 010604 marine biology & hydrobiology, Sediment, Biodiversity, Pollution, Macrobentho, Geography, Habitat, Benthic zone, Physical geography

Abstract

Understanding which drivers cause diversity patterns is a key issue in conservation. Here we applied a spatially explicit model to predict marine benthic diversity patterns according to environmental factors in the NW Mediterranean Sea. While most conservation-oriented diversity studies consider species richness only and neglect equitability, we measured separately species richness, equitability, and 'overall' diversity (i.e., the Shannon-Wiener H' function) on a dataset of 890 benthic species × 209 samples. Diversity values were predicted by means of Random Forest regression, on the basis of 10 factors: depth, distance from the coast, distance from the shelf break, latitude, sea-floor slope, sediment grain size, sediment sorting, distance from harbours and marinas, distance from rivers, and sampling gear. Predictions by Random Forests were accurate, the main predictors being latitude, sediment grain size, depth and distance from the coast. Based on predicted values, diversity hotspots were identified as those localities where indices were in the 15% top segment of ranked values. Only a minority of the diversity hotspots was included within the boundaries of the protection institutes established in the region. Marine protected areas are often created in sites harbouring important coastal habitats, which risks neglecting the diversity hidden in the sedimentary seafloor. We suggest that marine protected areas should accommodate portions of sedimentary habitat within their boundaries to improve diversity conservation.

Published

2020

25. Consequences of the marine climate and ecosystem shift of the 1980-90s on the Ligurian Sea biodiversity (NW Mediterranean Sea)

Author

Alice Oprandi, Monica Montefalcone, Annalisa Azzola, Riccardo Cattaneo-Vietti, Silvia Cocito, Andrea Peirano, Federico Betti, Carla Morri, Marzia Bo, Giorgio Bavestrello, C. N. Bianchi, Marco Bertolino, Bianchi, C. N., Azzola, A., Bertolino, M., Betti, F., Bo, M., Cattaneo-Vietti, R., Cocito, S., Montefalcone, M., Morri, C., Oprandi, A., Peirano, A., and Bavestrello, G.

Subjects

Mediterranean climate, Biodiversity, Oceanic climate, Biota, depth refugia hypothesis, historical series, Ligurian Sea, phase shift, Sea water warming, historical serie, Oceanography, lcsh:Zoology, Environmental science, Animal Science and Zoology, Ecosystem, lcsh:QL1-991, depth refugia hypothesi, Historical series, Sea water warming, depth refugia hypothesis, historical series, phase shift, Ligurian Sea

Abstract

A rapid temperature increase in the 1980-90s has been accompanied by dramatic and unprecedented changes in the biota and communities of the Ligurian Sea. This review uses existing historical series (a few of which have been purposely updated) to assess extent and consequences of such changes. A number of warm-water species, previously absent or occasional in the comparatively cold Ligurian Sea, has recently established thanks to warmer winters. Occurrence among them of invasive alien species is causing concern because of their capacity of outcompeting autochthonous species. Summer heatwaves, on the other hand, caused mass mortalities in marine organisms, some of which found refuge at depth. New marine diseases appeared, as well as other dysfunctions such as the formation of mucilage aggregates that suffocated and entangled benthic organisms. Human pressures have combined with climate change to cause phase shifts (i.e., abrupt variations in species composition and community structure) in different habitats, such as the pelagic environment, seagrass meadows, rocky reefs, and marine caves. These phase shifts implied biotic homogenization, reduction of diversity, and dominance by invasive aliens, and may be detrimental to the resilience of Ligurian Sea ecosystems. Another phase of rapid warming has possibly started in the 2010s and there are clues pointing to a further series of biological changes, but data are too scarce to date for proper assessment. Only well addressed long-term studies will help understanding the future dynamics of Ligurian Sea ecosystems and their possibilities of recovery.

Published

2019

26. Different impact of a severe storm on two gorgonian species.

Author

Cassetti O, Azzola A, Bianchi CN, Morri C, Oprandi A, and Montefalcone M

Abstract

Extreme events influence ecosystem dynamics, but their effects on coastal marine habitats are often poorly perceived compared to their terrestrial counterparts. The detailed study of changes in benthic communities related to these phenomena is becoming urgent, due to the increasing intensity and frequency of hurricanes recorded in recent decades. Slow-growing benthic sessile organisms are particularly vulnerable to mechanical impacts, especially the large long-lived species with branched morphology that structure Mediterranean coralligenous assemblages. The present study evaluates the effects of the severe storm occurred in October 2018, and classified as one of most violent that ever struck north-western Mediterranean coasts, on two gorgonian species, the scleralcyonacean Corallium rubrum (with a solid carbonate axial skeleton) and the malacalcyonacean Paramuricea clavata (with a flexible proteinaceous axis). Comparing the cover and density of the two species before and after the severe storm, C. rubrum showed a decrease of more than 50% in one surveyed site. In contrast, P. clavata population did not show a decrease, and exhibited the highest density and cover in the same site, thanks to the high hydrodynamic condition which are favourable for this species. In this study, cover evaluation proved to be more time-efficient than counting colonies, and reduced the risk of errors. The present example highlighted the importance of continuous monitoring, including the assessment of the biological and ecological traits of the species, to provide a complete picture of their populations for conservation planning., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Monica Montefalcone reports financial support was provided by Government of Italy Ministry of University and Research. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

27. Genome-resolved metagenomics revealed novel microbial taxa with ancient metabolism from macroscopic microbial mat structures inhabiting anoxic deep reefs of a Maldivian Blue Hole.

