29 results on '"STEFANNI, SERGIO"'
Search Results
2. The role of the Strait of Gibraltar in shaping the genetic structure of the Mediterranean Grenadier, Coryphaenoides mediterraneus, between the Atlantic and Mediterranean Sea.
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Catarino, Diana, Stefanni, Sergio, Jorde, Per Erik, Menezes, Gui M., Company, Joan B., Neat, Francis, and Knutsen, Halvor
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CORYPHAENOIDES , *POPULATION genetics , *PLEISTOCENE Epoch , *BIOLOGICAL evolution - Abstract
Population genetic studies of species inhabiting the deepest parts of the oceans are still scarce and only until recently we started to understand how oceanographic processes and topography affect dispersal and gene flow patterns. The aim of this study was to investigate the spatial population genetic structure of the bathyal bony fish Coryphaenoides mediterraneus, with a focus on the Atlantic–Mediterranean transition. We used nine nuclear microsatellites and the mitochondrial cytochrome c oxidase I gene from 6 different sampling areas. No population genetic structure was found within Mediterranean with both marker types (mean ΦST = 0.0960, FST = -0.0003, for both P > 0.05). However, within the Atlantic a contrasting pattern of genetic structure was found for the mtDNA and nuclear markers (mean ΦST = 0.2479, P < 0.001; FST = -0.0001, P > 0.05). When comparing samples from Atlantic and Mediterranean they exhibited high and significant levels of genetic divergence (mean ΦST = 0.7171, FST = 0.0245, for both P < 0.001) regardless the genetic marker used. Furthermore, no shared haplotypes were found between Atlantic and Mediterranean populations. These results suggest very limited genetic exchange between Atlantic and Mediterranean populations of C. mediterraneus, likely due to the shallow bathymetry of the Strait of Gibraltar acting as a barrier to gene flow. This physical barrier not only prevents the direct interactions between the deep-living adults, but also must prevent interchange of pelagic early life stages between the two basins. According to Bayesian simulations it is likely that Atlantic and Mediterranean populations of C. mediterraneus were separated during the late Pleistocene, which is congruent with results for other deep-sea fish from the same region. [ABSTRACT FROM AUTHOR]
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- 2017
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3. Transcriptome of the Deep-Sea Black Scabbardfish, Aphanopus carbo (Perciformes: Trichiuridae): Tissue-Specific Expression Patterns and Candidate Genes Associated to Depth Adaptation.
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Stefanni, Sergio, Bettencourt, Raul, Pinheiro, Miguel, De Moro, Gianluca, Bongiorni, Lucia, and Pallavicini, Alberto
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FISH adaptation , *GENE expression in fishes , *GENETIC transcription , *FISH physiology , *AMINO acid sequence , *DEEP-sea fishes - Abstract
Deep-sea fishes provide a unique opportunity to study the physiology and evolutionary adaptation to extreme environments. We carried out a high throughput sequencing analysis on a 454 GS-FLX titanium plate using unnormalized cDNA libraries from six tissues of A. carbo. Assemblage and annotationswere performed byNewbler and InterPro/Pfamanalyses, respectively. The assembly of 544,491 high quality reads provided 8,319 contigs, 55.6% of which retrieved blast hits against theNCBI nonredundant database or were annotated with ESTscan. Comparison of functional genes at both the protein sequences and protein stability levels, associated with adaptations to depth, revealed similarities between A. carbo and other bathypelagic fishes. A selection of putative genes was standardized to evaluate the correlation between number of contigs and their normalized expression, as determined by qPCR amplification. The screening of the libraries contributed to the identification of new EST simple-sequence repeats (SSRs) and to the design of primer pairs suitable for population genetic studies as well as for tagging and mapping of genes. The characterization of the deep-sea fish A. carbo first transcriptome is expected to provide abundant resources for genetic, evolutionary, and ecological studies of this species and the basis for further investigation of depth-related adaptation processes in fishes. [ABSTRACT FROM AUTHOR]
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- 2014
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4. Unexpected panmixia in a long-lived, deep-sea fish with well-defined spawning habitat and relatively low fecundity.
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White, Thomas A., Stefanni, Sergio, Stamford, Joanne, and Hoelzel, A. Rus
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ORANGE roughy , *LIFE history theory , *MICROSATELLITE repeats , *POPULATION genetics , *DEEP-sea fishes , *FISH habitats , *FISH fertility , *ANIMAL longevity , *FISH development - Abstract
The marine environment presents particular challenges for our understanding of the factors that determine gene flow and consequent population structure. For marine fish, various aspects of life history have been considered important in an environment with few physical barriers, but dominated by current patterns, often varying with depth. These factors include the abundance and longevity of larval stages, typically more susceptible to movement along current paths. It also includes adult body size, fecundity and longevity with ‘ r-selected’ species typically thought capable of greater gene flow and consequent panmixia. Here we investigate the population genetics of the orange roughy ( Hoplostethus atlanticus), a clearly ‘ K-selected’ species with habitat dependence on sea mounts for spawning, relatively large body size, a brief larval stage and relatively low fecundity. We used 14 polymorphic microsatellite loci to test the hypothesis that these characteristics will result in philopatry and genetic structure in the Atlantic Ocean. We discuss possible evolutionary mechanisms that could explain the results, which show the opposite pattern, with effective panmixia across thousands of kilometres in the North Atlantic. [ABSTRACT FROM AUTHOR]
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- 2009
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5. Phylogeography and demography of the Blenniid Parablennius parvicornis and its sister species P. sanguinolentus from the northeastern Atlantic Ocean and the western Mediterranean Sea
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Domingues, Vera S., Stefanni, Sergio, Brito, Alberto, Santos, Ricardo S., and Almada, Vitor C.
