Your search keyword '"ALLEGRUCCI, Giuliana"' showing total 6 results

1. Testing Phylogenetic Hypotheses for Reconstructing the Evolutionary History of Dolichopoda Cave Crickets in the Eastern Mediterranean

Author

Allegrucci, Giuliana, Rampini, Mauro, Gratton, Paolo, Todisco, Valentina, and Sbordoni, Valerio

Published

2009

2. Comparative phylogeography of two troglobitic Coleoptera (Leiodidae, Leptodirini) species from Romania based on mitochondrial DNA.

Author

Năstase-Bucur, Ruxandra, Allegrucci, Giuliana, Ketmaier, Valerio, Mirea, Ionuţ Cornel, and Moldovan, Oana Teodora

Subjects

*CHLOROPLAST DNA, *PHYLOGEOGRAPHY, *SPECIES, *BEETLES, *GENETIC variation, *CYTOCHROME oxidase, *MITOCHONDRIAL DNA, *CAVES

Abstract

About 50 species of cave-obligate Leptodirini (Leiodidae) beetles have been described so far in Romania, most of them populating caves in the Apuseni Mountains (north-western Romania) and the Southern Carpathians. In this contribution, we present the first molecular phylogeographic study of the two troglobiotic Pholeuon species from the Apuseni Mountains. The two species are Pholeuon (s.str.) leptodirum and Pholeuon (Parapholeuon) gracile, endemic to Bihorului Mountains and Pădurea Craiului Mountains, respectively. To examine the genetic divergence within and between the two species we sequenced 571 bp of the mitochondrial COI gene in a total of 145 specimens, 56 specimens of the first species (collected in five caves) and 89 of the second species (collected in eight caves) across their geographic ranges. We found very low genetic variation, four haplotypes in P. leptodirum and seven haplotypes in P. gracile, and a maximum of 0.7% and 0.9% intraspecific divergence, respectively. However, a significant genetic divergence of 6.55% was found between species. The results are consistent with previous definitions of the two species based on morphological characters, while caution should be taken in considering attributions to different subspecies. Our research contributes to the phylogeographic information of troglobitic beetles, providing a solid basis for future comparison with other terrestrial or aquatic cave adapted species. [ABSTRACT FROM AUTHOR]

Published

2022

3. Molecular phylogeography of Troglophilus cave crickets (Orthoptera, Rhaphidophoridae): A combination of vicariance and dispersal drove diversification in the East Mediterranean region.

Author

Allegrucci, Giuliana, Ketmaier, Valerio, Di Russo, Claudio, Rampini, Mauro, Sbordoni, Valerio, and Cobolli, Marina

Subjects

*PHYLOGEOGRAPHY, *CRICKETS (Insect), *MITOCHONDRIAL DNA, *VICARIANCE

Abstract

In this study, we investigated the molecular phylogenetic divergence and historical biogeography of cave crickets belonging to the genus Troglophilus (Orthoptera, Rhaphidophoridae) from caves in eastern Mediterranean and Anatolia regions. Three mitochondrial DNA genes ( COI, 12S rDNA, and 16S rDNA) and two nuclear ones ( 18S rDNA and 28S rDNA) were amplified and partially sequenced to reconstruct phylogenetic relationships among most of the known Troglophilus species. Results showed a well-resolved phylogeny with three main clades representing the Balkan, the Anatolian, and the Cycladian-Cretan lineages. Based on Bayesian analyses, we applied a relaxed molecular clock model to estimate the divergence times between these three lineages. Dating estimates indicate that radiation of the ingroup might have been triggered by the opening of the Mid-Aegean trench, while the uplift of the Anatolian Plateau in Turkey and the changes of relief, emergence, and disappearance of orographic and hydrographical barriers in the Balkan Peninsula are potential paleogeographic events responsible for the initial diversification of the genus Troglophilus. A possible biogeographic scenario, reconstructed using S- DIVA with RASP software, suggested that the current distribution of Troglophilus species can be explained by a combination of both dispersal and vicariance events that occurred in particular in the ancestral populations. The radiation of Troglophilus species likely started from the Aegean and proceeded eastward to Anatolia and westward to the Balkan region. Results are additionally compared to those available for Dolichopoda, the only other representative genus of Rhaphidophoridae present in the Mediterranean area. [ABSTRACT FROM AUTHOR]

Published

2017

4. Phylogeography and systematics of the westernmost Italian Dolichopoda species (Orthoptera, Rhaphidophoridae).

Author

Allegrucci, Giuliana, Rampini, Mauro, Di Russo, Claudio, Lana, Enrico, Cocchi, Sara, and Sbordoni, Valerio

Subjects

*PHYLOGEOGRAPHY, *BIOLOGICAL classification, *RHAPHIDOPHORIDAE, *ORTHOPTERA, *SYMPATRIC speciation, *TAXONOMY, *EDUCATION, *PHYSIOLOGY