Author

Doni L, Azzola A, Oliveri C, Bosi E, Auguste M, Morri C, Bianchi CN, Montefalcone M, and Vezzulli L

Subjects

Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Bacteria metabolism, Geologic Sediments microbiology, Genome, Bacterial genetics, Anaerobiosis, Deltaproteobacteria genetics, Deltaproteobacteria classification, Deltaproteobacteria isolation & purification, Deltaproteobacteria metabolism, Chloroflexi genetics, Chloroflexi classification, Chloroflexi isolation & purification, Chloroflexi metabolism, Proteobacteria genetics, Proteobacteria classification, Proteobacteria isolation & purification, Microbiota, Metagenomics, Phylogeny, Metagenome

Abstract

Blue holes are vertical water-filled openings in carbonate rock that exhibit complex morphology, ecology, and water chemistry. In this study, macroscopic microbial mat structures found in complete anoxic conditions in the Faanu Mudugau Blue Hole (Maldives) were studied by metagenomic methods. Such communities have likely been evolutionary isolated from the surrounding marine environment for more than 10,000 years since the Blue Hole formation during the last Ice Age. A total of 48 high-quality metagenome-assembled genomes (MAGs) were recovered, predominantly composed of the phyla Chloroflexota, Proteobacteria and Desulfobacterota. None of these MAGs have been classified to species level (<95% ANI), suggesting the discovery of several new microbial taxa. In particular, MAGs belonging to novel bacterial genera within the order Dehalococcoidales accounted for 20% of the macroscopic mat community. Genome-resolved metabolic analysis of this dominant microbial fraction revealed a mixotrophic lifestyle based on energy conservation via fermentation, hydrogen metabolism and anaerobic CO 2 fixation through the Wood-Ljungdahl pathway. Interestingly, these bacteria showed a high proportion of ancestral genes in their genomes providing intriguing perspectives on mechanisms driving microbial evolution in this peculiar environment. Overall, our results provide new knowledge for understanding microbial life under extreme conditions in blue hole environments., (© 2024 The Author(s). Environmental Microbiology Reports published by John Wiley & Sons Ltd.)

Published

2024

28. Patterns of change in coral reef communities of a remote Maldivian atoll revisited after eleven years.

Author

Zampa G, Azzola A, Bianchi CN, Morri C, Oprandi A, and Montefalcone M

Subjects

Animals, Humans, Indian Ocean, Maldives, Climate Change, Coral Reefs, Anthozoa

Abstract

Coral reefs are exposed worldwide to several global and local human pressures including climate change and coastal development. Assessing the effects of such pressures on coral reef communities and the changes they undergo over time is mandatory to understand their possible future trends. Nonetheless, some coral reefs receive no or little scientific attention, as in the case of Huvadhoo Atoll that is an under-studied region in the southernmost area of the Maldives (Indian Ocean). This study analyzes the changes occurring over time in eight coral reefs (four inner reefs within the atoll lagoon and four outer reefs on the ocean side) at Huvadhoo Atoll, firstly surveyed in 2009 and revisited in 2020 using the same field methods. The cover of 23 morphological benthic descriptors (including different growth forms of Acropora ) was taken into account and then grouped into three categories ( i.e. , hard coral, other benthic taxa and abiotic descriptors) to analyze the change in the composition of the coral reef community. Significant changes ( e.g. , increase in hard coral cover and decrease in abiotic descriptors) were observed in the inner reefs as compared to the outer reefs, which showed less variability. A significant decrease in tabular Acropora cover was observed in both inner and outer reefs, with possible negative effects on reef complexity and functioning. By comparing two time periods and two reef types, this study provides novel information on the change over time in the community composition of Maldivian coral reefs., Competing Interests: The authors declare there are no competing interests., (©2023 Zampa et al.)

Published

2023

29. Unexpected slow recovery of seagrass leaf epiphytes after the impact of a summer heat wave and concomitant mucilage bloom.