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- 2008
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6. Phylogeography and demographic history of the deep-sea fish Aphanopus carbo (Lowe, 1839) in the NE Atlantic: Vicariance followed by secondary contact or speciation?
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Stefanni, Sergio and Knutsen, Halvor
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PHYLOGEOGRAPHY , *SALTWATER fishing , *MITOCHONDRIAL DNA , *RECOMBINANT DNA - Abstract
Abstract: Comparative phylogeography for the commercially valuable deep-sea fish Aphanopus carbo from a large area of the NE Atlantic revealed remarkable patterns of concordance using two mtDNA markers. Two strongly supported phylogroups were identified from complete sequences of the control region (731–733bp) and partial sequences of cytochrome b (414bp) In one of these groups, all sequences from the Mid-Atlantic Ridge (Faraday seamount), mainland Portugal and Madeira were clustered together. The other group constituted all the sequences from the southern coast of Pico island (Azores, central group). The remaining sampling localities had sequences represented in both phylogroups. Although the two clades were strongly differentiated (Φ ST =0.8281 for the CR and Φ ST =0.9083 for the cytb) no evidence for any geographical pattern in this structure, was found. Historical demography of the mitochondrial control region was analysed to clarify the phylogenetic signals embedded in each phylogroup. Mismatch distributions for both clades suggested that both phylogroups were in agreement with sudden expansion models, and both with similar time estimates of expansion (τ =4.30 and τ =3.45 for phylogroup one and two, respectively). A molecular clock based on cytb sequences was enforced and dating of divergence for the two phylogroup was 412.5KY, a time that coincides with geological events that might have caused a split in the original population of black scabbardfish. Once climatic conditions and sea level were restored, the two separate populations came into contact again, leaving traces of the historical events in the non-recombinant mtDNA genes. An alternative hypothesis suggested is that two species of scabbardfish are present. The outcome from the comparison of the same mtDNA regions of the closely related Aphanopus intermedius from Angola clustered with the ones from phylogroup two (from the southern coast of Pico island, Azores). Therefore, these two species may have overlapping distribution ranges and are found sympatrically in the Azores. [Copyright &y& Elsevier]
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- 2007
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7. Phylogeny of the shanny, Lipophrys pholis, from the NE Atlantic using mitochondrial DNA markers
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Stefanni, Sergio, Domingues, Vera, Bouton, Niels, Santos, Ricardo Serrão, Almada, Frederico, and Almada, Vitor
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- 2006
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8. Mitochondrial DNA phylogeography reveals the existence of an Evolutionarily Significant Unit of the sand goby Pomatoschistus minutus in the Adriatic (Eastern Mediterranean)
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Stefanni, Sergio and Thorley, Joseph L.
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PHYLOGEOGRAPHY , *FISH genetics , *PENINSULAS - Abstract
The sand goby Pomatoschistus minutus is a major component of marine shelf and estuarine food webs and an important study organism in behavioural research. Yet, despite the sand goby’s significance, its past and present patterns of migration and gene flow are poorly understood. Here we use the mtDNA control region and parts of the flanking tRNA genes of 63 fish from six localities in the Adriatic (Eastern Mediterranean), Western Mediterranean, Atlantic, and North Sea to investigate the phylogeography of this gobiid. Phylogenetic analyses and population genetics statistics reveal the existence of an Evolutionarily Significant Unit, sensu Moritz (1994), in the Adriatic and another in the Western Mediterranean, Atlantic, and North Sea. A possible biogeographical scenario for the separation of the ancestral population is that sand gobies in the Adriatic and Western Mediterranean split between 10,000 and 5000 years ago when due to the rise in sea temperature they migrated northwards and were bisected by the Italian peninsula. A testable prediction of this scenario is that sand gobies from the Western Mediterranean, Adriatic, and Aegean form three reciprocally monophyletic groups which are the descendants of a three-way diversification event. [Copyright &y& Elsevier]
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- 2003
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9. Resistance to freezing conditions of endemic Antarctic polychaetes is enhanced by cryoprotective proteins produced by their microbiome.
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Buschi, Emanuela, Dell'Anno, Antonio, Tangherlini, Michael, Candela, Marco, Rampelli, Simone, Turroni, Silvia, Palladino, Giorgia, Esposito, Erika, Lo Martire, Marco, Luigi Musco, Stefanni, Sergio, Munari, Cristina, Fiori, Jessica, Danovaro, Roberto, and Corinaldesi, Cinzia
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POLYCHAETA , *BACTERIAL proteins , *ENDEMIC species , *PAN-genome , *FREEZING , *TUNDRAS , *PROTEINS - Abstract
The microbiome plays a key role in the health of all metazoans. Whether and how the microbiome favors the ad-aptation processes of organisms to extreme conditions, such as those of Antarctica, which are incompatible with most metazoans, is still unknown. We investigated the microbiome of three endemic and widespread species of Antarctic polychaetes: Leitoscoloplos geminus, Aphelochaeta palmeri, and Aglaophamus trissophyllus. We report here that these invertebrates contain a stable bacterial core dominated by Meiothermus and Anoxybacillus, equipped with a versatile genetic makeup and a unique portfolio of proteins useful for coping with extremely cold conditions as revealed by pangenomic and metaproteomic analyses. The close phylosymbiosis between Meiothermus and Anoxybacillus and these Antarctic polychaetes indicates a connection with their hosts that started in the past to support holobiont adaptation to the Antarctic Ocean. The wide suite of bacterial cryoprotective proteins found in Antarctic polychaetes may be useful for the development of nature-based biotechnological applications. [ABSTRACT FROM AUTHOR]
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- 2024
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10. Marine Science Can Contribute to the Search for Extra-Terrestrial Life.
