Composition of the subgenus <Emphasis Type="Italic">Zeugotaenia</Emphasis>, genus <Emphasis Type="Italic">Chrysolina</Emphasis> (Coleoptera,Chrysomelidae), and examination of the nomenclatural types

Zeugotaenia Motschulsky, 1860 is resurrected as a valid name for the subgenus of Chrysolina with the type species Chrysomela limbata Fabricius, 1775. Diagnosis of the subgenus is compiled. Neotypes of Chrysomela limbata and Ch. limbifera Küster, 1846, and lectotypes of Chrysomela findelii Suffrian, 1851, Ch. hochhuthii Suffrian, 1851, and Ch. discipennis Faldermann, 1835 are designated. The types of Chrysomela limbata jenisseiensis Breit, 1920 and Chrysolina limbata kavani Bechyné, 1950 and the topotypes of Chrysomela limbata luigionii Depoli, 1936 are examined. Chrysolina furva Peyerimhoff, 1926 and Ch. dohrnii Fairmaire, 1865 do not belong to the subgenus Zeugotaenia.     

Expansion of Harmonia axyridis Pallas (Coleoptera: Coccinellidae) to European Russia and adjacent regions

An invasive alien species, the harlequin ladybird Harmonia axyridis (Pallas, 1773), has quickly expanded its distribution in Eastern Europe. Records of H. axyridis from 31 localities in Lithuania, Latvia, the Ukraine, European Russia, and the Northern Caucasus are summarized and mapped. Within the last few years this species has established in south Latvia, on the Baltic Sea shore (Kaliningrad oblast and Lithuania), in the western and central Ukraine, Crimea, and in the Northern Caucasus. Besides that, individual specimens have been found in 4 more localities in European Russia. The species is recorded from Lipetsk oblast (European Russia), Crimea, and Nikolaev oblast (the Ukraine) for the first time.     

Genus <Emphasis Type="Italic">Chelonus</Emphasis> Jurine (Hymenoptera,Braconidae, Cheloninae) in the fauna of Russia and adjacent territories. <Emphasis Type="Italic">Ch. olgae</Emphasis> Kok. species-group

The Ch. olgae species-group is established in the genus Chelonus characterized by the metasomal carapace narrowing towards the apex (much more strongly than towards the base) and not or weakly incurved. This group is analogous to the M. retusus group of the closely related genus Microchelonus, although some differences in the carapace structure emphasize parallel development of these morphological features in the two genera. New species are described as follows: Ch. borisi sp. n. (Russia: Leningrad Prov.), Ch. cardui sp. n. (Russia: Voronezh Prov.; Moldova), Ch. kokoujevi sp. n. (Russia: Belgorod and Chelyabinsk provinces), Ch. speijeri sp. n. (Spain), Ch. ubsunuricus sp. n. (Russia: Tuva), and Ch. yurii sp. n. (Kazakhstan). Chelonus subannulatus Abdinbekova, 1971 is synonymised with Ch. submuticus Wesmael, 1835(syn. n.).     

Retrospective evaluation and modern state of the moose (<Emphasis Type="Italic">Alces alces</Emphasis> L.) population in West Siberia: Ecological and molecular-genetic aspects

Based on the analysis of materials collected for many years the dynamics of the moose’s habitat and population numbers in West Siberia is described. For the southeast of the West Siberian part of the habitat the cohabitation of mooses with the haplotypes of both European (A. a. alces L.) and East Siberian (A. a. pfizenmayeri Zukowski) subspecies is demonstrated on the basis of investigation of the structure of the mtDNA D-loop hypervariable domain. High nucleotide (p) and haplotypic (H) diversity substantially exceeding corresponding indices for the moose in the European part of Russia and the Urals has been revealed.     

On the distribution of the bush cricket <Emphasis Type="Italic">Platycleis albopunctata transiens</Emphasis> Zeuner, 1941 (Orthoptera,Tettigoniidae) in the south of European Russia and in Uzbekistan

Based on examination of the morphological characters and comparative analysis of the male calling acoustic signals, distribution of the subspecies Platycleis albopunctata transiens Zeuner, 1941 in the south of European Russia (Crimea and North Caucasus) and in Uzbekistan is proved.     

