Genetic evidence of extensive introgression of short-tailed ground squirrel genes in a hybridization zone of Spermophilus major and S. erythrogenys, inferred from sequencing of the mtDNA cytochrome b gene

We have completely sequenced the mtDNA cytochrome b gene of ground squirrels from the zone of overlapping ranges of Spermophilus major and S. erythrogenys in the Tobol-Ishim interfluve, which is a putative hybridization zone of these species. The results of the sequencing showed extensive introgression of mtDNA genes of the short-tailed ground squirrel S. e. brevicauda, whose haplotype had fully replaced the S. major haplotype. All of the ground squirrels from the Tobol-Ishim interfluve had a variant of the S. e. brevicauda mtDNA haplotype that was specific for this zone. On average, 119 substitutions (10.44%) were found between S. major from Ul'yanovsk oblast and S. e. brevicauda from the northern Kazakhstan, the mean genetic distance (D) between them being 0.115, which conforms to the corresponding parameters for the S. e. brevicauda-S. pygmaeus pair (122 substitutions, D = 0.118). Insignificant differences (seven substitutions, D = 0.043) were found between the S. major and S. pygmaeus haplotypes, which suggest that these species have similar mitochondrial haplotypes. Five to ten nucleotide substitutions (0.44–0.88%) were detected between the animals from the Tobol-Ishim interfluve and S. e. brevicauda. The mtDNA haplotype divergence D within the genus Spermophilus (ten species) for all codon positions ranged from 0.035 to 0.158. Phylogenetic reconstructions (MP, ML, and NJ trees) showed two well-differentiated clusters with high bootstrap support. However, there was different branching topology within the cluster and their species composition varied. The maximum likelihood tree, ML, differentiating the species into two subgenera, Citellus and Colobotis, most reliably reflected taxonomic relationships of the species from the genus Spermophilus, inferred from morphological and genetic biochemical data. The morphologically pure S. major (subgenus Colobotis) animals, used in the analysis, proved to carry the haplotype of another species, S. pygmaeus (subgenus Citellus). This poses a question on the existence of the specific haplotype of S. major, the reason of its replacement by haplotype of other species, and possible consequences of this phenomenon for survival of the species.     

Genetic evidence of hybridization between paletailed Spermophilus pallidicauda Satunin, 1903 and alashanic S. alaschanicus Buchner, 1888 ground squirrels in Mongolia

Analysis of Spermophilus pallidicauda Satunin, 1903 from three localities in Mongolia using cytogenetic characteristics (chromosome number and morphology, as well as the number and localization of nucleolus organizer regions) revealed the presence of a first-generation (F1) hybrid animal (2n = 36), of the paletailed S. pallidicauda (2n = 34) and alashanic S. alaschanicus (2n = 38) ground squirrels in the contact zone of their ranges. Analysis of nuclear DNA from ten ground squirrels (from a set of karyologically examined animals) by RAPD-PCR with eight oligonucleotide primers (OPA10, OPA12, OPC02, OPC5, OPC08, OPC09, OPC12, and OPD05) revealed four hybrids in two sites. with one of the hybrid being F1. The position of the hybrids in phylogenetic reconstructions made for the subgenera Citellus and Colobotis species varied depending on the method used. In the UPGMA dendrogram of genetic similarity hybrids formed their own subcluster with high bootstrap index (949) within the cluster of Citellus species. In the NJ phylogenetic tree, hybrids also clustered with high boot-strap index (886). But in this case they were located between the Colobotis and Citellus species clusters. The mtDNA haplotypes of the three hybrids examined were highly similar to the Colobotis ground squirrels, albeit in phylogenetic reconstructions they were placed between Colobotis and Citellus. The sites of the hybrid animals identification were located more than 200 km apart. Hence, the contact zone between the S. pallidicauda and S. alaschanicus can encompass a large territory in Mongolia.     

A search for Y-chromosomal species-specific markers and their use for hybridization analysis in ground squirrels