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Aguzzi, Jacopo, Cuadros, Javier, Dartnell, Lewis, Costa, Corrado, Violino, Simona, Canfora, Loredana, Danovaro, Roberto, Robinson, Nathan Jack, Giovannelli, Donato, Flögel, Sascha, Stefanni, Sergio, Chatzievangelou, Damianos, Marini, Simone, Picardi, Giacomo, and Foing, Bernard
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EXTRATERRESTRIAL life , *MARINE sciences , *SOLAR system , *MARTIAN atmosphere , *ASTROBIOLOGY , *LIFE on Mars , *OCEAN - Abstract
Life on our planet likely evolved in the ocean, and thus exo-oceans are key habitats to search for extraterrestrial life. We conducted a data-driven bibliographic survey on the astrobiology literature to identify emerging research trends with marine science for future synergies in the exploration for extraterrestrial life in exo-oceans. Based on search queries, we identified 2592 published items since 1963. The current literature falls into three major groups of terms focusing on (1) the search for life on Mars, (2) astrobiology within our Solar System with reference to icy moons and their exo-oceans, and (3) astronomical and biological parameters for planetary habitability. We also identified that the most prominent research keywords form three key-groups focusing on (1) using terrestrial environments as proxies for Martian environments, centred on extremophiles and biosignatures, (2) habitable zones outside of "Goldilocks" orbital ranges, centred on ice planets, and (3) the atmosphere, magnetic field, and geology in relation to planets' habitable conditions, centred on water-based oceans. [ABSTRACT FROM AUTHOR]
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- 2024
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11. Rapid polymerase chain reaction–restriction fragment length polymorphism method for discrimination of the two Atlantic cryptic deep-sea species of scabbardfish.
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STEFANNI, SERGIO, BETTENCOURT, RAUL, KNUTSEN, HALVOR, and MENEZES, GUI
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TRICHIURIDAE , *POLYMERASE chain reaction , *GENETIC polymorphisms , *FISH industry ,FISH speciation - Abstract
The present investigation provides an efficient diagnostic method based on polymerase chain reaction–restriction fragment length polymorphism (PCR–RFLP) analysis to discriminate between two cryptic species of scabbardfish, Aphanopus carbo and A. intermedius, with commercial relevance in several European fish markets. Two DNA fragments from the mtDNA, including control region and partial cytochrome oxidase subunit I genes of about 1100 bp and 700 bp, respectively, were isolated by PCR amplification. Digestion of the amplicon including the control region with HaeII and the amplicon including the COI gene with Sau3AI restriction enzymes allowed an unequivocal discrimination between the two scabbardfish species. This PCR–RFLP method allowed a clear and rapid discrimination of the trichiurid species studied. [ABSTRACT FROM AUTHOR]
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- 2009
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12. Multi-marker metabarcoding approach to study mesozooplankton at basin scale.
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Stefanni, Sergio, Stanković, David, Borme, Diego, de Olazabal, Alessandra, Juretić, Tea, Pallavicini, Alberto, and Tirelli, Valentina
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Zooplankton plays a pivotal role in marine ecosystems and the characterisation of its biodiversity still represents a challenge for marine ecologists. In this study, mesozooplankton composition from 46 samples collected in summer along the western Adriatic Sea, was retrieved by DNA metabarcoding analysis. For the first time, the highly variable fragments of the mtDNA COI and the V9 region of 18S rRNA genes were used in a combined matrix to compile an inventory of mesozooplankton at basin scale. The number of sequences retrieved after quality filtering were 824,148 and 223,273 for COI and 18S (V9), respectively. The taxonomical assignment against reference sequences, using 95% (for COI) and 97% (for 18S) similarity thresholds, recovered 234 taxa. NMDS plots and cluster analysis divided coastal from offshore samples and the most representative species of these clusters were distributed according to the dominant surface current pattern of the Adriatic for the summer period. For selected sampling sites, mesozooplankton species were also identified under a stereo microscope providing insights on the strength and weakness of the two approaches. In addition, DNA metabarcoding was shown to be helpful for the monitoring of non-indigenous marine metazoans and spawning areas of commercial fish species. We defined pros and cons of applying this approach at basin scale and the benefits of combining the datasets from two genetic markers. [ABSTRACT FROM AUTHOR]
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- 2018
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13. Book review.
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Stefanni, Sergio
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- 2002
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14. Environmental DNA enhances comprehension of the spatial and temporal dynamics of fish diversity in a coastal lagoon.
