BackgroundA large scale semi-quantitative biodiversity assessment was conducted in white oak woodlands in areas included in the Spanish Network of National Parks, as part of a project aimed at revealing biogeographic patterns and identify biodiversity drivers. The semi-quantitative COBRA sampling protocol was conducted in sixteen 1-ha plots across six national parks using a nested design. All adult specimens were identified to species level based on morphology. Uncertain delimitations and identifications due to either limited information of diagnostic characters or conflicting taxonomy were further investigated using DNA barcode information.New informationWe identified 376 species belonging to 190 genera in 39 families, from the 8,521 adults found amongst the 20,539 collected specimens. Faunistic results include the discovery of 7 new species to the Iberian Peninsula, 3 new species to Spain and 11 putative new species to science. As largely expected by environmental features, the southern parks showed a higher proportion of Iberian and Mediterranean species than the northern parks, where the Palearctic elements were largely dominant. The analysis of approximately 3,200 DNA barcodes generated in the present study, corroborated and provided finer resolution to the morphologically based delimitation and identification of specimens in some taxonomically challenging families. Specifically, molecular data confirmed putative new species with diagnosable morphology, identified overlooked lineages that may constitute new species, confirmed assignment of specimens of unknown sexes to species and identified cases of misidentifications and phenotypic polymorphisms.
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Aim To unravel the origins and to infer the processes of diversification in the low-vagility nemesiid trap-door spiders of the Balearic Islands. The specific goals were: (1) to determine whether nemesiid spiders colonized the islands by oversea dispersal, or whether they are the result of the fragmentation of a once continuous distribution by continental drift, and (2) to test whether the Balearic lineages have undergone local diversification processes.Locations Balearic Islands, Iberian Peninsula, Western Mediterranean.Methods Multilocus molecular phylogenetic inference using parsimony and model-based methods, and divergence time estimation with relaxed clocks and informed substitution rate priors, and biogeographical ancestral reconstruction inferred in a Bayesian framework.Results Phylogenetic analyses revealed the monophyly of the genera Iberesia and Nemesia. Four independent clades were recovered for the Balearic fauna. One of the clades included a formerly unknown species from Minorca. The Balearic clades split from their continental relatives in the early Tortonian, except for Iberesia brauni, which dates to the Messinian-Zanclean. The biogeographical reconstruction indicated that the Balearic fauna probably originated in the Betic region of the Iberian Peninsula. Main conclusionsThe presence of Nemesia on the Balearic Islands was explained by fragmentation of an ancestral distribution range that included the Betic region and the islands in the Early Tortonian. The arrival of Iberesia to the islands, however, was the result of a secondary range expansion that was facilitated by the emergence of land bridges with the continent during the Messinian salinity crisis (MSC). Similarly, the drops in the sea level that occurred during the MSC and subsequently in the Quaternary glacial cycles established land passages between Majorca and Minorca.
The genetic variability and the potential distribution under past (Last Glacial Maximum; LGM (MIROC and CCSM simulations)) and present conditions were studied for the anguid Hyalosaurus koellikeri, using analyses of two mitochondrial (ND1 and ND2) and one nuclear (PRLR) gene and species distribution modelling (SDM) including 19 geographical coordinates, covering most of its distribution range. Unexpectedly, the genetic results show that H. koellikeri presents a very low level of variability both in the mitochondrial and nuclear genes studied. The present predicted distribution of H. koellikeri revealed a large potential distribution in both north and eastwards directions, with suitable areas predicted in places where the species has never been reported before, as for instance the Rif Mountains in Morocco, as well as into most parts of northern Algeria and Tunisia. The LGM distribution is even larger compared to the present, with a continuous predicted distribution from Morocco to Tunisia, and even into Libya under the MIROC simulation. The results of the genetic and SDM analyses suggest that the now isolated populations from Debdou and Tlemcen have probably been in contact during the LGM, but its absence from both present and past predicted suitable areas is still a mystery. Hyalosaurus koellikeri depends mainly on closed deciduous forests (typically Cedrus atlantica and Quercus sp.) and open deciduous shrubland with high amounts of annual rainfall. The results of this study and the absence of recent sightings of the species outside the core distribution might indicate a regression of the species. Hence, a reevaluation of the conservation status of the species seems warranted.
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