Species divergence in <Emphasis Type="Italic">Iris</Emphasis> series <Emphasis Type="Italic">Lacteae</Emphasis> (Iridaceae) in Russia and adjacent countries based on chloroplast DNA sequence data

In Russia, the species of the genus Iris L., series Lacteae Doronkin, the taxonomic structure of which still remains controversial, are found in the south of Siberia and the Russian Far East, as well as in other regions of Asia. Sequence analysis of three chloroplast DNA regions (rps4, trnL–trnF, and trnS–trnG) shows that, in Russia and adjacent countries, there are two genetically and geographically isolated Lacteae species. I. oxypetala Bunge grows in the south of the Russian Far East, and I. lactea Pall. grows in Siberia, Mongolia, and Kazakhstan. Genetic differentiation between the populations of I. lactea is extremely low and statistically insignificant (the fixation index Φ_ST = 0.057, P > 0.05), pointing to the unity of the gene pool and the absence of other Lacteae species in this area.     

New data on the composition and distribution of the genus Leptomona Bechyné, 1958 (Coleoptera, Chrysomelidae: Galerucinae)

The leaf-beetle Leptomona russica (Gmelin, 1790) known from the Caucasus, Kazakhstan, and Middle Asia was found in Orenburg Province for the first time. It is the first record of this species from Europe and the first record of the genus Leptomona from European Russia. The diagnostic characters of the two Russian Leptomona species are included.     

Evolutionary history of the Dactylorhiza maculata polyploid complex (Orchidaceae)

Taxonomic complexity may be associated with migration history and polyploidy. We used plastid and nuclear DNA markers to investigate the evolutionary history of the systematically challenging Dactylorhiza maculata polyploid complex. A total of 1833 individuals from 298 populations from throughout Europe were analysed. We found that gene flow was limited between the two major taxa, diploid ssp. fuchsii (including ssp. saccifera) and tetraploid ssp. maculata. A minimum of three autotetraploid lineages were discerned: (1) southern/western ssp. maculata; (2) northern/eastern ssp. maculata; and (3) Central European ssp. fuchsii. The two ssp. maculata lineages, which probably pre‐date the last glaciation, form a contact zone with high genetic diversity in central Scandinavia. Intermediate plastid haplotypes in the contact zone hint at recombination. Central Europe may have been a source area for the postglacial migration for the southern/western lineage of ssp. maculata, as well as for ssp. fuchsii. The northern/eastern lineage of ssp. maculata may have survived the LGM in central Russia west of the Urals. The tetraploid lineage of ssp. fuchsii is indistinguishable from diploid ssp. fuchsii, and is probably of postglacial origin. The Mediterranean region and the Caucasus have not contributed to the northward migration of either ssp. fuchsii or ssp. maculata. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 101 , 503–525.     

Genetic differentiation of <Emphasis Type="Italic">Puccinia triticina</Emphasis> Erikss. in Russia

A collection of Puccinia triticina isolates was characterized for polymorphism of microsatellite loci and estimated for their differentiation by geographic origin. The collection included 20 isolates from the Ural region, 31 from West Siberia, 53 from Central Europe, 32 from the Northwest region, 32 from the Volga region, and 40 from the North Caucasus (24 from Dagestan and 16 from Krasnodar and Stavropol). The studied isolates were represented by 65 virulence phenotypes. In the polymorphism analysis of 18 microsatellite loci, 69 genotypes were determined. The index values of genetic distances (F _st, R _st, KB _c) between populations for microsatellite loci indicated differentiation of P. triticina isolates according to geographical origin, and they were clustered into three groups: (1) Asian, (2) European, and (3) North Caucasian. The North Caucasian isolates from Krasnodar and Stavropol regions were closer in similarity to European isolates than the Dagestan ones. Current analysis confirmed the assumption made earlier on the basis of the virulence analysis about the existence of several geographic fungi populations in Russia.     