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Banchi, Elisa, Bettoso, Nicola, Borme, Diego, Stefanni, Sergio, and Tirelli, Valentina
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FISH diversity , *LAGOONS , *EUROPEAN flounder , *SPARUS aurata , *SPECIES diversity - Abstract
Transitional environments have great ecological value and high productivity, and many species can benefit from their sheltered conditions and food resources. In this study, we performed for the first time a fish-targeted eDNA metabarcoding of the 12S rRNA gene at 16 sites broadly covering the different water bodies of the Marano and Grado Lagoon (northern Adriatic Sea) in two seasons. The eDNA was collected at the same time as the beach seine net, allowing a direct comparison of the two approaches. With eDNA we detected 34 species, covering all the functional guilds occurring in the lagoon. Species of regional interest, that uses the area as a nursery and feeding ground, and diadromous species, highlighting the ecological connectivity between freshwater and marine habitats, were found. While some species were constantly present (e.g. Atherina boyeri, Sparus aurata), others (Squalius cephalus, Platichthys flesus) were influenced by salinity (higher in Grado and lower in Marano), which was confirmed as the main ecological driver in this environment. The comparison with traditional methods, which identified 18 species (11 of which were detected with both approaches), showed that eDNA is very sensitive in detecting most of the biodiversity in the lagoon with a limited sampling effort. Few relevant species (Chelon saliens , Knipowitschia panizzae) lacked reference sequences, which need to be implemented in the databases. Our study represents a significant advance in the understanding of lagoon fish biodiversity and ecological dynamics and contributes to the improvement of management strategies in these ecologically sensitive habitats. • eDNA detected a great richness of fish species, across different functional groups • The molecular approach (eDNA) was more sensitive than the traditional one (seine net) • Reference databases still lack sequences of relevant lagoon fish species [ABSTRACT FROM AUTHOR]
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- 2024
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15. Genetic divergence in the Atlantic–Mediterranean Montagu's blenny, Coryphoblennius galerita (Linnaeus 1758) revealed by molecular and morphological characters.
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DOMINGUES, VERA S., FARIA, CLÁUDIA, STEFANNI, SERGIO, SANTOS, RICARDO S., BRITO, ALBERTO, and ALMADA, VITOR C.
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FISHES , *MITOCHONDRIAL DNA , *ANIMAL genetics , *ANIMAL morphology - Abstract
Coryphoblennius galerita is a small intertidal fish with a wide distribution and limited dispersal ability, occurring in the northeastern Atlantic and Mediterranean. In this study, we examined Atlantic and Mediterranean populations of C. galerita to assess levels of genetic divergence across populations and to elucidate historical and contemporary factors underlying the distribution of the genetic variability. We analyse three mitochondrial and one nuclear marker and 18 morphological measurements. The combined dataset clearly supports the existence of two groups of C. galerita: one in the Mediterranean and another in the northeastern Atlantic. The latter group is subdivided in two subgroups: Azores and the remaining northeastern Atlantic locations. Divergence between the Atlantic and the Mediterranean can be the result of historical isolation between the populations of the two basins during the Pleistocene glaciations. Present-day barriers such as the Gibraltar Strait or the ‘Almeria-Oran jet’ are also suggested as responsible for this isolation. Our results show no signs of local extinctions during the Pleistocene glaciations, namely at the Azores, and contrast with the biogeographical pattern that has been observed for Atlantic–Mediterranean warm-water species, in which two groups of populations exist, one including the Mediterranean and the Atlantic coast of western Europe, and another encompassing the western tropical coast of Africa and the Atlantic islands of the Azores, Madeira and Canaries. Species like C. galerita that tolerate cooler waters, may have persisted during the Pleistocene glaciations in moderately affected locations, thus being able to accumulate genetic differences in the more isolated locations such as the Azores and the Mediterranean. This study is one of the first to combine morphological and molecular markers (mitochondrial and nuclear) with variable rates of molecular evolution to the study of the relationships of the Atlantic and Mediterranean populations of a cool-water species. [ABSTRACT FROM AUTHOR]
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- 2007
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16. Deep sea immunity: Unveiling immune constituents from the hydrothermal vent mussel Bathymodiolus azoricus
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Bettencourt, Raul, Roch, Philippe, Stefanni, Sergio, Rosa, Domitília, Colaço, Ana, and Serrão Santos, Ricardo
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HYDROTHERMAL vents , *MUSSELS , *NATURAL immunity , *DEEP-sea biology , *DEFENSE reaction (Physiology) , *HOMOLOGY (Biology) , *MARINE biology , *NF-kappa B , *HOMOLOGY theory , *BIVALVES - Abstract
Abstract: Marine molluscs are subjected to constant microbial threats in their natural habitats. As a result, they represent suitable models for the study of the molecular mechanisms that govern defense reactions in marine organisms. To understand humoral and cellular defense reactions in animals defying extreme physical and chemical conditions we set out to investigate the deep sea hydrothermal vent mussel Bathymodiolus azoricus found in abundance at the Mid-Atlantic Ridge. In the present study, hemocytes were stimulated with compounds of microbial origin and cellular morphological alterations as well as the production of superoxide assessed. Consequently, zymosan, glucan and peptidoglycan were considered as potent inducers of cellular reactions for inducing drastic cell morphology changes and high levels of superoxide production. Furthermore, we have presented for the first time in a deep sea hydrothermal vent animal, molecular evidence of the Rel-homology domain, a conserved motif present in all members of the Rel/nuclear-factor NF-κB family. Additionally we have demonstrated the occurrence of the antibacterial gene mytilin in Bathymodiolus azoricus gill tissues. Our results support the premise of an evolutionary conserved innate immune system in Bathymodiolus. Such system is seemingly homologous to that of Insects and other Bivalves and may involve the participation of NF-κB transcription factors and antibacterial genes. [Copyright &y& Elsevier]
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- 2007
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17. First record of the opal chimaera, Chimaera opalescens (Holocephali: Chimaeridae) and revision of the occurrence of the rabbitfish Chimaera monstrosa in the Azores waters.