Author

Gallo E, Oprandi A, Bianchi CN, Morri C, Azzola A, and Montefalcone M

Subjects

Plant Leaves chemistry, Biomass, Temperature, Mediterranean Sea, Hot Temperature, Alismatales physiology

Abstract

The epiphytes of seagrass leaves constitute a peculiar community, comprised of a number of species specialized for this living substrate. Several studies report on the response of epiphytes to different pressures but no information exists about the effects of summer heatwaves, which have become frequent events in the last decades. This paper represents the first attempt to investigate the change in the leaf epiphyte community of the Mediterranean seagrass Posidonia oceanica due to the heatwave occurred in summer 2003. Thanks to a series of data collected seasonally between 2002 and 2006, and punctual data in the summers of 2014 and 2019, we assessed the change over time in the leaf epiphyte community. Temperature data trends were analysed through linear regression, while multivariate analyses (i.e., nMDS and SIMPER) were applied to cover data in order to assess changes over time in the epiphyte community. As a whole, the two most abundant taxa were the crustose coralline alga Hydrolithon and the encrusting bryozoan Electra posidoniae, which displayed the highest average cover values in summer (around 19%) and spring (around 9%), respectively. Epiphytes proved to be sensitive to temperature highs, displaying different effects on cover, biomass, diversity and community composition. Cover and biomass exhibited a dramatic reduction (more than 60%) after the disturbance. In particular, Hydrolithon more than halved, while E. posidoniae dropped sevenfold during summer 2003. While the former recovered comparatively quickly, the latter, as well as the whole community composition, apparently required 16 years to return to a condition similar to that of 2002., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

30. Variability between observers does not hamper detecting change over time in a temperate reef.

Author

Azzola A, Atzori F, Bianchi CN, Cadoni N, Frau F, Mora F, Morri C, Oprandi A, Orrù PE, and Montefalcone M

Subjects

Animals, Climate, Climate Change, Conservation of Natural Resources, Coral Reefs, Humans, Italy, Seawater, Anthozoa, Ecosystem

Abstract

Marine ecosystems are subject to global and local impacts, both contributing to dramatic changes in coastal communities. Assessing such changes requires time series or the revisitation of sites first surveyed in the past. In both cases, data are not necessarily collected by the same observers, which could lead to a bias in the results. In the Marine Protected Area (MPA) of Capo Carbonara (Sardinia, Italy), established in 1998, rocky reef communities were first assessed in 2000 by two diving scientists. Twenty years later, the same rocky reefs were resurveyed using the same method by two other diving scientists. In both surveys, semi-quantitative data on conspicuous species were collected at five sites in four depth zones, providing the possibility of assessing change over time. To explore the influence of climate and local pressures, existing data on sea surface temperature, resident population, tourism and diving activities were analysed. The reef communities of the Capo Carbonara MPA have distinctly changed over time, mostly under the effect of seawater warming, as highlighted by the occurrence of thermophilic species and by other climate-related indicators. On the other side, species vulnerable to local human pressures have increased over time, demonstrating the effectiveness of the protection measures undertaken by the MPA. Comparing data collected by four different observers in the two periods demonstrated that change over time was significantly greater than variability between the observers., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

31. Serpulid reefs and their role in aquatic ecosystems: A global review.

Author

Montefalcone M, Oprandi A, Azzola A, Morri C, and Bianchi CN

Subjects

Animals, Biomass, Calcium Carbonate chemistry, Carbonates, Coral Reefs, Water, Anthozoa, Ecosystem

Abstract

The Serpulidae are a large family of sedentary polychaetes, characterized by a calcareous habitation tube, which they cannot leave. The calcium carbonate tube is in the form of both aragonite and calcite, in fairly constant ratio for each taxon. Tubes are cemented firmly to any hard substrate (in only few species tubes are free). Although in the majority of the species the tubes encrust the substrate for all their length, the distal part may eventually detach and grow erectly. Certain species in dense populations build tubes vertical to the substrate in clumps and cement the tubes to each other. This gives serpulids the capability of forming reef-life structures when densely settling. Despite the relative smallness of the individual tubes (rarely longer than 15cm and wider than 1cm), such reef-like structures may cover tens of m 2 , with a layer more than 1m thick. Serpulid reefs can be divided roughly into seven groups, according to the building modality and the type of habitat they occupy: (i) pseudocolonies; (ii) littoral belts; (iii) subtidal to deep-water reefs; (iv) reefs in coastal lakes and harbours; (v) brackish water reefs; (vi) tapestries in freshwater caves; (vii) biostalactites inside marine caves. The role of serpulid reefs in the ecosystems they inhabit is multifarious and may be distinguished in functions (biomass and production, benthic pelagic coupling, resistance and resilience, reproductive and survivorship strategies, trophodynamics, bioconstruction, living space and refuge, nursery, sediment formation and retention, food for other species, carbonate deposition and storage) and services (water clearance, reef associated fishery, cultural benefits). On the other hand, many serpulids are important constituents of biological fouling, and their calcareous masses damage submerged artefacts, causing huge economic costs. Positive and negative roles of serpulid reefs need to be compared with common metrics; the overall balance, however, is still to be assessed., (Copyright © 2022 Elsevier Ltd All rights reserved.)

