Your search keyword '"Federico Marrone"' showing total 6 results

1. Correction: Vecchioni et al. Multi-Locus Phylogenetic Analyses of the Almadablennius Clade Reveals Inconsistencies with the Present Taxonomy of Blenniid Fishes. Diversity 2022, 14, 53

Author

Luca Vecchioni, Andrew C. Ching, Federico Marrone, Marco Arculeo, Peter J. Hundt, and Andrew M. Simons

Subjects

n/a, Biology (General), QH301-705.5

Abstract

In the published publication [...]

Published

2024

2. Current Status of and Threats to Sicilian Turtles

Author

Luca Vecchioni, Marco Arculeo, Melita Vamberger, and Federico Marrone

Subjects

Caretta caretta, Emys trinacris, Testudo hermanni, Trachemys scripta, Sicily, biological invasions, Biology (General), QH301-705.5

Abstract

Based on the critical review of the literature published in the last 22 years, an attempt was made to evaluate the current knowledge gap on the distribution and status of the native Testudines taxa occurring in Sicily (namely Caretta caretta, Emys trinacris, and Testudo hermanni hermanni), as well as the available knowledge of the only non-native species with putative viable populations occurring on the island, i.e., Trachemys scripta. Summarizing the current information, all of the Testudines species occurring in Sicily showed a fragmented and incompletely-known distribution, and only scarce data are available about their phenology. Moreover, despite their inclusion of international and national laws (Bern Convention, CITES, Habitat directive), all three native species are facing several threats (e.g., habitat alteration, the occurrence of invasive species, parasite spillover) leading to a reduction of their populations on the island. Future monitoring programs on the island should be enhanced, with an emphasis on those taxa in decline. Moreover, involve Citizen Science programs should also be implemented in order to increase the awareness of non-experts and facilitate the monitoring task.

Published

2022

3. Diversity and Distribution of the Inland Water Decapods of Sicily (Crustacea, Malacostraca)

Author

Luca Vecchioni, Francesco Paolo Faraone, Fabio Stoch, Marco Arculeo, and Federico Marrone

Subjects

alien species, Decapoda, Malacostraca, Mediterranean island, Biology (General), QH301-705.5

Abstract

The current knowledge of Sicilian inland water decapod malacostracans is scarce and an updated synopsis on species distribution is lacking. Therefore, we reviewed the checklist and recent distribution of Sicilian inland water decapods based on published and unpublished records and novel observations with the aim of providing an exhaustive repository, also to be used as a sound baseline for future surveys. Overall, five native decapod species occur in the study area, i.e., the atyid shrimp Atyaephyra desmarestii, the palaemonid shrimps Palaemon adspersus, P. antennarius, and P. elegans, and the freshwater crab Potamon fluviatile, and their current local distributions are described. In addition, three alien species were recorded: the common yabby Cherax destructor and the red swamp crayfish Procambarus clarkii, strictly linked to inland waters, and the Atlantic blue crab Callinectes sapidus, a mainly marine species that can also colonise the lower stretches of rivers and coastal brackish waters. The collected data suggest the existence of a partial segregation of native versus non-native species, with the latter currently confined to coastal water bodies and the lower stretches of rivers. Moreover, the exclusively freshwater caridean A. desmarestii and P. antennarius show a parapatric distribution in the study area, which may suggest the existence of mutual exclusion phenomena. The results obtained raise some concerns about the effects of alien species on the native biota, and dedicated monitoring and management strategies should be implemented in order to better understand and mitigate their impact.

Published

2022

4. Multi-Locus Phylogenetic Analyses of the Almadablennius Clade Reveals Inconsistencies with the Present Taxonomy of Blenniid Fishes

Author

Luca Vecchioni, Andrew C. Ching, Federico Marrone, Marco Arculeo, Peter J. Hundt, and Andrew M. Simons

Subjects

Blenniidae, phylogeny, Parablennius, Salaria, Biology (General), QH301-705.5

Abstract

We used a multi-locus phylogenetic approach (i.e., combining both mitochondrial and nuclear DNA fragments) to address some long-standing taxonomic inconsistencies within the diverse fish clade of Combtooth Blennies (Blenniidae—unranked clade Almadablennius). The obtained phylogenetic trees revealed some major inconsistencies in the current taxonomy of Parablennini, such as the paraphyletic status of the Salaria and Parablennius genera, casting some doubt regarding their actual phylogenetic relationship. Furthermore, a scarce-to-absent genetic differentiation was observed among the three species belonging to the genus Chasmodes. This study provides an updated taxonomy and phylogeny of the former genus Salaria, ascribing some species to the new genus Salariopsis gen. nov., and emphasizes the need for a revision of the genus Parablennius.

Published

2022

5. Stand out from the Crowd: Small-Scale Genetic Structuring in the Endemic Sicilian Pond Turtle

Author

Luca Vecchioni, Federico Marrone, Marco Arculeo, Uwe Fritz, and Melita Vamberger

Subjects

Emydidae, Emys trinacris, microsatellites, genetic structuring, Sicily, Biology (General), QH301-705.5

Abstract

The geographical pattern of genetic diversity was investigated in the endemic Sicilian pond turtle Emys trinacris across its entire distribution range, using 16 microsatellite loci. Overall, 245 specimens of E. trinacris were studied, showing high polymorphic microsatellite loci, with allele numbers ranging from 7 to 30. STRUCTURE and GENELAND analyses showed a noteworthy, geographically based structuring of the studied populations in five well-characterized clusters, supported by a moderate degree of genetic diversity (FST values between 0.075 and 0.160). Possible explanations for the genetic fragmentation observed are provided, where both natural and human-mediated habitat fragmentation of the Sicilian wetlands played a major role in this process. Finally, some conservation and management suggestions aimed at preventing the loss of genetic variability of the species are briefly reported, stressing the importance of considering the five detected clusters as independent Management Units.

Published

2020

6. Stand out from the Crowd: Small-Scale Genetic Structuring in the Endemic Sicilian Pond Turtle

Author

Marco Arculeo, Luca Vecchioni, Federico Marrone, Melita Vamberger, Uwe Fritz, Vecchioni L., Marrone F., Arculeo M., Fritz U., and Vamberger M.

Subjects

0106 biological sciences, Range (biology), Settore BIO/05 - Zoologia, Emydidae, 010603 evolutionary biology, 01 natural sciences, microsatellites, law.invention, 03 medical and health sciences, genetic structuring, law, Genetic variability, Turtle (robot), lcsh:QH301-705.5, Sicily, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Genetic diversity, Habitat fragmentation, Ecology, biology, Ecological Modeling, Emys trinacris, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), lcsh:Biology (General), Microsatellite

Abstract

The geographical pattern of genetic diversity was investigated in the endemic Sicilian pond turtle Emys trinacris across its entire distribution range, using 16 microsatellite loci. Overall, 245 specimens of E. trinacris were studied, showing high polymorphic microsatellite loci, with allele numbers ranging from 7 to 30. STRUCTURE and GENELAND analyses showed a noteworthy, geographically based structuring of the studied populations in five well-characterized clusters, supported by a moderate degree of genetic diversity (FST values between 0.075 and 0.160). Possible explanations for the genetic fragmentation observed are provided, where both natural and human-mediated habitat fragmentation of the Sicilian wetlands played a major role in this process. Finally, some conservation and management suggestions aimed at preventing the loss of genetic variability of the species are briefly reported, stressing the importance of considering the five detected clusters as independent Management Units.

Published

2020