Caucasus Mountains divide postulated postglacial colonization routes in the white‐breasted hedgehog,Erinaceus concolor

For many European species, the mountains of the Alps and the Pyrenees have acted as significant barriers to northwards colonization from southern glacial refugia. To the east, the Caucasus Mountains would seem to have been a similar barrier to the white‐breasted hedgehog (Erinaceus concolor). A deep divergence among hedgehog mitochondrial sequences to the north and south of the Caucasus Mountains suggests two colonization routes, originating from separate refugial regions and divided by this mountain barrier. From a Balkan refugium, hedgehogs have colonized northwards into Russia and to the northern foothills of the Caucasus Mountains. The origins of hedgehogs colonizing the southern parts of the Caucasus are not entirely clear, although fossil and climatic data suggest a glacial refugium on the southern shores of the Black Sea. Divergence within the southern group indicates a long‐standing fragmentation within such a refugium or the presence of further cryptic refugia in Turkey and the Near East. The Caucasus barrier would seem to have been an important factor in structuring the late Pleistocene distribution of species.     

Small Spruce Bark Beetle Ips amitinus (Eichhoff, 1872) (Coleoptera,Curculionidae: Scolytinae): a New Alien Species in West Siberia

The small spruce bark beetle Ips amitinus is a widespread species in many European countries that has been actively spreading into Northern Europe in the recent decades. In Russia, I. amitinus is present in the western, northwestern, and northern regions of the European part, with a tendency for range expansion. The species was first recognized in West Siberia in 2019 by characteristic morphological features and molecular genetic analysis. This bark beetle is abundant on Pinus sibirica in Siberian pine forests located near settlements within Tomsk and Kemerovo provinces, and is also sporadically found on the Siberian spruce Picea obovata. It colonizes the upper trunk and branches of standing and windfall trees. In the outbreak foci this bark beetle causes catastrophic drying of Siberian pines, starting from the crown top. This pattern of tree drying was noted for the first time near settlements in Yashkinsky District of Kemerovo Province in 2014, and now outbreak foci of I. amitinus exist in all the Siberian pine forests in this district. The population growth of I. amitinus was probably facilitated by dry and hot summer weather in the southeast of West Siberia during the last decade, in 2011 and 2012, and also by heavy winter snowfalls leaving numerous snapped tree branches which are easily colonized by the pest. In Tomsk Province, the most active outbreak focus of I. amitinus appeared in 2018 in the Siberian pine forest near Luchanovo and Ipatovo, following an outbreak of the Siberian moth Dendrolimus sibiricus. The invasion of I. amitinus in Siberia may increase the degradation rates not only of the gene-reserve Siberian pine forests but also of other dark coniferous stands.

     

New data on the changes in the abundance and distribution of several species of beetles (Coleoptera) in European Russia and the Caucasus

Changes in the abundance and distribution of selected species of beetles in European Russia and in the Caucasus are reported. Most of these species have been recorded from the Northwestern Caucasus in the last 10–15 years. The abundance and distribution during the last two years have changed most sharply in the introduced species, the Harlequin lady beetle Harmonia axyridis and two East Asian bruchids, Megabruchidius dorsalis and M. tonkineus. In 2016, the latter has been found in Georgia for the first time, and Harmonia axyridis was found in St. Petersburg. Abundance of the weevil Alcidodes karelinii with the range situated mostly east of the Caucasus and Volga River remains in Northwestern Caucasus at about the previous level. The flea-weevil species, a leaf miner on Ulmus pumila, misidentified previously as Orchestes mutabilis, is described in this paper as Orchestes steppensis sp. n. based on the material from Russia, Kazakhstan, Mongolia and Northern China; no its further distribution westward in 2015–2016 has been found. This species, rapidly widening its range in North America in the recent decade, is misidentified there as Orchestes alni. A key for differentiation of Orchestes alni, O. mutabilis and O. steppensis sp. n. is provided with photographs of adults of all three species. Magdalis armigera has increased abundance in Northwestern Caucasus in 2016 and was for the first time found in Northwestern Russia (Pskov Province) in 2015. Regular faunistic surveys during several decades provide a possibility of recording considerable changes in the abundance of some common species of Coleoptera, often associated with changes in their distribution.     

