V. A. Solovyev scite author profile

Aim Moose, Alces alces (Linnaeus, 1758), survived the European Pleistocene glaciations in multiple southern refugia, in a northern refugium near the Carpathians and possibly in other locations. During the second millennium ad, moose were nearly extirpated in Europe and only recolonized their current range after World War II. The number and location of refugia during the Pleistocene and recent population lows may have affected the current genetic diversity. We sought to characterize the genetic diversity in European moose in order to determine its genetic structure and the location of genetic hotspots as a way of inferring its population history and the number of Last Glacial Maximum (LGM) refugia. Location Europe. Methods We sequenced 538 nucleotides from the mitochondrial control region of 657 moose from throughout the species' European range. We estimated diversity within and among 16 sampling localities, and used samova to cluster sampling locations into subpopulations. We constructed phylogenetic trees and median‐joining networks to examine systematic relationships, and conducted Bayesian analysis of the coalescent and used mismatch distributions and approximate Bayesian computation to infer demographic history. Results Estonia had the highest nucleotide diversity, and western Belarus had the highest haplotype diversity. We observed four regional populations from the samova analysis. We found three haplogroups in European moose, probably representing lineages conserved in different refugia during the Pleistocene. European moose underwent spatial expansion after the LGM, but did not undergo demographic expansion. The effective population size has declined markedly within the last 2000 years. Main conclusions The current levels and distribution of genetic diversity in European moose indicate the effects both of Pleistocene glaciations and of a recent bottleneck, probably associated with anthropogenic influences such as pastoralization and hunting, and a very recent re‐expansion. We show that both historical and recent events can influence the diversity and distribution of a large mammal on a large scale.

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The contemporary genetic pattern of European moose is shaped by postglacial recolonization, bottlenecks, and the geographical barrier of the Baltic Sea

Niedziałkowska

Hundertmark

Jędrzejewska

et al. 2015

Biol. J. Linn. Soc.

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To investigate genetic diversity and the population structure of the European moose (Alces alces), we analyzed 14 microsatellite loci for 694 samples collected across 16 localities. The highest genetic diversity was detected in Belarus and Russia and the lowest was found in Scandinavia. Two major genetic clusters existed, Scandinavian and continental, and some further spatial structure was detected. There was high concordance between the spatial distribution of microsatellite clusters analyzed in the present study and previously recognized mitochondrial DNA clades of moose. The split of genetic lineages calculated using approximate Bayesian computation (ABC) occurred at the beginning of the Last Glacial Maximum: approximately 29 000 and 28 000 years BP. A range‐wide bottleneck detected by ABC took place 1800–1200 years BP, although a more recent decline in moose numbers was also documented in the 18th to early 20th Century. Genetic differentiation in European moose increased with geographical distance, and the Baltic Sea appeared to be a barrier to gene flow. We conclude that isolation in different glacial refugia, postglacial colonization, and declines of range and numbers in Holocene shaped the present pattern of genetic diversity of European moose. Based on genetic divergence and a lack of apparent gene flow, the contemporary Scandinavian and continental subpopulations should be treated as separate management units.

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Variation in pancreatic amylase gene copy number among Eurasian badgers (Carnivora, Mustelidae, Meles) and its relationship to diet

et al. 2019

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Occurrence of copy number variation (CNV) of gene loci is important in the adaptation of species and populations to their environments. High copy numbers of mammalian genes encoding the digestive enzyme amylase, which plays a role in starch digestion, have been associated with adaptation to high‐starch foods. Here, we investigated CNV in the pancreatic amylase gene (AMY2) in Eurasian badgers (Meles species) and related taxa using real‐time quantitative PCR. We found that Meles anakuma and M. meles, as well as the other mustelids Mustela sibirica, Martes melampus and Martes zibellina, had only one copy of the AMY2 locus, whereas in Meles leucurus the copy number varied between one and four. The AMY2 copy number also varied significantly among M. leucurus populations. This suggests that M. leucurus is better adapted to a diet rich in starch and/or glycogen than its congeners. As Meles spp. are basically omnivorous but favor a carnivoran diet, for example, earthworms and amphibians, we speculate that the CNV is related to the dearth of animal food in the range of M. leucurus, which enforces a more vegetal diet. This in turn would favor more efficient digestion of dietary starch, which could be achieved by increasing the copy number of AMY2 .

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Improving the efficiency of the control system of electrified sprinkling machine of cir-cular actions "Cascade"

Abdrazakov¹,

Zhuravleva²,

Lonkin³

et al. 2018

asj

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В статье рассматриваются устройство и работа современной системы управления дождевальной машиной «КАСКАД», возможности дистанционной системы GSM контроля оборудования; представлены элементы расчета системы электробезопасности.

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Holocene changes in the distributions of Asian and European badgers (Carnivora: Mustelidae: Meles) inferred from ancient DNA analysis

Kinoshita

Косинцев

Abramov

et al. 2020

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Although the present-day distributional boundary between the European badger (Meles meles) and the Asian badger (Meles leucurus) is around the Volga River, studies of ancient bone remains have indicated changes in the distribution of M. meles and M. leucurus in the Urals–Volga region during the Holocene. To examine past changes in distribution using genetic data, changes in genetic diversity, and the relationships of Holocene to modern populations, we sequenced ~150 bp of the mitochondrial DNA control region from the 44 ancient badger remains excavated from European Russian, Ural and Western Siberian sites, and we detected 12 haplotypes. Our study revealed Holocene changes in the distributional boundary between these badger species. Meles meles inhabited the Ural Mountains east of the Volga River in the Early Holocene, whereas M. leucurus expanded its distribution westwards, starting ~2500 years ago. Thereafter, M. leucurus rapidly replaced M. meles in the region between the Urals and the Volga, resulting in the present-day boundary in the Volga–Kama region. Among the 12 haplotypes detected, three for M. leucurus and four for M. meles were identical to partial sequences of haplotypes detected in modern populations, indicating considerable genetic continuity between Holocene and modern populations.

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V. A. Solovyev

Spatial structure in European moose (Alces alces): genetic data reveal a complex population history

The contemporary genetic pattern of European moose is shaped by postglacial recolonization, bottlenecks, and the geographical barrier of the Baltic Sea

Variation in pancreatic amylase gene copy number among Eurasian badgers (Carnivora, Mustelidae, Meles) and its relationship to diet

Improving the efficiency of the control system of electrified sprinkling machine of cir-cular actions "Cascade"

Holocene changes in the distributions of Asian and European badgers (Carnivora: Mustelidae: Meles) inferred from ancient DNA analysis

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