Abstract

The genus Dolichopoda (Orthoptera; Rhaphidopohoridae) is present in Italy with 9 species distributed from northwestern Italy (Piedmont and Liguria) to the southernmost Apennines (Calabria), occurring also in the Tyrrhenian coastal areas and in Sardinia. Three morphologically very close taxa have been described in Piedmont and Liguria, i.e., D. ligustica ligustica, D. ligustica septentrionalis and D. azami azami. To investigate the delimitation of the northwestern species of Dolichopoda, we performed both morphological and molecular analyses. Morphological analysis was carried out by considering diagnostic characters generally used to distinguish different taxa, as the shape of epiphallus in males and the subgenital plate in females. Molecular analysis was performed by sequencing three mitochondrial genes, 12S rRNA, 16S rRNA, partially sequenced and the entire gene of COI. Results from both morphological and molecular analyses highlighted a very homogeneous group of populations, although genetically structured. Three haplogroups geographically distributed could be distinguished and based on these results we suggest a new taxonomic arrangement. All populations, due to the priority of description, should be assigned to D. azami azami Saulcy, 1893 and to preserve the names ligustica and septentrionalis, corresponding to different genetic haplogroups, we assign them to D. azami ligustica Baccetti & Capra, 1959, stat. n. and to D. azami septentrionalis Baccetti & Capra, 1959, stat. n. [ABSTRACT FROM AUTHOR]

Published

2014

5. The evolutionary jigsaw puzzle of the surviving trout (Salmo trutta L. complex) diversity in the Italian region. A multilocus Bayesian approach.

Author

Gratton, Paolo, Allegrucci, Giuliana, Sbordoni, Valerio, and Gandolfi, Andrea

Subjects

*BIOLOGICAL evolution, *BROWN trout, *CLASSIFICATION of fish, *BIODIVERSITY, *ITALIAN regions, *BAYESIAN analysis, *BIOLOGICAL adaptation, *BIOGEOGRAPHY

Abstract

Mediterranean trout populations display a diversity of phenotypes, representing a valuable model for the study of adaptation and a puzzling dilemma for taxonomists and biogeographers, which is further entangled by the widespread introgression of allochthonous genes. In this paper we analysed DNA polymorphism at multiple loci (sequence variation of the mitochondrial control region and eight nuclear fragments and length variation at eleven nuclear microsatellite loci) in representative samples of the autochthonous taxonomic diversity described in Italian trout populations ( Salmo marmoratus , S. carpio , S. cenerinus , S. cettii and S. fibreni ) and in samples from hatchery-originated strains of Atlantic S. trutta . We employed model-based clustering and Approximate Bayesian Computation in order to: (i) describe the phylogeographic structure of Italian autochthonous trout populations; (ii) evaluate a set of evolutionary/biogeographic models. The inclusion of hatchery-originated strains allowed to account for man-mediated allochthonous introgression in Italian populations. Our results (i) showed that the analysed sample consists of two main autochthonous evolutionary lineages, including the marble trout populations on one side (‘marble’ lineage) and the three peninsular populations of S. cettii , S. cenerinus and S. fibreni on the other side (‘peninsular’ lineage); (ii) indicated that S. carpio originated from a ‘peninsular’ population, with a possible, limited contribution from the ‘marble’ lineage; (iii) pointed out that the ‘marble’ lineage started diverging before the separation of the ‘peninsular’ lineage from Atlantic S. trutta ; (iv) suggested that a model of divergence involving gene flow from the ‘peninsular’ population into the ancestral gene pool of ‘marble’ trout is most consistent with the genetic data; (v) provided evidence that the autochthonous trout gene pools in the Tyrrhenian and Adriatic basins of the Italian peninsula started diverging very recently (most likely after the last glacial maximum). [ABSTRACT FROM AUTHOR]

Published

2014

6. Molecular phylogeography of Dolichopoda cave crickets (Orthoptera, Rhaphidophoridae): A scenario suggested by mitochondrial DNA

Author

Allegrucci, Giuliana, Todisco, Valentina, and Sbordoni, Valerio

Subjects

*MITOCHONDRIAL DNA, *PHYLOGEOGRAPHY, *METALLOENZYMES, *SPELEOLOGY

Abstract

Abstract: This study focuses on the phylogenetic relationships among a number of West-Mediterranean cave crickets species belonging to Dolichopoda; primarily a Mediterranean genus, distributed from eastern Pyrenees to Caucasus. In this paper, 11 Dolichopoda species from the French Pyrenees (D. linderi), the island of Corsica (D. bormansi and D. cyrnensis), and northern, central, and southern Italy (D. ligustica, D. schiavazzii, D. aegilion, D. baccettii, D. laetitiae, D. geniculata, D. capreensis, and D. palpata) were studied. Two more species, one from the Caucasus, D. euxina, and one from Greece, D. remyi, were also included in the analyses, together with more distant species within the same family to be used as outgroups. Fifteen hundred base pairs of mitochondrial DNA, corresponding to the small subunit of the ribosomal RNA (16S rRNA) and to the subunit I of the cytochrome oxidase I (COI), were sequenced in order to clarify the phylogenetic relationships and biogeography of this group of Mediterranean cave crickets. The molecular data are congruent with a phylogeographic pattern; with the geographically close species also the most related ones. Based on mtDNA divergence, the present-day distribution of genetic diversity seems to have been impacted by climatic events due to glacial and interglacial cycles that have characterized the Pleistocene era. [Copyright &y& Elsevier]

Published

2005