In four ground squirrel species from the Volga region-yellow (Spermophilus fulvus), russet (S. major), little (S. pygmaeus), and speckled (S. suslicus)--four hybridization variants (major/fulvus, major/pygmaeus, major/suslicus, and pygmaeus/suslicus) have been reliably described. Earlier we have shown that populations of S. major from the Volga region were characterized by wide introgression of mtDNA from S. fulvus and S. pygmaeus, which probably, resulted from ancient hybridization. In this study, the same populations were used to analyze the introgression of the Y chromosome, which (unlike mtDNA) is paternally inherited. Three genes, ZfY, SRY, and SmcY were tested as Y-chromosomal candidate markers. It was demonstrated that Y chromosome of ground squirrels lacked the ZfY gene, while its homologous structure, ZfY(X), was presumably linked to the X chromosome. The SRY region examined was rather conservative. In particular, the sequences determined in S. major and S. fulvus were identical, while three out of four substitutions found in S. pygmaeus were located in the coding region. The SmcY gene was found to be the most suitable marker, providing distinguishing of all of the four ground squirrel species by nine nucleotide substitutions. Introgression at the Y chromosome was observed only in two cases: in one S. major individual (out of 51 phenotypically pure animals) caught in the major/fulvus sympatry zone, and in four (one litter) out of fourteen S. fulvus individuals caught in close vicinity of the sympatry zone of these two species. Among 28 S. pymaeus and 9 S. suslicus individuals, no foreign SmcY genes were detected. Two colonies of the "hybrid accumulation" type were examined with eight major/suslicus hybrids analyzed in the first and seventeen major/fulvus hybrids in the second colony. The prevalence of the S. major paternal lineages was observed in both colonies (87.5 and 82.4%, respectively). The data obtained suggest that compared to wide mtDNA introgression, introgression of Y chromosome in the Volga region ground squirrels is statistically significantly less frequent event.     

RAPD-PCR analysis of ground squirrels from the Tobol-Ishim interfluve: evidence for interspecific hybridization between ground squirrel species Spermophilus major and S. erythrogenys

Populations of two ground squirrel species, Spermophilus major and S. erythrogenys, from the interfluvial area of the Tobol and Ishim rivers, where their ranges overlap, have been examined using RAPD-PCR. We have identified 253 loci, which included taxon-specific markers for S. major and S. erythrogenys as well as markers for geographic populations. Estimation of genetic diversity and construction of phylogenetic relationships were performed using software programs POPGENE, TEPGA, and TREECON. In all, based on morphological traits, animals from the Tobol-Ishim interfluve were assigned to the two parental morphotypes and showed similar levels of genetic variability (H, n(a), n(e)). However, the total polymorphism level proved to be higher in ground squirrels with the major morphotype (P = 40.32%, P95 = 27.27%) than in animals with the erythrogenys morphotype (P = 32%, P95 = 22.13%). Nevertheless, the number of rare alleles was high in both cases, constituting about 70% of the total number. By contrast, interpopulation differentiation was considerably higher in S. major (6 = 0.50) than in S. erythrogenys (delta = 0.41). The genetic differentiation between local samples from the Tobol-Ishim interfluvial area was lower than that between the parental species. A significant part of the genetic diversity of the species examined and animals from the zone of overlapping ranges was accounted for by intrapopulation variability. Animals from the northern and southern parts of the Tobol-Ishim interfluve were characterized by the core traits of S. major and S. erythrogenys, respectively, falling into two distinct clusters in the UPGMA and NJ reconstructions. In addition to three hybrid individuals, identified by the bioacoustic method, three hybrid animals were distinguished using RAPD analysis. These animals earlier were thought to be "pure" species and formed their own clusters in phylogenetic reconstructions. Thus, the RAPD-PCR results directly showed the existence of stable hybridization (20% genetic hybrids) between S. major and S. erythrogenys in the Tobol-Ishim interfluvial area, which is more extensive than inferred previously from morphological and bioacoustic data.     

A search for Y-chromosomal species-specific markers and their use for hybridization analysis in ground squirrels (Spermophilus: Rodentia, sciuridae)

In four ground squirrel species from the Volga region—yellow (Spermophilus fulvus), russet (S. major), little (S. pygmaeus), and speckled (S. suslicus)—four hybridization variants (major/fulvus, major/pygmaeus, major/suslicus, and pygmaeus/suslicus) have been reliably described. Earlier we have shown that populations of S. major from the Volga region were characterized by wide introgression of mtDNA from S. fulvus and S. pygmaeus, which probably, resulted from ancient hybridization [5]. In this study, the same populations were used to analyze the introgression of the Y chromosome, which (unlike mtDNA) is paternally inherited. Three genes, ZfY, SRY, and SmcY were tested as Y-chromosomal candidate markers. It was demonstrated that Y chromosome of ground squirrels lacked the ZfY gene, while its homologous structure, ZfY(X), was presumably linked to the X chromosome. The SRY region examined was rather conservative. In particular, the sequences determined in S. major and S. fulvus were identical, while three out of four substitutions found in S. pygmaeus were located in the coding region. The SmcY gene was found to be the most suitable marker, providing distinguishing of all of the four ground squirrel species by nine nucleotide substitutions. Introgression at the Y chromosome was observed only in two cases: in one S. major individual (out of 51 phenotypically pure animals) caught in the major/fulvus sympatry zone, and in four (one litter) out of fourteen S. fulvus individuals caught in close vicinity of the sympatry zone of these two species. Among 28 S. pymaeus and 9 S. suslicus individuals, no foreign SmcY genes were detected. Two colonies of the “hybrid swarm” type were examined with eight major/suslicus hybrids analyzed in the first and seventeen major/fulvus hybrids in the second colony. The prevalence of the S. major paternal lineages was observed in both colonies (87.5 and 82.4%, respectively). The data obtained suggest that compared to wide mtDNA introgression, introgression of Y chromosome in the Volga region ground squirrels is statistically significantly less frequent event.     