Published

2022

32. Benthic diversity patterns and predictors: A study case with inferences for conservation.

Author

Vassallo P, Paoli C, Aliani S, Cocito S, Morri C, and Bianchi CN

Subjects

Conservation of Natural Resources, Mediterranean Sea, Biodiversity, Ecosystem

Abstract

Understanding which drivers cause diversity patterns is a key issue in conservation. Here we applied a spatially explicit model to predict marine benthic diversity patterns according to environmental factors in the NW Mediterranean Sea. While most conservation-oriented diversity studies consider species richness only and neglect equitability, we measured separately species richness, equitability, and 'overall' diversity (i.e., the Shannon-Wiener H' function) on a dataset of 890 benthic species × 209 samples. Diversity values were predicted by means of Random Forest regression, on the basis of 10 factors: depth, distance from the coast, distance from the shelf break, latitude, sea-floor slope, sediment grain size, sediment sorting, distance from harbours and marinas, distance from rivers, and sampling gear. Predictions by Random Forests were accurate, the main predictors being latitude, sediment grain size, depth and distance from the coast. Based on predicted values, diversity hotspots were identified as those localities where indices were in the 15% top segment of ranked values. Only a minority of the diversity hotspots was included within the boundaries of the protection institutes established in the region. Marine protected areas are often created in sites harbouring important coastal habitats, which risks neglecting the diversity hidden in the sedimentary seafloor. We suggest that marine protected areas should accommodate portions of sedimentary habitat within their boundaries to improve diversity conservation., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

33. Eavesdropping on dolphins: Investigating the habits of bottlenose dolphins (Tursiops truncatus) through fixed acoustic stations.

Author

Alessi J, Mandich A, Wurtz M, Paoli C, Bianchi CN, Morri C, Povero P, Brunoldi M, Bozzini G, Casale A, Grosso D, Cappanera V, Fanciulli G, Melchiorre C, Viano G, Bei M, Stasi N, Taiuti MG, and Vassallo P

Subjects

Animals, Environmental Monitoring instrumentation, Regression Analysis, Seasons, Acoustics, Bottle-Nosed Dolphin, Ecosystem, Environmental Monitoring methods

Abstract

This study investigates the bottlenose dolphin (Tursiops truncatus, Montagu 1821) habitat use in the Portofino marine protected area (NW Italy) and adjacent waters, a core area for the dolphins and a highly touristic area in the Mediterranean Sea. A permanent automated real-time passive acoustic monitoring system, able to detect and track dolphins continuously, was tested in the area within the activities of the Life+ Nature project ARION. The habits of bottlenose dolphins was investigated considering the resident rate inside the area, which quantifies the amount of time dolphins spent in these waters, by means of random forest regression. The dependency of dolphin resident rate was analyzed in relation to four explanatory variables: sea surface temperature, season, time of day, and proximity to the coast. Dolphins spent more time in the area during spring and when sea surface temperature ranged between 15-16°C. Summer resulted the season with lower dolphin residency with significant difference between working day and weekend, in the last the lowest residency was recorded. Main findings provide important information to properly manage the area in order to protect bottlenose dolphins., Competing Interests: The commercial IT company Softeco Sismat S.r.l. is one of the three associated beneficiaries of the EU LIFE+ project named ARION (grant number: LIFE09 NAT/IT/000190 ARION). The authors Christian Melchiorre (ChM) and Gianni Viano (GV) are employed by the commercial IT company named Softeco Sismat S.r.l. that provided support in the form of salaries for these authors [ChM, GV]. The contribution of the authors employed by this commercial company (ChM, GV) mainly consists on the production of data analysis tools (automated detection alarm generation, creation of the detection database, etc.) and web platforms for data sharing (smartphone app, project web site, etc.). No restrictions are applied by this commercial company on any kind of product regarding this study. This commercial affiliation does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2019

34. Long-term change in bioconstruction potential of Maldivian coral reefs following extreme climate anomalies.

Author

Montefalcone M, Morri C, and Bianchi CN

Subjects

Animals, Carbonates, Hot Temperature, Anthozoa growth & development, Climate Change, Coral Reefs

