S. I. Belikov scite author profile

The virus epizootic which resulted in significant mortality in Siberian seals (Phoca sibirica) in Lake Baikal during 1987/88 was caused by canine distemper virus. Sequence analysis of the virus glycoprotein genes revealed that it was most closely related to recent European field isolates of canine distemper virus. This paper presents evidence that the same virus continued to circulate in seals in Lake Baikal after the initial epizootic. Three out of 45 brain tissue samples collected from seals culled in the spring of 1992 were positive for canine distemper virus-specific nucleic acid by the reverse transcription/polymerase chain reaction and the sequences were closely related to that of the original virus isolated in 1988.

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Towards a Molecular Systematics of the Lake Baikal/Lake Tuva Sponges

Wiens

Wrede

Grebenjuk

et al. 2009

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Lake Baikal is famous for its extensive biodiversity that is equaled only by few other lakes. Fascinatingly, about 80% of all the animals the lake hosts are endemic. Sponges (Porifera) that live in symbiosis with photosynthetic algae are the most abundant animal taxon found in the littoral zone of Lake Baikal and have been grouped to the family Lubomirskiidae. In recent years, several attempts to determine the phylogenetic relationship between Lubomirskiidae and cosmopolitan freshwater sponges have been undertaken. Yet the results obtained remain inconclusive. Here, we strive to determine the phylogeny of freshwater sponges with the focus on endemic Lake Baikal species, also taking into account two poriferan species that were collected during an expedition in 2006 in two other isolated Siberian lakes, Lake Chagytai and Lake Tore-Khol. Since its discovery at the beginning of the twentieth century, the Lake Chagytai species was grouped to the Lubomirskiidae and called Baikalospongia dzhegatajensis. However, analyses of molecular sequence data [internal transcribed spacer 2 (ITS2), ribosomal DNA (rDNA)] and morphological markers (spicules, habitus) inferred a close relationship to the cosmopolitan genus Ephydatia and also to the Lake Tore-Khol species that had not so far been described. Thus, both species were tentatively termed Ephydatia tuva (Lake Chagytai) and E. altaiensis (Lake Tore-Khol). We hypothesize that these new species might have evolved from Ephydatia-like ancestors through adaptation to the unique environmental conditions of both lakes. To test the ITS data, an unlinked genetic locus was chosen for further phylogenetic analyses, the protein-coding gene silicatein. These analyses provided not only a more robust resolution between the Lubomirskiidae, but also corroborated the grouping of the Lake Chagytai and Lake Tore-Khol species to the genus Ephydatia. In addition, the phylogenetic analyses suggest a Spongilla-like founder generation of poriferan species in Lake Chagytai and Lake Tore-Khol. In conclusion, we propose that the process of speciation in Lake Baikal and Lake Chagytai/Lake Tore-Khol, from a cosmopolitan Spongilla-like ancestor to more than ten endemic species follows allopatric speciation patterns and is of the peripatric type.

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Estimate of the diversity of viral and bacterial assemblage in the coastal water of Lake Baikal

Butina

Bukin

Krasnopeev

et al. 2019

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In this study, we analysed the diversity and composition of double-stranded DNA viral and bacterial communities within the sample of surface coastal water of Southern Baikal through metagenomics and deep sequencing of the 16S ribosomal RNA gene, respectively. The 16S rRNA gene analysis has revealed 14 phyla and dominance of the ‘Actinobacteria’ (43.6%), ‘Proteobacteria’ (25.2%) and ‘Bacteroidetes’ (11.5%). The bacterial composition was similar to that obtained previously in Lake Baikal littoral zone. Out of 1 030 169 processed virome reads, 37.4% of sequences (385 421) were identified as viral; 15.1% were identified as nonviral and related to the domains Eukarya, Bacteria and Archaea; and 47.5% had no matches in the databases. The identified virotypes belonged to different families and were predicted to infect a wide range of organisms, from bacteria to mammals. Six families (Myoviridae, Poxviridae, Mimiviridae, Siphoviridae, Phycodnaviridae and Podoviridae) were dominant accounting for more than 90% of the identified sequences (48.3%, 17.4%, 8.3%, 6.8%, 5.8% and 4.1%, respectively). In contrast to other freshwater systems, high percentage of the Poxviridae and Mimiviridae was recorded in the water sample of Lake Baikal.

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S. I. Belikov

Distemper virus in Baikal seals

Canine distemper virus in Lake Baikal seals (Phoca sibirica)

Towards a Molecular Systematics of the Lake Baikal/Lake Tuva Sponges

Estimate of the diversity of viral and bacterial assemblage in the coastal water of Lake Baikal

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