Molecular genetic relationships among east Palearctic ground squirrels of the genus Spermophilus (Sciuridae, Rodentia)

Genetic diversity in the four east Palearctic ground squirrel species of the genus Spermophilus--S. undulatus, S. parryi (subgenus Urocitellus), S. dauricus, and S. relictus (subgenus Citellus)--- was investigated using RAPD PCR with ten random primers. Siberian chipmunk, Tamias sibiricus, was used as an outgroup. Molecular markers for different taxonomic ranks were identified, including those for the genera Spermophilus and Tamias, subgenera Urocitellus and Citellus, as well as for each of the four species, S. undulatus, S. parryi, S. dauricus, and S. relictus. For the ground squirrel species and subgenera, genetic differentiation indices (H(t), H(s), D(st), G(st), Nm, and D) were calculated. In addition, for these groups the NJ phylogenetic reconstructions and UPGMA dendrograms of genetic similarity of the individuals and combined populations were constructed. Comparative molecular genetic analysis revealed a high genetic differentiation between S. undulates, S. dauricus, S. relicts, and S. parryi (G(st) = 0.58 to 0.82; D = 0.53 to 1.06), along with a low level of genetic differentiation of the subgenera Citellus and Urocitellus (G(st) = 0.33; D = 0.27), distinguished in accordance with the existing taxonomic systems of the genus Spermophilus.     

Study of hybridization in four species of ground squirrels (spermophilus: Rodentia,Sciuridae) by molecular genetic methods

Four species of ground squirrel--yellow (Spermophilus fulvus), russet (S. major), small (S. pygmaeus), and spotted (S. suslicus)--occur in the Volga region. Between S. major and S. pigmaeus, S. major and S. fulvus, and S. major and S. suslicus, sporadic hybridization was reported. Using sequencing and restriction analysis, we have examined the mtDNA C region in 13 yellow, 60 russet, 61 small, 45 spotted ground squirrels, and 9 phenotypic hybrids between these species. It was shown that 43% of S. major individuals had "alien" mitotypes typical of S. fulvus and S. pygmaeus. Alien mitotypes occurred both within and outside sympatric zones. No alien mitotypes were found in 119 animals of the other three species, which suggests that only one parental species (S. major) predominantly participates in backcrosses. Phenotypic hybrids S. fulvus x S. major and S. major x S. pygmaeus) were reliably identified using RAPD-PCR of nuclear DNA. However, we could find no significant traces of hybridization in S. major with alien mitotypes. Analysis of p53 pseudogenes of S. major and S. fulvus that were for the first time described in the present study produced similar results: 59 out of 60 individuals of S. major (including S. major with S. fulvus mitotypes) had only the pseudogene variant specific for S. major. This situation is possible even at low hybridization frequencies (less than 1% according to field observations and 1.4 to 2.7% according to nuclear DNA analysis) if dispersal of S. major from the sympatric zones mainly involved animals that obtained alien mtDNA via backcrossing. The prevalence of animals with alien mitotypes in some S. major populations can be explained by the founder effect. Further studies based on large samples are required for clarifying the discrepancies between mitochondrial and nuclear DNA data.     

RAPD-PCR Analysis of Ground Squirrels from the Tobol-Ishim Interfluve: Evidence for Interspecific Hybridization between Ground Squirrel Species <Emphasis Type="Italic">Spermophilus major</Emphasis> and <Emphasis Type="Italic">S. erythrogenys</Emphasis>