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Catarino, Diana, Jakobsen, Kirsten, Jakobsen, Joachim, Giacomello, Eva, Menezes, Gui M., Diogo, Hugo, Canha, Ângela, Porteiro, Filipe M., Melo, Octávio, and Stefanni, Sergio
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CYTOCHROME oxidase , *OPALS , *VIDEO recording , *WATER , *REVISIONS - Abstract
The presence of the opal chimaera, Chimaera opalescens, is reported for the first time in the deep waters of the Azores, with the capture of four specimens by fishermen and the video recording of an additional five individuals. Species identification was supported by the 646 bp sequenced fragment of the mitochondrial gene cytochrome oxidase subunit I. Because C. opalescens is a recently recognised species that had been recurrently misidentified as rabbitfish, Chimaera monstrosa, the historical data of C. monstrosa in the Azores were reviewed to assess the possible presence of both Chimaera species in the region. Although several authors have reported the occurrence of C. monstrosa in the Azorean waters since the 1800s, the majority of these are based on only three specimens caught during the late 1800s. The investigation performed using literature and examination of the museum specimens still available concluded that the most likely scenario is that C. monstrosa is absent from the Azores and past records of that species in the region are most likely misidentifications of C. opalescens. [ABSTRACT FROM AUTHOR]
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- 2020
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18. Genetic homogeneity in the deep-sea grenadier Macrourus berglax across the North Atlantic Ocean.
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Coscia, Ilaria, Castilho, Rita, Massa-Gallucci, Alexia, Sacchi, Carlotta, Cunha, Regina L., Stefanni, Sergio, Helyar, Sarah J., Knutsen, Halvor, and Mariani, Stefano
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ROUGHHEAD grenadier , *DEEP-sea fishes , *DEEP-sea ecology , *MITOCHONDRIAL DNA , *GENE flow , *FISHES - Abstract
Paucity of data on population structure and connectivity in deep sea species remains a major obstacle to their sustainable management and conservation in the face of ever increasing fisheries pressure and other forms of impacts on deep sea ecosystems. The roughhead grenadier Macrourus berglax presents all the classical characteristics of a deep sea species, such as slow growth and low fecundity, which make them particularly vulnerable to anthropogenic impact, due to their low resilience to change. In this study, the population structure of the roughhead grenadier is investigated throughout its geographic distribution using two sets of molecular markers: a partial sequence of the Control Region of mitochondrial DNA and species-specific microsatellites. No evidence of significant structure was found throughout the North Atlantic, with both sets of molecular markers yielding the same results of overall homogeneity. We posit two non-mutually exclusive scenarios that can explain such outcome: i) substantial high gene flow among locations, possibly maintained by larval stages, ii) very large effective size of post-glacially expanded populations. The results can inform management strategies in this by-caught species, and contribute to the broader issue of biological connectivity in the deep ocean. [ABSTRACT FROM AUTHOR]
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- 2018
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19. Cold-water corals and large hydrozoans provide essential fish habitat for Lappanella fasciata and Benthocometes robustus.
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Gomes-Pereira, José Nuno, Carmo, Vanda, Catarino, Diana, Jakobsen, Joachim, Alvarez, Helena, Aguilar, Ricardo, Hart, Justin, Giacomello, Eva, Menezes, Gui, Stefanni, Sergio, Colaço, Ana, Morato, Telmo, Santos, Ricardo S., Tempera, Fernando, and Porteiro, Filipe
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DEEP-sea corals , *HYDROZOA , *FISH habitats , *FISH locomotion - Abstract
Many fish species are well-known obligatory inhabitants of shallow-water tropical coral reefs but such associations are difficult to study in deep-water environments. We address the association between two deep-sea fish with low mobility and large sessile invertebrates using a compilation of 20 years of unpublished in situ observations. Data were collected on Northeast Atlantic (NEA) island slopes and seamounts, from the Azores to the Canary Islands, comprising 127 new records of the circalittoral Labridae Lappanella fasciata and 15 of the upper bathyal Ophiididae Benthocometes robustus . Observations by divers, remote operated vehicles (ROV SP, Luso, Victor, Falcon Seaeye ), towed vehicles (Greenpeace) and manned submersibles ( LULA, Nautile ) validated the species association to cold water corals (CWC) and large hydrozoans. L. fasciata occurred from lower infralittoral (41 m) throughout the circalittoral, down to the upper bathyal at 398 m depth. Smaller fishes (< 10 cm) tend to form larger schools up to five individuals, with larger fishes (10–15 cm) occurring alone or in smaller groups at greater depths. The labrids favoured areas with large sessile invertebrates (> 10 cm) occurring at < 1 body-length, swimming inside or in close vicinity to the tallest and most complex three-dimensional structure in the field of observation. These included hydrozoans ( Polyplumaria flabellata , Nemertesia antennina ), CWC (e.g. Antipathella wollastoni , Acanthogorgia armata, Stichopathes sp.), and less frequently sponges (e.g. Pseudotrachya hystrix ). B. robustus presented a coral-cryptic behavior, being recorded in the bathyal zone between 350 and 734 m depth, always inside CWC (e.g. Acanthogorgia spp., Antipathella spp., Callogorgia verticillata , Dendrophyllia alternata, Leiopathes spp.), and remaining within the coral branching. B. robustus were collected with baited traps providing biological information and dietary information reinforcing the trophic linkage between the CWC habitat and this predator. Gathered evidence renders CWC and hydroid gardens as Essential Fish Habitats for both species, being therefore sensitive to environmental and anthropogenic impacts on these Vulnerable Marine Ecosystems. The Mediterranean distribution of L. fasciata is extended to NEA seamounts and island slopes and the amphi-Atlantic distribution of B. robustus is bridged with molecular data support. Both species are expected to occur throughout the Macaronesia and Mediterranean island slopes and shallow seamounts on habitats with large sessile invertebrates. [ABSTRACT FROM AUTHOR]
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- 2017
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20. Substitutions in the Glycogenin-1 Gene Are Associated with the Evolution of Endothermy in Sharks and Tunas.