Abstract

Global climate change has increased the frequency and intensity of extreme heat anomalies and consequent mass coral bleaching events. Long-term dynamics of hard coral cover, bioconstruction potential, carbonate deposition, and reef accretion was monitored over a 20-year period on Maldivian coral reefs in order to investigate the effects of high-temperature anomalies on coral reef accretion and their recovery potential. Changes experienced by shallow reefs between 1997 and 2017 were evaluated by considering five different bioconstructional guilds and the BioConstruction Potential index (BCP), a proxy for the constructional capacity of reefs. Abnormally high temperatures in 1998 and 2016 led to severe coral bleaching and consequent mortality, especially of the primary builders. Renewed carbonate deposition was not documented until 2-3 years after the bleaching, and 6-9 years passed until constratal (i.e., low relief) growth was achieved. Finally, 14-16 years were required to reach accretion rates high enough to ensure superstratal (i.e., high relief) growth. Coral mortality in the Maldives during the 2016 bleaching event was lower than in 1998, and the initial recovery was faster and occurred via a different trajectory than in 1998. Rising levels of anthropogenic carbon emissions are predicted to accelerate sea level rise and trigger severe coral bleaching events at least twice per decade, a frequency that will (a) prevent coral recovery, (b) nullify reef accretion, and consequently, (c) result in the drowning of Maldivian reefs under the worst climate projections., (© 2018 John Wiley & Sons Ltd.)

Published

2018

35. Thirty year ecosystem trajectories in a submerged marine cave under changing pressure regime.

Author

Montefalcone M, De Falco G, Nepote E, Canessa M, Bertolino M, Bavestrello G, Morri C, and Bianchi CN

Subjects

Ecosystem, Aquatic Organisms classification, Atmospheric Pressure, Biodiversity, Caves

Abstract

Marine caves are unique and vulnerable habitats exhibiting high biodiversity and heterogeneity, but threatened by multiple global and local disturbances. Marine caves, although widely distributed along the Mediterranean coast, suffer for the lack of quantitative data on their structure and function, which hinder their conservation status assessment. Thanks to the availability of a nearly 30-year-long series of data (1986-2013), we evaluated ecosystem change in the Bergeggi marine cave (Ligurian Sea, NW Mediterranean), a cave with a complex shape and high habitat heterogeneity. Non-taxonomic descriptors were adopted, namely growth forms (GF) and trophic guilds (TG), which are informative about ecosystem structure and functioning, respectively. The cave experienced a general trend of change during the last three decades, mainly due to the decline in the cover of sessile organisms (especially 3-dimensional forms) matched by an increase of turf and sediment, thus causing the structural and functional homogenization of the cave community. While change before 2004 had been attributed to climatic factors (especially to the summer heat waves of 1999 and 2003), the most important rate of change was observed between 2009 and 2013, coinciding with recent major beach nourishments and the extension of the neighbouring Vado Ligure harbour, thus providing evidences on the importance of local disturbances deriving from coastal interventions. Monitoring the status of cave ecosystems is urgently needed, and the use of effective indicators, such as the specific traits here adopted (morphology and feeding strategy), could provide effective tools to assist marine cave conservation., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

36. A predictive approach to benthic marine habitat mapping: Efficacy and management implications.

Author

Vassallo P, Bianchi CN, Paoli C, Holon F, Navone A, Bavestrello G, Cattaneo Vietti R, and Morri C

Subjects

Animals, Conservation of Natural Resources methods, Fuzzy Logic, Italy, Oceans and Seas, Ecology methods, Ecosystem, Models, Theoretical

Abstract

The availability of marine habitats maps remains limited due to difficulty and cost of working at sea. Reduced light penetration in the water hampers the use of optical imagery, and acoustic methods require extensive sea-truth activities. Predictive spatial modelling may offer an alternative to produce benthic habitat maps based on complete acoustic coverage of the seafloor together with a comparatively low number of sea truths. This approach was applied to the coralligenous reefs of the Marine Protected Area of Tavolara - Punta Coda Cavallo (NE Sardinia, Italy). Fuzzy clustering, applied to a set of observations made by scuba diving and used as sea truth, allowed recognising five coralligenous habitats, all but one existing within EUNIS (European Nature Information System) types. Variable importance plots showed that the distribution of habitats was driven by distance from coast, depth, and lithotype, and allowed mapping their distribution over the MPA. Congruence between observed and predicted distributions and accuracy of the classification was high. Results allowed calculating the occurrence of the distinct coralligenous habitats in zones with different protection level. The five habitats are unequally protected since the protection regime was established when detailed marine habitat maps were not available. A SWOT (Strengths-Weaknesses-Opportunities-Threats) analysis was performed to identify critical points and potentialities of the method. The method developed proved to be reliable and the results obtained will be useful when modulating on-going and future management actions in the studied area and in other Mediterranean MPAs to develop conservation efforts at basin scale., (Copyright © 2018. Published by Elsevier Ltd.)