Ecological traits of the lichen flora of Khanty-Mansi Autonomous Okrug (Yugra)

A lichen biodiversity study conducted in the Khanty-Mansi Autonomous Okrug (district) reports 958 species in 199 genera and 72 families. Cetrelia alaskana (Llano) W. L. Culb. et C. F. Culb. is new to West Siberia; Graphis elegans (Borrer ex Sm.) Ach., Porpidia hydrophila (Fr.) Hertel et A. J. Schwab, and Sclerococcum sphaerale (Ach.) Fr. are new to Siberia; Acarospora fusca B. de Lesd., Cliostomum tenerum (Nyl.) Coppins et S. Ekman, Pertusaria corallina (L.) Arnold, and P. stalactiza Nyl. are new to Russia. High diversity of epilithic lichens is ecologically due to a variety of ecotopes that include mountain habitats on the eastern spurs of the Subarctic and Northern Urals in addition to plain ones.     

Low Genetic Diversity in Wide-Spread Eurasian Liver Fluke Opisthorchis felineus Suggests Special Demographic History of This Trematode Species

Opisthorchis felineus or Siberian liver fluke is a trematode parasite (Opisthorchiidae) that infects the hepato-biliary system of humans and other mammals. Despite its public health significance, this wide-spread Eurasian species is one of the most poorly studied human liver flukes and nothing is known about its population genetic structure and demographic history. In this paper, we attempt to fill this gap for the first time and to explore the genetic diversity in O. felineus populations from Eastern Europe (Ukraine, European part of Russia), Northern Asia (Siberia) and Central Asia (Northern Kazakhstan). Analysis of marker DNA fragments from O. felineus mitochondrial cytochrome c oxidase subunit 1 and 3 (cox1, cox3) and nuclear rDNA internal transcribed spacer 1 (ITS1) sequences revealed that genetic diversity is very low across the large geographic range of this species. Microevolutionary processes in populations of trematodes may well be influenced by their peculiar biology. Nevertheless, we suggest that lack of population genetics structure observed in O. felineus can be primarily explained by the Pleistocene glacial events and subsequent sudden population growth from a very limited group of founders. Rapid range expansion of O. felineus through Asian and European territories after severe bottleneck points to a high dispersal potential of this trematode species.     

Leaf Beetles of the Genus <Emphasis Type="Italic">Stylosomus</Emphasis> Suffrian, 1848 (Coleoptera,Chrysomelidae: Cryptocephalinae) of Southern Siberia

Distribution of Stylosomus Suffrian, 1848 in Southern Siberia is considered with more details. The male genitalia of S. flavus Marseul, 1875 are figured. A new key to the species of Stylosomus of Southern Siberia is composed.     

Les plus anciennes industries paléolithiques en Russie

Early Paleolithic sites (Oldowan and Acheulian) in the European part of Russia are concentrated in the southern part of the Russian plain, in the piedmont of the Caucasus and in the North Caucasus, south from 50 N latitude. The Taman Paleolithic complex (sites of Bogatyri/Sinyaya Balka, Rodniki 1 and 2, Kermek; and localities of Tsymbal, Lisy and Peresyp), Akushin Paleolithic complex in Central Dagestan (sites of Aynikab 1, Mukhkay 1 and 2) and complex of sites in Maritime Dagestan (sites of Rubas 1, Darvagchay 1, Darvagchay-Zaliv 1 and 4) are discovered and studied. The initial human settlement of southern Russia began about 2 Ma and went through the Caucasian isthmus along the western shore of the Caspian Sea. The most ancient Homo of the first wave of settlement from the African ancestral homeland was able to reach the Caucasus and the southern part of the Russian plain by 2 Ma, as confirmed by the Liventsovka locality in the city of Rostov-on-Don. The Acheulian is represented by stratified sites of the Early Acheulian on the territory of Dagestan. At present, it can be argued that the territory of southern Russia was part of the area of initial human settlement from Africa. It is more difficult to estimate the time and ways of the initial human settlement of Northern Asia. The few sites attributed to the Lower Paleolithic are, for the most part, geologically unconnected or are questioned as to the authenticity of the artifacts. The only clearly stratified Middle Pleistocene site, Karama in the Altai, delivered a pebble tool industry. In addition, the finds of bifaces in Tuva, near the Mongolian border mark the northern limit of the distribution of the Acheulian in Asia.     