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Ciezarek, Adam G., Dunning, Luke T., Jones, Catherine S., Noble, Leslie R., Humble, Emily, Stefanni, Sergio S., and Savolainen, Vincent
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PHENOTYPIC plasticity , *PHYLOGENY , *BIOLOGICAL evolution , *GENETIC distance , *BIOLOGICAL divergence , *FISHES - Abstract
Despite 400-450 million years of independent evolution, a strong phenotypic convergence has occurred between two groups of fish: tunas and lamnid sharks. This convergence is characterized by centralization of red muscle, a distinctive swimming style (stiffened body powered through tail movements) and elevated body temperature (endothermy). Furthermore, both groups demonstrate elevated white muscle metabolic capacities. All these traits are unusual in fish and more likely evolved to support their fast-swimming, pelagic, predatory behavior. Here, we tested the hypothesis that their convergent evolution was driven by selection on a set of metabolic genes. We sequenced white muscle transcriptomes of six tuna, one mackerel, and three shark species, and supplemented this data set with previously published RN A-seq data. Using 26 species in total (including 7,032 tuna genes plus 1,719 shark genes), we constructed phylogenetic trees and carried out maximum-likelihood analyses of gene selection. We inferred several genes relating to metabolism to be under selection. We also found that the same one gene, glycogenin-1, evolved under positive selection independently in tunas and lamnid sharks, providing evidence of convergent selective pressures at gene level possibly underlying shared physiology. [ABSTRACT FROM AUTHOR]
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- 2016
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21. The Pillars of Hercules as a bathymetric barrier to gene flow promoting isolation in a global deep-sea shark (Centroscymnus coelolepis).
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Catarino, Diana, Knutsen, Halvor, Veríssimo, Ana, Olsen, Esben Moland, Jorde, Per Erik, Menezes, Gui, Sannæs, Hanne, Stanković, David, Company, Joan Baptista, Neat, Francis, Danovaro, Roberto, Dell'Anno, Antonio, Rochowski, Bastien, and Stefanni, Sergio
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SHARKS , *BATHYMETRY , *GENE flow , *MICROSATELLITE repeats - Abstract
Knowledge of the mechanisms limiting connectivity and gene flow in deep-sea ecosystems is scarce, especially for deep-sea sharks. The Portuguese dogfish (Centroscymnus coelolepis) is a globally distributed and near threatened deep-sea shark. C. coelolepis population structure was studied using 11 nuclear microsatellite markers and a 497-bp fragment from the mtDNA control region. High levels of genetic homogeneity across the Atlantic (øST = -0.0091, FST = 0.0024, P > 0.05) were found suggesting one large population unit at this basin. The low levels of genetic divergence between Atlantic and Australia (øST = 0.0744, P < 0.01; FST = 0.0015, P > 0.05) further suggested that this species may be able to maintain some degree of genetic connectivity even across ocean basins. In contrast, sharks from the Mediterranean Sea exhibited marked genetic differentiation from all other localities studied (øST = 0.3808, FST = 0.1149, P < 0.001). This finding suggests that the shallow depth of the Strait of Gibraltar acts as a barrier to dispersal and that isolation and genetic drift may have had an important role shaping the Mediterranean shark population over time. Analyses of life history traits allowed the direct comparison among regions providing a complete characterization of this shark's populations. Sharks from the Mediterranean had markedly smaller adult body size and size at maturity compared to Atlantic and Pacific individuals. Together, these results suggest the existence of an isolated and unique population of C. coelolepis inhabiting the Mediterranean that most likely became separated from the Atlantic in the late Pleistocene. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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22. Ocean-scale connectivity and life cycle reconstruction in a deep-sea fish.
- Author
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Longmore, Craig, Trueman, Clive N., Neat, Francis, Jorde, Per Erik, Knutsen, Halvor, Stefanni, Sergio, Catarino, Diana, Milton, James A., Mariani, Stefano, and Gillanders, Bronwyn
- Subjects
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DEEP-sea fishes , *OTOLITHS , *MICROSATELLITE repeats ,FISH life cycles - Abstract
As human exploration and harvesting moves to the high seas, ecological understanding of the deep sea has become a priority, especially in those commercially exploited species whose life cycle, habitat use, and demographic structure remain poorly understood. Here we combine otolith trace element and stable isotope analyses with microsatellite data to investigate population structure and connectivity in the migratory deep-sea black scabbardfish ( Aphanopus carbo), sampled along a latitudinal gradient spanning much of the known species range in the Northeast Atlantic. In each sampled life stage, otolith trace element and oxygen isotope compositions are similar among fish from different capture locations, but otolith compositions vary greatly between life stages. Oxygen isotope compositions indicate ontogenetic migrations from relatively warm water conditions during larval growth to cooler waters with increasing age. Analysis of microsatellite DNA also suggests lack of genetic structure among the areas sampled. The multidisciplinary approach employed collectively suggests that A. carbo individuals undergo an ocean-scale ontogenetic migration, beginning with spawning in southern, warm-water Macaronesian areas (potentially dominated by Madeira), followed by a large proportion of immature fish moving to and feeding on the continental slope in northern areas. The results lend the first conclusive evidence for defining the life-history circuit of this species and the perception of its stock structure across the North Atlantic. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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23. Marine Robotics for Deep-Sea Specimen Collection: A Taxonomy of Underwater Manipulative Actions.