Published

2018

37. Mediterranean Bioconstructions Along the Italian Coast.

Author

Ingrosso G, Abbiati M, Badalamenti F, Bavestrello G, Belmonte G, Cannas R, Benedetti-Cecchi L, Bertolino M, Bevilacqua S, Bianchi CN, Bo M, Boscari E, Cardone F, Cattaneo-Vietti R, Cau A, Cerrano C, Chemello R, Chimienti G, Congiu L, Corriero G, Costantini F, De Leo F, Donnarumma L, Falace A, Fraschetti S, Giangrande A, Gravina MF, Guarnieri G, Mastrototaro F, Milazzo M, Morri C, Musco L, Pezzolesi L, Piraino S, Prada F, Ponti M, Rindi F, Russo GF, Sandulli R, Villamor A, Zane L, and Boero F

Subjects

Animals, Conservation of Natural Resources, Italy, Mediterranean Sea, Biodiversity, Coral Reefs, Environmental Monitoring

Abstract

Marine bioconstructions are biodiversity-rich, three-dimensional biogenic structures, regulating key ecological functions of benthic ecosystems worldwide. Tropical coral reefs are outstanding for their beauty, diversity and complexity, but analogous types of bioconstructions are also present in temperate seas. The main bioconstructions in the Mediterranean Sea are represented by coralligenous formations, vermetid reefs, deep-sea cold-water corals, Lithophyllum byssoides trottoirs, coral banks formed by the shallow-water corals Cladocora caespitosa or Astroides calycularis, and sabellariid or serpulid worm reefs. Bioconstructions change the morphological and chemicophysical features of primary substrates and create new habitats for a large variety of organisms, playing pivotal roles in ecosystem functioning. In spite of their importance, Mediterranean bioconstructions have not received the same attention that tropical coral reefs have, and the knowledge of their biology, ecology and distribution is still fragmentary. All existing data about the spatial distribution of Italian bioconstructions have been collected, together with information about their growth patterns, dynamics and connectivity. The degradation of these habitats as a consequence of anthropogenic pressures (pollution, organic enrichment, fishery, coastal development, direct physical disturbance), climate change and the spread of invasive species was also investigated. The study of bioconstructions requires a holistic approach leading to a better understanding of their ecology and the application of more insightful management and conservation measures at basin scale, within ecologically coherent units based on connectivity: the cells of ecosystem functioning., (© 2018 Elsevier Ltd. All rights reserved.)

Published

2018

38. An integrated method to evaluate and monitor the conservation state of coralligenous habitats: The INDEX-COR approach.

Author

Sartoretto S, Schohn T, Bianchi CN, Morri C, Garrabou J, Ballesteros E, Ruitton S, Verlaque M, Daniel B, Charbonnel E, Blouet S, David R, Féral JP, and Gatti G

Subjects

Animals, Mediterranean Sea, Biodiversity, Coral Reefs, Ecosystem

Abstract

A new method based on photographic sampling coupled with in situ observations was applied to 53 stations along the French Mediterranean coast, to assess the integrity of coralligenous reefs affected by different levels of anthropogenic pressure. The conservation state of the assemblages characterizing these habitats was then assessed by an index - the INDEX-COR - that integrates three metrics: (i) the sensitivity of the taxa to organic matter and sediment deposition, (ii) the observable taxonomic richness, and (iii) the structural complexity of the assemblages. The sensitivity of INDEX-COR was tested and showed good correlation with the Level of Pressure calculated for each station according to expert judgment and field observations., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

39. An ecosystem-based approach to assess the status of Mediterranean algae-dominated shallow rocky reefs.

Author

Thibaut T, Blanfuné A, Boudouresque CF, Personnic S, Ruitton S, Ballesteros E, Bellan-Santini D, Bianchi CN, Bussotti S, Cebrian E, Cheminée A, Culioli JM, Derrien-Courtel S, Guidetti P, Harmelin-Vivien M, Hereu B, Morri C, Poggiale JC, and Verlaque M

Subjects

Biota, Mediterranean Sea, Models, Biological, Reproducibility of Results, Coral Reefs, Ecosystem, Environmental Monitoring, Seaweed

Abstract

A conceptual model was constructed for the functioning the algae-dominated rocky reef ecosystem of the Mediterranean Sea. The Ecosystem-Based Quality Index (reef-EBQI) is based upon this model. This index meets the objectives of the EU Marine Strategy Framework Directive. It is based upon (i) the weighting of each compartment, according to its importance in the functioning of the ecosystem; (ii) biological parameters assessing the state of each compartment; (iii) the aggregation of these parameters, assessing the quality of the ecosystem functioning, for each site; (iv) and a Confidence Index measuring the reliability of the index, for each site. The reef-EBQI was used at 40 sites in the northwestern Mediterranean. It constitutes an efficient tool, because it is based upon a wide set of functional compartments, rather than upon just a few species; it is easy and inexpensive to implement, robust and not redundant with regard to already existing indices., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

40. The two facets of species sensitivity: Stress and disturbance on coralligenous assemblages in space and time.

Author

Montefalcone M, Morri C, Bianchi CN, Bavestrello G, and Piazzi L

Subjects

Animals, Introduced Species, Invertebrates, Mediterranean Sea, Seaweed, Spatio-Temporal Analysis, Stress, Physiological, Anthozoa, Biota, Coral Reefs, Environmental Monitoring

