Morphology of the megalopa of the mud crab, Rhithropanopeus harrisii (Gould, 1841) (Decapoda, Brachyura, Panopeidae), identified by DNA barcode.

The morphology of the megalopa stage of the panopeid Rhithropanopeus harrisii is redescribed and illustrated in detail from plankton specimens identified by DNA barcode (16S mtDNA) as previous descriptions do not meet the current standard of brachyuran larval description. Several morphological characters vary widely from those of other panopeid species which could cast some doubt on the species’ placement in the same family. Besides, some anomalous megalopae of R. harrisii were found among specimens reared at the laboratory from zoeae collected in the plankton. These anomalous morphological features are discussed in terms of problems associated with laboratory rearing conditions

Current status and trends of biological invasions in the Lagoon of Venice, a hotspot of marine NIS introductions in the Mediterranean Sea

This paper provides an updated account of the occurrence and abundance of non-indigenous species (NIS) in an area of high risk of introduction: the Lagoon of Venice (Italy). This site is a known hotspot of NIS introductions within the Mediterranean Sea, hosting all the most important vectors of introduction of marine NIS—shipping, recreational boating, shellfish culture and live seafood trade. The recent literature demonstrates that the number of NIS in Venice is continuously changing, because new species are being introduced or identified, and new evidence shows either an exotic origin of species previously believed to be native, or a native origin of formerly believed ‘‘aliens’’, or demonstrates the cryptogenic nature of others. The number of NIS introduced in the Venetian lagoon currently totals 71, out of which 55 are established. This number exceeds those displayed by some nations like Finland, Portugal or Libya. Macroalgae are the taxonomic group with the highest number of introduced species (41 % of NIS): the most likely vector for their introduction is shellfish culture. The source region of NIS introduced to Venice is mainly represented by other Mediterranean or European sites (76 %). The Lagoon of Venice represents a sink but also a source of NIS in the Mediterranean Sea, as it is the site of first record of several NIS, which have since further spread elsewhere.This paper provides an updated account of the occurrence and abundance of non-indigenous species (NIS) in an area of high risk of introduction: the Lagoon of Venice (Italy). This site is a known hotspot of NIS introductions within the Mediterranean Sea, hosting all the most important vectors of introduction of marine NIS-shipping, recreational boating, shellfish culture and live seafood trade. The recent literature demonstrates that the number of NIS in Venice is continuously changing, because new species are being introduced or identified, and new evidence shows either an exotic origin of species previously believed to be native, or a native origin of formerly believed "aliens", or demonstrates the cryptogenic nature of others. The number of NIS introduced in the Venetian lagoon currently totals 71, out of which 55 are established. This number exceeds those displayed by some nations like Finland, Portugal or Libya. Macroalgae are the taxonomic group with the highest number of introduced species (41 % of NIS): the most likely vector for their introduction is shellfish culture. The source region of NIS introduced to Venice is mainly represented by other Mediterranean or European sites (76 %). The Lagoon of Venice represents a sink but also a source of NIS in the Mediterranean Sea, as it is the site of first record of several NIS, which have since further spread elsewhere

Le collezioni museali naturalistiche come fondamentale risorsa nella ricerca scientifica: distribuzione spazio-temporale dei reperti di grandi vertebrati marini nei musei italiani

Il patrimonio culturale marino italiano ha per tradizione e storia un’imponente ricchezza di collezioni museali naturalistiche, con migliaia di reperti ossei e tassidermizzati di vertebrati marini, costruite in oltre due secoli di attività. I reperti museali rappresentano la conoscenza primaria ed unica della biodiversità organismica ed ecosistemica storica del Mediterraneo e costituiscono un ampio archivio di tessuti e dati scientifici potenzialmente sfruttabile grazie alle nuove tecnologie biomolecolari per comprendere pattern, processi e possibili cause della perdita di biodiversità, degrado degli ecosistemi e declino delle popolazioni. Con l’obiettivo di ricostruire le traiettorie evolutive ed ecologiche di specie e popolazioni di grandi predatori marini del Mediterraneo (cetacei ed elasmobranchi) abbiamo costituito un network di 25 collezioni osteologiche museali (universitarie e civiche) e private italiane, da cui abbiamo ottenuto oltre 500 campioni (fotografie geometriche e tessuti biologici di crani, rostri, mascelle, vertebre e denti) di individui storici di Delphinus delphis, Stenella coeruleoalba, Tursiops truncatus, Carcharodon carcharias, quattro specie di pesce sega dei generi Pristis e Anoxypristis, otto specie di cetacei mediterranei e la foca monaca (Monachus monachus). Il presente lavoro descrive i risultati, in termini di numero e di distribuzione, dei reperti di alcune specie di grandi predatori marini e mette in evidenza il valore storico, culturale e scientifico delle collezioni museali, in particolar modo per gruppi di organismi di particolare interesse conservazionistico

Aspetti naturalistici della laguna e la laguna come risorsa

Pubblicazione della Fondazione ENI Enrico Mattei - Progetto Venezia 2

Genetic characterization of over hundred years old Caretta caretta specimens from Italian and Maltese museums

Museum collections have proven to be a useful source of samples for the reconstruction of evolutionary history and phylogeography of many taxa. This study was aimed at assessing the success rate in a genetic analysis of historical material, in order to explore the feasibility and eventually begin the diachronic description of Caretta caretta stocks in Italian and Maltese coastal waters. The endangered status of the species and the difficulty to study it in the wild make its common occurrence in Italian museum collections a valuable resource. We used minimally invasive methods to collect biological material from specimens dating from the end of the 19th century to 2003, belonging to four museums. As a control for amplification success and absence of cross-contamination, four dinucleotide microsatellite loci of different average length (Cc7, Cc141, Cm72 and Cm84) were typed. All individuals with two or more successfully amplified microsatellites (36%) displayed distinct genotypes, thus excluding contamination as a major flaw in the data. We then targeted 380 bp of the mtDNA control region, which allows comparisons with many living populations worldwide and represents the optimal marker for the philopatric behaviour of this species. All individuals but 2 were successfully sequenced. Haplotype CC-A2 was found in 68 individuals, whereas CC-A1 and CC-A3 were found only in one Tyrrhenian and one S-Adriatic specimens, respectively. This study demonstrates that genetic analysis of marine turtles from museum specimens is feasible. Data generated from cohorts of several generations ago are potentially useful for research and dissemination purposes. © Firenze University Press

Le macroalghe degli affioramenti rocciosi (tegn\uf9e) antistanti le bocche di porto della Laguna di Venezia

A number of rocky outcrops lay in the Northern Adriatic Sea sandy to silty floor, locally called \u201ctegn\uf9e\u201d. Biologically they result as biodiversity spots where a rich and diversified phyto- and zoobenthic community takes place. Several paper deal with a full description of the zoobenthic component, whereas the information about vegetation component is scarce. We describe the macroalgal component sampled on 21 outcrops lying on the marine bottoms in front of Lido and Chioggia inlets connecting the Sea to Venice Lagoon. 94 species (59 Rodophyta, 17 Ochrophyta, 18 Chlorophyta) were determined. No seagrasses were observed as they result here completely retreated. Structure and composition of the phytobenthic component were analysed in the light of different variable parameters such as distance form the coast, depth, shape and height of the outcrops