Maternal genomic variability of the wild boar (Sus scrofa) reveals the uniqueness of East‐Caucasian and Central Italian populations

The phylogeography of the European wild boar was mainly determined by postglacial recolonization patterns from Mediterranean refugia after the last ice age. Here we present the first analysis of SNP polymorphism within the complete mtDNA genome of West Russian (n = 8), European (n = 64), and North African (n = 5) wild boar. Our analyses provided evidence of unique lineages in the East‐Caucasian (Dagestan) region and in Central Italy. A phylogenetic analysis revealed that these lineages are basal to the other European mtDNA sequences. We also show close connection between the Western Siberian and Eastern European populations. Also, the North African samples were clustered with the Iberian population. Phylogenetic trees and migration modeling revealed a high proximity of Dagestan sequences to those of Central Italy and suggested possible gene flow between Western Asia and Southern Europe which was not directly related to Northern and Central European lineages. Our results support the presence of old maternal lineages in two Southern glacial refugia (i.e., Caucasus and the Italian peninsula), as a legacy of an ancient wave of colonization of Southern Europe from an Eastern origin.     

Diversity of cyanobacterial species and phylotypes in biofilms from the littoral zone of Lake Baikal

The majority of naturally occurring biofilms contain numerous microorganisms that have not yet been cultured. Additionally, there is little information available regarding the genetic structure and species diversity of these communities. Therefore, we characterised the species diversity, structure and metagenome of biofilms grown on stones and steel plates in the littoral zone of Lake Baikal (East Siberia, Russia) by applying three different approaches. First, light microscopy enabled identification of the species diversity of biofilm-forming cyanobacteria on different substrates with the dominance of Rivularia rufescens, Tolypothrix limbata, Chamaesiphon fuscus, Ch. subglobosus, and Heteroleibleinia pusilla. Additionally, scanning electron microscopy was used to show the spatial structure of biofilms. Finally, sequence analysis of 30,660 16S rRNA clones indicated a high diversity within the biofilm communities, with the majority of the microbes being closely related to Cyanobacteria (8–46% sequences), Proteobacteria (14–43%), and Bacteroidetes (10–41%). Rivularia sp., Pseudanabaena sp., and Chamaesiphon spp. were the dominant cyanobacterial phylotypes.     

Notes on skulls of Pleistocene Saiga of Northern Eurasia

Eighteen fossil skulls of male Saiga from Northern Eurasia and 33 recent skulls from Kalmykia and Kazakhstan have been studied. Saiga from both the Khazarian Fauna of the Volga and Mammoth Fauna of Europe and Siberia are referred to Saiga horealis Tschersky, 1876. During the Pleistocene, 5. borealis distribution extended from England in the west to Alaska in the east and is characterized by an elongated neurocranium, small frontal angle of the temporal bone from the plane of the frontal, and long nasal bones.

S. borealis was a typical representative of the “mammoth biome”; in the Pleistocene periglacial steppes and cryogenic savannahs. Two subspecies are recognized: S. borealis borealis Tschersky (Eastern Sibera and Alaska); and S.b. prisca Nehring, 1891 (Europe, Urals and Western Siberia). At the end of the Pleistocene, when the mammoth disappeared, the range of S. borealis was reduced. Today they live only in West Mongolia (S. borealis mongolica Bannikov, 1946). S. tatarica tatarica was widely distributed in the other territories of the steppe and semidesert zones of Eurasia. The arid landscapes of Transcaucasia and Kazakhstan were inhabited by Saiga with thinner legs and shorter nasal bones, such as S. tatarica binagadensis Alekperova, 1953, from the middle Pleistocene of Azerbaijan (Bynagady). Fossil skulls from the Ural River that are large, but with a short neurocranium are identified as Saiga sp. cf. S. tatarica Linnaeus, 1766.