Abstract

Marine coastal ecosystems are affected by a vast array of human-induced disturbances and stresses, which are often capable of overwhelming the effects of natural changes. Despite the conceptual and practical difficulty in differentiating between disturbance and stress, which are often used interchangeably, the two terms bear different ecological meanings. Both are external agents, but the former causes mortality or physical damage (subtraction of biomass), whereas the latter causes physiological alteration (reduction in productivity). Sensitivity of marine organisms may thus have a dual connotation, being influenced in different ways by disturbance and by stress following major environmental change. Coralligenous assemblages, which shape unique biogenic formations in the Mediterranean Sea, are considered highly sensitive to change. In this paper, we propose a method to differentiate between disturbance and stress to assess the ecological status of the coralligenous assemblages. Disturbance sensitivity level (DSL) and stress sensitivity level (SSL) of the sessile organisms thriving in the coralligenous assemblages were combined into the integrated sensitivity level of coralligenous assemblages (ISLA) index. Changes in the coralligenous status were assessed in space, along a gradient of stress (human-induced pressures) at several sites of the western Mediterranean, and in time, from a long-term series (1961-2008) at Mesco Reef (Ligurian Sea) that encompasses a mass mortality event in the 1990s. The quality of the coralligenous assemblages was lower in highly urbanised sites than that in sites in both marine protected areas and areas with low levels of urbanisation; moreover, the quality of the assemblages at Mesco Reef decreased during the last 50years. Reduction in quality was mainly due to the increase in stress-tolerant and/or opportunist species (e.g. algal turfs, hydroids and encrusting sponges), the disappearance of the most sensitive macroalgae (e.g. Udoteaceae and erect Rhodophyta) and macro-invertebrates (e.g. Savalia savaglia, Alcyonium coralloides and Smittina cervicornis), and the appearance of invasive alien algal species. Although the specific indices of SSL or DSL well illustrated the changes in the spatial or temporal datasets, respectively, their integration in the ISLA index was more effective in measuring the change experienced by the coralligenous assemblages in both space and time., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

41. Impact of a harbour construction on the benthic community of two shallow marine caves.

Author

Nepote E, Bianchi CN, Morri C, Ferrari M, and Montefalcone M

Subjects

Animals, Climate Change, Porifera, Risk Assessment, Water Pollution analysis, Water Pollution statistics & numerical data, Aquatic Organisms physiology, Caves, Construction Industry, Ecosystem, Environmental Monitoring

Abstract

Marine caves are unique and vulnerable habitats, threatened by multiple global and local disturbances. Whilst the effects of climate change on marine caves have already been investigated, no information exists about the effects of local human impacts, such as coastal development, on these habitats. This study investigated the impact of the construction of a touristic harbour on two shallow underwater marine caves in the Ligurian Sea (NW Mediterranean). As a standard methodology for monitoring marine caves does not exist yet, changes over time on the benthic community were assessed adopting two different non-taxonomic descriptors: trophic guilds and growth forms. Harbour construction caused an increase of sediment load within the caves, with a consequent decline of filter feeder organisms. Abundance of small organisms, such as encrusting and flattened sponges, was greatly reduced in comparison to organisms with larger and erect growth forms, such as domed mounds and pedunculated sponges. Our study indicated that growth forms and trophic guilds are effective descriptors for evaluating changes over time in marine caves, and could be easily standardised and applied in monitoring plans. In addition, as the harbour construction impacted differently according to the cave topography, the use of a systematic sampling in different zones of an underwater cave is recommended., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

42. Observational information on a temperate reef community helps understanding the marine climate and ecosystem shift of the 1980-90s.

Author

Gatti G, Bianchi CN, Montefalcone M, Venturini S, Diviacco G, and Morri C

Subjects

Animals, Biodiversity, Climate Change, Environment, Environmental Monitoring methods, Humans, Mediterranean Sea, Multivariate Analysis, Population Dynamics, Coral Reefs, Ecosystem

Abstract

The dearth of long-time series hampers the measurement of the ecosystem change that followed the global marine climate shift of the 1980-90s. The sessile communities of Portofino Promontory reefs (Ligurian Sea, NW Mediterranean) have been discontinuously studied since the 1950s. Collating information from various sources, three periods of investigations have been distinguished: 1) 1950-70s; 2) 1980-90s; 3) 2000-10s. A cooler phase in time 1 was followed by a rapid warming in time 2, to stabilize at about 0.5°C higher in time 3. Human pressure grew impressively, especially after the establishment of a MPA in 1999. Multivariate analyses evidenced a major change of community composition in time 2. Some species disappeared or got rarer, many found refuge at depth, and among the newcomers there were recently introduced alien species. This study demonstrated the importance of descriptive historical data to understand magnitude and pattern of change in the long term evolution of marine ecosystems., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

43. A Permanent Automated Real-Time Passive Acoustic Monitoring System for Bottlenose Dolphin Conservation in the Mediterranean Sea.

