Kaloust Paragamian scite author profile

Diplura is a group of entognathous hexapods, often considered a sister group to insects. They play an important role in recycling organic matter in soil and subterranean terrestrial ecosystems. The Campodeidae is the most diverse family, divided into four subfamilies. The subfamily Plusiocampinae has a subterranean life-style with many species distributed in the Euro-Mediterranean area. The incertae sedis tachycampoids (“lignée Tachycampoïde”) is a group within the family Campodeidae that share with the Plusiocampinae a strong preference for subterranean habitats and several morphological characters, such as slender body shape, elongated appendages, considerable increment in the number of antennomeres and cercal articles, and complexity of sensorial structures. The present monograph provides a taxonomic revision of the subfamily Plusiocampinae and the genera belonging to the tachycampoid lineage from Europe and the Mediterranean region. It comprises detailed morphological descriptions and illustrations together with data on the habitats and distributions of 87 species, 10 subspecies and 11 affinis forms. Seven new species are described among those, namely: Plusiocampa (Plusiocampa) apollo Sendra, Giachino & Vailati sp. nov., P. (P.) chiosensis Sendra & Gasparo sp. nov., P. (P.) dublanskii Sendra & Turbanov sp. nov., P. (P.) hoffmanni Sendra & Paragamian sp. nov., P. (P.) rhea Sendra sp. nov., P. (P.) ternovensis Sendra & Borko sp. nov. and P. (Venetocampa) ferrani Sendra & Delić sp. nov.

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Social but lonely: Species delimitation of social voles and the evolutionary history of the onlyMicrotusspecies living in Africa

Thanou

Paragamian²,

Lymberakis

2019

J Zool Syst Evol Res

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The social vole of Cyrenaica, Libya, is the only extant representative of the Cricetidae family found in Africa. Its taxonomic status has been under debate, partly due to the problematic systematics of the entire group of social voles and partly due to the lack of morphological and molecular data from Cyrenaican specimens. In this study, we applied ancient DNA protocols to produce three cytochrome b (cytb) sequences of Cyrenaican voles and built a phylogenetic reconstruction (195 sequences in total) incorporating all available cytb sequences of the remaining social voles, other representatives of the genus Microtus and closely related cricetids. We used this phylogeny to test the performance of the model‐based, single‐locus, species delimitation approach implemented in mPTP and delimited nine species of social voles. Among them are the Cyrenaican vole, Microtus mustersi and its sister species M. guentheri, distributed along the Mediterranean coasts of southwestern Asia. Biogeographical reconstruction of ancestral area and molecular clock estimations of the time since the divergence of the two sister lineages suggest that their common ancestor dispersed into Africa through a coastal route and was isolated in Cyrenaica as a result of population fragmentation associated with Middle Pleistocenic pluvial/interpluvial cycles. Geographic isolation triggered the speciation process, but species distribution modeling gave evidence of subsequent niche divergence; M. guentheri has adapted to the xeric conditions of its distributional area, while M. mustersi benefited from the milder Cyrenaican climate. The Cyrenaican vole is a relict species more than 200,000 years old, has a small and isolated distribution and probably merits conservation.

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Isolation and amplification of shrew DNA from barn owl pellets

Poulakakis

Lymberakis

Paragamian³

et al. 2005

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The last decade has seen a number of studies reporting the extraction of DNA from ancient sources, such as fossil bones. Owl pellets, which contain an excellent skeletal record of small mammals consumed, can be used in a noninvasive sampling method for genetic studies of free-ranging animals without the need for direct capture or even observation. Such a non-invasive sampling method will allow us to address questions that cannot be answered using conventional methods and will lead to a more integrated study of micromammals. In the present study, various protocols used for ancient DNA extraction were investigated, in order to determine the applicability of owl pellets as a source of DNA for phylogenetic and phylogeographical studies of micromammals. Of the 12 bone samples used in this study, 11 gave sequences of expected species ( Crocidura , Rattus and Mus ) and size (around 300 bp), using the pair of primers L14841/H15149, which target a highly conserved region of the cytochrome b gene. The results obtained demonstrate that mitochondrial DNA can be isolated and amplified using bones of micromammals found in barn owl ( Tyto alba ) pellets. The recovery of genetic data from owl pellets will enable the identification of prey species for several phylogenetic and phylogeographical studies of small mammals (Muridae and Insectivora) appearing in the owl's diet. The main advantages of this new approach are that (a) the pellets are very easy to find and collect, (b) the pellets can potentially provide a large number of individuals of small mammals, and (c) the method can cover a wide geographical area complementary to the range of owls of this type.

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The Natura 2000 network and the ranges of threatened species in Greece

et al. 2021

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Global environmental goals mandate the expansion of the protected area network to halt biodiversity loss. The European Union’s Natura 2000 network covers 27.3% of the terrestrial area of Greece, one of the highest percentages in Europe. However, the extent to which this network protects Europe’s biodiversity, especially in a biodiverse country like Greece, is unknown. Here, we overlap the country’s Natura 2000 network with the ranges of the 424 species assessed as threatened on the IUCN Red List and present in Greece. Natura 2000 overlaps on average 47.6% of the mapped range of threatened species; this overlap far exceeds that expected by random networks (21.4%). Special Protection Areas and Special Areas of Conservation (non-exclusive subsets of Natura 2000 sites) overlap 33.4% and 38.1% respectively. Crete and Peloponnese are the two regions with the highest percentage of threatened species, with Natura 2000 sites overlapping on average 62.3% with the threatened species’ ranges for the former, but only 30.6% for the latter. The Greek ranges of all 62 threatened species listed in Annexes 1 and II to the Birds and Habitats Directives are at least partially overlapped by the network (52.0%), and 18.0% of these are fully overlapped. However, the ranges of 27 threatened species, all of which are endemic to Greece, are not overlapped at all. These results can inform national policies for the protection of biodiversity beyond current Natura 2000 sites.

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