- Author
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Mazzeo, Angela, Aguzzi, Jacopo, Calisti, Marcello, Canese, Simonepietro, Angiolillo, Michela, Allcock, A. Louise, Vecchi, Fabrizio, Stefanni, Sergio, and Controzzi, Marco
- Subjects
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ROBOTICS , *TAXONOMY , *SURFACE interactions , *TASK forces , *ROBOT hands , *TECHNICAL textiles - Abstract
In order to develop a gripping system or control strategy that improves scientific sampling procedures, knowledge of the process and the consequent definition of requirements is fundamental. Nevertheless, factors influencing sampling procedures have not been extensively described, and selected strategies mostly depend on pilots' and researchers' experience. We interviewed 17 researchers and remotely operated vehicle (ROV) technical operators, through a formal questionnaire or in-person interviews, to collect evidence of sampling procedures based on their direct field experience. We methodologically analyzed sampling procedures to extract single basic actions (called atomic manipulations). Available equipment, environment and species-specific features strongly influenced the manipulative choices. We identified a list of functional and technical requirements for the development of novel end-effectors for marine sampling. Our results indicate that the unstructured and highly variable deep-sea environment requires a versatile system, capable of robust interactions with hard surfaces such as pushing or scraping, precise tuning of gripping force for tasks such as pulling delicate organisms away from hard and soft substrates, and rigid holding, as well as a mechanism for rapidly switching among external tools. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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24. Marine Robotics for Deep-Sea Specimen Collection: A Systematic Review of Underwater Grippers.
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Mazzeo, Angela, Aguzzi, Jacopo, Calisti, Marcello, Canese, Simonepietro, Vecchi, Fabrizio, Stefanni, Sergio, and Controzzi, Marco
- Subjects
- *
BIOLOGICAL specimens , *ROBOTICS , *ROBOT hands , *COLLECTIONS - Abstract
The collection of delicate deep-sea specimens of biological interest with remotely operated vehicle (ROV) industrial grippers and tools is a long and expensive procedure. Industrial grippers were originally designed for heavy manipulation tasks, while sampling specimens requires dexterity and precision. We describe the grippers and tools commonly used in underwater sampling for scientific purposes, systematically review the state of the art of research in underwater gripping technologies, and identify design trends. We discuss the possibility of executing typical manipulations of sampling procedures with commonly used grippers and research prototypes. Our results indicate that commonly used grippers ensure that the basic actions either of gripping or caging are possible, and their functionality is extended by holding proper tools. Moreover, the approach of the research status seems to have changed its focus in recent years: from the demonstration of the validity of a specific technology (actuation, transmission, sensing) for marine applications, to the solution of specific needs of underwater manipulation. Finally, we summarize the environmental and operational requirements that should be considered in the design of an underwater gripper. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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25. Ancient Divergence in the Trans-Oceanic Deep-Sea Shark Centroscymnus crepidater.
- Author
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Cunha, Regina L., Coscia, Ilaria, Madeira, Celine, Mariani, Stefano, Stefanni, Sergio, and Castilho, Rita
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- *
NUCLEAR proteins , *AMINO acids , *GENES , *AMINO acid sequence , *SORBITOL , *ASCOMYCETES , *BASIDIOMYCOTA - Abstract
Unravelling the genetic structure and phylogeographic patterns of deep-sea sharks is particularly challenging given the inherent difficulty in obtaining samples. The deep-sea shark Centroscymnus crepidater is a medium-sized benthopelagic species that exhibits a circumglobal distribution occurring both in the Atlantic and Indo-Pacific Oceans. Contrary to the wealth of phylogeographic studies focused on coastal sharks, the genetic structure of bathyal species remains largely unexplored. We used a fragment of the mitochondrial DNA control region, and microsatellite data, to examine genetic structure in C. crepidater collected from the Atlantic Ocean, Tasman Sea, and southern Pacific Ocean (Chatham Rise). Two deeply divergent (3.1%) mtDNA clades were recovered, with one clade including both Atlantic and Pacific specimens, and the other composed of Atlantic samples with a single specimen from the Pacific (Chatham Rise). Bayesian analyses estimated this splitting in the Miocene at about 15 million years ago. The ancestral C. crepidater lineage was probably widely distributed in the Atlantic and Indo-Pacific Oceans. The oceanic cooling observed during the Miocene due to an Antarctic glaciation and the Tethys closure caused changes in environmental conditions that presumably restricted gene flow between basins. Fluctuations in food resources in the Southern Ocean might have promoted the dispersal of C. crepidater throughout the northern Atlantic where habitat conditions were more suitable during the Miocene. The significant genetic structure revealed by microsatellite data suggests the existence of present-day barriers to gene flow between the Atlantic and Pacific populations most likely due to the influence of the Agulhas Current retroflection on prey movements. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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26. Bathymetric barriers promoting genetic structure in the deepwater demersal fish tusk ( Brosme brosme).