Author

Brunoldi M, Bozzini G, Casale A, Corvisiero P, Grosso D, Magnoli N, Alessi J, Bianchi CN, Mandich A, Morri C, Povero P, Wurtz M, Melchiorre C, Viano G, Cappanera V, Fanciulli G, Bei M, Stasi N, and Taiuti M

Subjects

Animals, Computer Systems, Conservation of Natural Resources methods, Mediterranean Sea, Ships, Sound Spectrography instrumentation, Sound Spectrography methods, Acoustics instrumentation, Bottle-Nosed Dolphin physiology, Vocalization, Animal physiology

Abstract

Within the framework of the EU Life+ project named LIFE09 NAT/IT/000190 ARION, a permanent automated real-time passive acoustic monitoring system for the improvement of the conservation status of the transient and resident population of bottlenose dolphin (Tursiops truncatus) has been implemented and installed in the Portofino Marine Protected Area (MPA), Ligurian Sea. The system is able to detect the simultaneous presence of dolphins and boats in the area and to give their position in real time. This information is used to prevent collisions by diffusing warning messages to all the categories involved (tourists, professional fishermen and so on). The system consists of two gps-synchronized acoustic units, based on a particular type of marine buoy (elastic beacon), deployed about 1 km off the Portofino headland. Each one is equipped with a four-hydrophone array and an onboard acquisition system which can record the typical social communication whistles emitted by the dolphins and the sound emitted by boat engines. Signals are pre-filtered, digitized and then broadcast to the ground station via wi-fi. The raw data are elaborated to get the direction of the acoustic target to each unit, and hence the position of dolphins and boats in real time by triangulation.

Published

2016

44. Through bleaching and tsunami: Coral reef recovery in the Maldives.

Author

Morri C, Montefalcone M, Lasagna R, Gatti G, Rovere A, Parravicini V, Baldelli G, Colantoni P, and Bianchi CN

Subjects

Animals, Indian Ocean Islands, Mortality, Time Factors, Anthozoa, Coral Reefs, Ecosystem, Tsunamis

Abstract

Coral reefs are degrading worldwide, but little information exists on their previous conditions for most regions of the world. Since 1989, we have been studying the Maldives, collecting data before, during and after the bleaching and mass mortality event of 1998. As early as 1999, many newly settled colonies were recorded. Recruits shifted from a dominance of massive and encrusting corals in the early stages of recolonisation towards a dominance of Acropora and Pocillopora by 2009. Coral cover, which dropped to less than 10% after the bleaching, returned to pre-bleaching values of around 50% by 2013. The 2004 tsunami had comparatively little effect. In 2014, the coral community was similar to that existing before the bleaching. According to descriptors and metrics adopted, recovery of Maldivian coral reefs took between 6 and 15years, or may even be considered unachieved, as there are species that had not come back yet., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

45. Ecological change, sliding baselines and the importance of historical data: lessons from Combining [corrected] observational and quantitative data on a temperate reef over 70 years.

Author

Gatti G, Bianchi CN, Parravicini V, Rovere A, Peirano A, Montefalcone M, Massa F, and Morri C

Subjects

Biodiversity, Climate Change, Conservation of Natural Resources, Environment, Mediterranean Sea, Coral Reefs, Ecosystem

Abstract

Understanding the effects of environmental change on ecosystems requires the identification of baselines that may act as reference conditions. However, the continuous change of these references challenges our ability to define the true natural status of ecosystems. The so-called sliding baseline syndrome can be overcome through the analysis of quantitative time series, which are, however, extremely rare. Here we show how combining historical quantitative data with descriptive 'naturalistic' information arranged in a chronological chain allows highlighting long-term trends and can be used to inform present conservation schemes. We analysed the long-term change of a coralligenous reef, a marine habitat endemic to the Mediterranean Sea. The coralligenous assemblages of Mesco Reef (Ligurian Sea, NW Mediterranean) have been studied, although discontinuously, since 1937 thus making available both detailed descriptive information and scanty quantitative data: while the former was useful to understand the natural history of the ecosystem, the analysis of the latter was of paramount importance to provide a formal measure of change over time. Epibenthic assemblages remained comparatively stable until the 1990s, when species replacement, invasion by alien algae, and biotic homogenisation occurred within few years, leading to a new and completely different ecosystem state. The shift experienced by the coralligenous assemblages of Mesco Reef was probably induced by a combination of seawater warming and local human pressures, the latter mainly resulting in increased water turbidity; in turn, cumulative stress may have favoured the establishment of alien species. This study showed that the combined analysis of quantitative and descriptive historical data represent a precious knowledge to understand ecosystem trends over time and provide help to identify baselines for ecological management.

Published

2015