Balancing a Cline by Influx of Migrants: A Genetic Transition in Water Frogs of Eastern Greece

Variation patterns of allozymes and of ND3 haplotypes of mitochondrial DNA reveal a zone of genetic transition among western Palearctic water frogs extending across northeastern Greece and European Turkey. At the western end of the zone, allozymes characteristic of Central European frogs known as Pelophylax ridibundus predominate, whereas at the eastern end, alleles characteristic of western Anatolian water frogs (P. cf. bedriagae) prevail. The ND3 haplotypes reveal 2 major clades, 1 characteristic of Anatolian frogs, the other of European; the European clade itself has distinct eastern and western subclades. Both the 2 major clades and the 2 subclades overlap within the transition zone. Using Bayesian model selection methods, allozyme data suggest considerable immigration into the Nestos River area from eastern and western populations. In contrast, the ND3 data suggest that migration rates are so high among all locations that they form a single panmictic unit; the best model for allozymes is second best for mitochondrial DNA (mtDNA). Nuclear markers (allozymes), which have roughly 4 times as deep a coalescent history as mtDNA data and thus may reflect patterns over a longer time, indicate that eastern and western refugial populations have expanded since deglaciation (in the last 10 000 years) and have met near the Nestos River, whereas the mtDNA with its smaller effective population size has already lost the signal of partitioning into refugi

Histology and fine structure of epidermal papillomas in the Alpine newt Ichthyosaura alpestris (Urodela: Salamandridae)

Epidermal papillomas of alpine newts (Ichthyosaura alpestris) collected in the field (Germany, Austria) were studied by histology (LM), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). Papillomas were found on the head, the trunk and the tail, with the most and largest on the head of males. They protruded beyond the body surface exhibiting an appearance like a cauliflower. The head of one specimen studied by SEM had a large papilloma and was densely populated with bacteria, fungi and sessile ciliates. The surface of papillomas was covered either by stratum corneum cells, or by deeper cell layers that may be exposed by injuries. Histology revealed that papillomas consisted of compact bulbous extensions that were deeply embedded into the dermis and separated from each other by small septa (papillae) of connective tissue. Bulbs were distinctly demarcated by a thin basal lamella that was continuous with the basal lamella of the adjacent non-altered epidermis. An invasion of papilloma-cells through the basal lamella in the underlying connective tissue could not be unequivocally demonstrated; only once we found an area by TEM, which could be interpreted in this way. Bulbs may have two types of cavities or cysts. One type contained masses of keratinized cell layers, the other appeared either largely empty, or contained cellular debris and/or PAS-positive substances discharged by secretory cells lining the cyst. Tumor cells within a bulb are offen arranged in clusters or nests. Generally, cells appeared relatively undifferentiated having large euchromatic or heterochromatic nuclei, prominent nucleoli, and a moderate amount of cell organelles. Also the amount of tonofilamets and number and size desmosomes (macuale adhaerentes) seemed to be reduced. Virus-like particles were found neither in the cytoplasm nor in the nucleus. Compared to the unaltered epidermis, in which no mitoses were seen, mitotic cells occurred in all papillomas examined. In addition, the neoplastic tissue always contained macrophages and further ‘leucocytes’, but necrotic areas were rare. Dermal papillae separating the bulbs from each other and the dermal tissue immediately beneath the basal lamina of papillomas contained a high number of cells (e.g., fibroblasts and cells of the immune system)

Data from: A new species of the paper wasp genus Polistes (Hymenoptera, Vespidae, Polistinae) in Europe revealed by morphometrics and molecular analyses