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KNUTSEN, HALVOR, JORDE, PER ERIK, SANNÆS, HANNE, HOELZEL, A. RUS, BERGSTAD, ODD AKSEL, STEFANNI, SERGIO, JOHANSEN, TORILD, and STENSETH, NILS CHR.
- Subjects
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MICROSATELLITE repeats , *DNA , *HABITATS , *BROSME brosme , *BIODIVERSITY , *OCEANOGRAPHY , *OCEAN currents - Abstract
Population structuring in the North Atlantic deepwater demersal fish tusk ( Brosme brosme) was studied with microsatellite DNA analyses. Screening eight samples from across the range of the species for seven loci revealed low but significant genetic heterogeneity ( FST = 0.0014). Spatial genetic variability was only weakly related to geographical (Euclidean) distance between study sites or separation of study sites along the path of major ocean currents. Instead, we found a significant effect of habitat, indicated by significant differentiation between relatively closely spaced sites: Rockall, which is surrounded by very deep water (>1000 m), and the Mid-Atlantic Ridge, which is separated from the European slope by a deep ocean basin, were differentiated from relatively homogeneous sites across the Nordic Seas. Limited adult migration across bathymetric barriers in combination with limited intersite exchange of pelagic eggs and larvae due to site-specific circulatory retention or poor survival during drift phases across deep basins may be reducing gene flow. We regard these limitations to gene flow as the most likely mechanisms for the observed population structure in this demersal species. The results underscore the importance of habitat boundaries in marine species. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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27. Don't catch me if you can – Using cabled observatories as multidisciplinary platforms for marine fish community monitoring: An in situ case study combining Underwater Video and environmental DNA data.
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Mirimin, Luca, Desmet, Sam, Romero, David López, Fernandez, Sara Fernandez, Miller, Dulaney L., Mynott, Sebastian, Brincau, Alejandro Gonzalez, Stefanni, Sergio, Berry, Alan, Gaughan, Paul, and Aguzzi, Jacopo
- Published
- 2021
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28. Research Trends and Future Perspectives in Marine Biomimicking Robotics.
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Aguzzi, Jacopo, Costa, Corrado, Calisti, Marcello, Funari, Valerio, Stefanni, Sergio, Danovaro, Roberto, Gomes, Helena I., Vecchi, Fabrizio, Dartnell, Lewis R., Weiss, Peter, Nowak, Kathrin, Chatzievangelou, Damianos, and Marini, Simone
- Subjects
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MICROBIAL fuel cells , *SOFT robotics , *ROBOTICS , *MECHATRONICS , *ENERGY consumption , *CLUSTER analysis (Statistics) - Abstract
Mechatronic and soft robotics are taking inspiration from the animal kingdom to create new high-performance robots. Here, we focused on marine biomimetic research and used innovative bibliographic statistics tools, to highlight established and emerging knowledge domains. A total of 6980 scientific publications retrieved from the Scopus database (1950–2020), evidencing a sharp research increase in 2003–2004. Clustering analysis of countries collaborations showed two major Asian-North America and European clusters. Three significant areas appeared: (i) energy provision, whose advancement mainly relies on microbial fuel cells, (ii) biomaterials for not yet fully operational soft-robotic solutions; and finally (iii), design and control, chiefly oriented to locomotor designs. In this scenario, marine biomimicking robotics still lacks solutions for the long-lasting energy provision, which presently hinders operation autonomy. In the research environment, identifying natural processes by which living organisms obtain energy is thus urgent to sustain energy-demanding tasks while, at the same time, the natural designs must increasingly inform to optimize energy consumption. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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29. Towards Naples Ecological REsearch for Augmented Observatories (NEREA): The NEREA-Fix Module, a Stand-Alone Platform for Long-Term Deep-Sea Ecosystem Monitoring †.
- Author
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Fanelli, Emanuela, Aguzzi, Jacopo, Marini, Simone, del Rio, Joaquin, Nogueras, Marc, Canese, Simonepietro, Stefanni, Sergio, Danovaro, Roberto, and Conversano, Fabio
- Subjects
- *
ENVIRONMENTAL monitoring , *OBSERVATORIES , *BODY size , *SMART structures - Abstract
Deep-sea ecological monitoring is increasingly recognized as indispensable for the comprehension of the largest biome on Earth, but at the same time it is subjected to growing human impacts for the exploitation of biotic and abiotic resources. Here, we present the Naples Ecological REsearch (NEREA) stand-alone observatory concept (NEREA-fix), an integrated observatory with a modular, adaptive structure, characterized by a multiparametric video-platform to be deployed in the Dohrn canyon (Gulf of Naples, Tyrrhenian Sea) at ca. 650 m depth. The observatory integrates a seabed platform with optoacoustic and oceanographic/geochemical sensors connected to a surface transmission buoy, plus a mooring line (also equipped with depth-staged environmental sensors). This reinforced high-frequency and long-lasting ecological monitoring will integrate the historical data conducted over 40 years for the Long-Term Ecological Research (LTER) at the station "Mare Chiara", and ongoing vessel-assisted plankton (and future environmental DNA-eDNA) sampling. NEREA aims at expanding the observational capacity in a key area of the Mediterranean Sea, representing a first step towards the establishment of a bentho-pelagic network to enforce an end-to-end transdisciplinary approach for the monitoring of marine ecosystems across a wide range of animal sizes (from bacteria to megafauna). [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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