We combine multivariate ratio analysis (MRA) of body measurements and analyses of mitochondrial and nuclear data to examine the status of several species of European paper wasps (Polistes Latreille, 1802) closely related to P. gallicus. Our analyses unambiguously reveal the presence of a cryptic species in Europe, as two distinct species can be recognized in what has hitherto been considered Polistes bischoffi Weyrauch, 1937. One species is almost as light coloured as P. gallicus, and is mainly recorded from Southern Europe and Western Asia. The other species is darker and has a more northern distribution in Central Europe. Both species occur syntopically in Switzerland. Given that the lost lectotype of P. bischoffi originated from Sardinia, we selected a female of the southern species as a neotype. The northern species is described as P. helveticus sp. n. here. We also provide a redescription of P. bischoffi rev. stat. and an identification key including three more closely related species, P. biglumis, P. gallicus and P. hellenicus

Neumeyer et al European Polistes data used for morphometry

A tab delimited text file including all body measurements in micrometers used for morphometric analyses. In addition, images showing the exact character definitions

Evolution of serum albumin intron-1 is shaped by a 5′ truncated non-long terminal repeat retrotransposon in western Palearctic water frogs (Neobatrachia)

A 5′ truncated non-LTR CR1-like retrotransposon, named RanaCR1, was identified in the serum albumin intron-1 (SAI-1) of at least seven species of western Palearctic water frogs (WPWF). Based on sequence similarity of the carboxy-terminal region (CTR) of ORF2 and/or the highly conserved 3′ untranslated region (3′ UTR), RanaCR1-like elements occur also in the genome of Xenopus tropicalis and Rana temporaria. Unlike other CR1 elements, RanaCR1 contains a CA microsatellite in its 3′ UTR. The low nucleotide diversity of the 3′ UTR compared to the CTR and to SAI-1 suggests that this region still plays a role in WPWF, either as a structure-stabilizing element, or within a species-specific transcriptional network. Length variation of water frog SAI-1 sequences is caused by deletions that extend in some cases beyond the 5′ or 3′ ends of RanaCR1, probably a result of selection for structural and functional stability of the primary transcript. The impact of RanaCR1 on SAI-1 evolution is also indicated by the significant negative correlation between the length of both SAI-1 and RanaCR1 and the percentage GC content of RanaCR1. Both SAI-1 and RanaCR1 sequences support the sister group relationship of R. perezi and R. saharica, which are placed in the phylogenetic tree at a basal position, the sister clade to other water frog taxa. It also supports the monophyly of the R. lessonae group; of Anatolian water frogs (R. cf. bedriagae), which are not conspecific with R. bedriagae, and of the European ridibunda group. Within the ridibunda clade, Greek frogs are clearly separated, supporting the hypothesis that Balkan water frogs represent a distinct species. Frogs from Atyrau (Kazakhstan), the type locality of R. ridibunda, were heterozygous for a ridibunda and a cf. bedriagae specific allele

Balancing a cline by influx of migrants: a genetic transition in water frogs of Eastern Greece

Variation patterns of allozymes and of ND3 haplotypes of mitochondrial DNA reveal a zone of genetic transition among western Palearctic water frogs extending across northeastern Greece and European Turkey. At the western end of the zone, allozymes characteristic of Central European frogs known as Pelophylax ridibundus predominate, whereas at the eastern end, alleles characteristic of western Anatolian water frogs (P. cf. bedriagae) prevail. The ND3 haplotypes reveal 2 major clades, 1 characteristic of Anatolian frogs, the other of European; the European clade itself has distinct eastern and western subclades. Both the 2 major clades and the 2 subclades overlap within the transition zone. Using Bayesian model selection methods, allozyme data suggest considerable immigration into the Nestos River area from eastern and western populations. In contrast, the ND3 data suggest that migration rates are so high among all locations that they form a single panmictic unit; the best model for allozymes is second best for mitochondrial DNA (mtDNA). Nuclear markers (allozymes), which have roughly 4 times as deep a coalescent history as mtDNA data and thus may reflect patterns over a longer time, indicate that eastern and western refugial populations have expanded since deglaciation (in the last 10 000 years) and have met near the Nestos River, whereas the mtDNA with its smaller effective population size has already lost the signal of partitioning into refugi