Populations of two ground squirrel species, Spermophilus major and S. erythrogenys, from the interfluvial area of the Tobol and Ishim rivers, where their ranges overlap, have been examined using RAPD-PCR. We have identified 253 loci, which included taxon-specific markers for S. major and S. erythrogenys as well as markers for geographic populations. Estimation of genetic diversity and construction of phylogenetic relationships were performed using software programs POPGENE, TEPGA, and TREECON. In all, based on morphological traits, animals from the Tobol-Ishim interfluve were assigned to the two parental morphotypes and showed similar levels of genetic variability (H, n_a, n_e). However, the total polymorphism level proved to be higher in ground squirrels with the major morphotype (P = 40.32%,P₉₅ = 27.27%) than in animals with the erythrogenys morphotype (P = 32%,P₉₅ = 22.13%). Nevertheless, the number of rare alleles was high in both cases, constituting about 70% of the total number. Interpopulation differentiation was considerably higher in S. major δ = 0.50) than in S. erythrogenys δ = 0.41). The genetic differentiation between local samples from the Tobol-Ishim interfluvial area was lower than that between the parental species. A significant part of the genetic diversity of the species examined and animals from the zone of overlapping ranges was accounted for by intrapopulation variability. Animals from the northern and southern parts of the Tobol-Ishim interfluve were charac-terized by the core traits of S. major and S. erythrogenys, respectively, falling into two distinct clusters in the UPGMA and NJ reconstructions. In addition to three hybrid individuals, identified by the bioacoustic method, three hybrid animals were distinguished using RAPD analysis. These animals earlier were thought to be “pure” species and formed their own clusters in phylogenetic reconstructions. Thus, the RAPD-PCR results directly showed the existence of stable hybridization (20% genetic hybrids) between S. major and S. erythrogenys in the Tobol-Ishim interfluvial area, which is more extensive than inferred previously from morphological and bioacoustic data.     

EVOLUTIONARY RELATIONSHIPS AMONG COLONIES OF COLUMBIAN GROUND SQUIRRELS AS SHOWN BY MITOCHONDRIAL DNA

Mitochondrial DNA (mtDNA) from 71 Columbian ground squirrels (Spermophilus columbianus) collected in 12 locations in western Canada were assayed for restriction-site variation with 10 endonucleases. Five of these endonucleases revealed variant patterns, and the composite genotypes were used to develop a linear transformation series among the mtDNA genotypes. Two of the four clones had a wide distribution, while the remaining two clones were geographically restricted. The mtDNA of Columbian ground squirrels was also compared to two other species of Sciuridae: Richardson's ground squirrels (S. richardsonii) and Arctic ground squirrels (S. parryii). Calculation of divergences from fragment length and restriction-site data indicated that Arctic ground squirrels and Richardson's ground squirrels were more closely related to each other than either was to Columbian ground squirrels. The transformation series among clones within the Columbian ground squirrels was rooted using Richardson's and Arctic ground squirrels as out-groups. From these data, we conclude that the colonization by female founders of Columbian ground squirrel populations occurred after deglaciation along the eastern ranges of the Rocky Mountains, while colonies on the western ranges may have been present before extensive deglaciation occurred, having existed in refugia in northwestern Alberta.     

Multiple unique Cryptosporidium isolates from three species of ground squirrels (Spermophilus beecheyi, S. beldingi, and S. lateralis) in California

Phylogenetic analyses of the 18S small-subunit (SSU) rRNA and Cryptosporidium oocyst wall protein (COWP) genes indicate that multiple unique Cryptosporidium isolates are shed by separate species of Spermophilus ground squirrels (S. beecheyi, S. beldingi, and S. lateralis) throughout California, despite some squirrel populations' being geographically isolated. The data support our assertion that Spermophilus squirrels shed novel Cryptosporidium species.     

The intraspecies variability of <Emphasis Type="Italic">Spermophilus relictus</Emphasis> sensu lato Kaschkarov 1923 (Sciuridae,Rodentia)

The intraspecies variability of Spermophilus relictus sensu lato was studied based on 27 measurements of skulls from 67 specimens of relict ground squirrels (S. relictus) and 66 specimens of Tien Shan ground squirrels (S. ralli), as well as six specimens of the relict ground squirrel from the Gissar Ridge (Tien Shan). A colorimetric analysis of skins of relict ground squirrels (19 specimens, including three individuals from the Gissar Ridge) and Tien Shan ground squirrels (19 specimens) was made. Significant intraspecies variability was found in the relict and Issyk-Kul ground squirrels, whereas the interspecies differences were small, raising questions about the species independence of the Tien Shan ground squirrel (S. ralli).     

Implications of Hybridization,NUMTs, and Overlooked Diversity for DNA Barcoding of Eurasian Ground Squirrels

The utility of DNA Barcoding for species identification and discovery has catalyzed a concerted effort to build the global reference library; however, many animal groups of economical or conservational importance remain poorly represented. This study aims to contribute DNA barcode records for all ground squirrel species (Xerinae, Sciuridae, Rodentia) inhabiting Eurasia and to test efficiency of this approach for species discrimination. Cytochrome c oxidase subunit 1 (COI) gene sequences were obtained for 97 individuals representing 16 ground squirrel species of which 12 were correctly identified. Taxonomic allocation of some specimens within four species was complicated by geographically restricted mtDNA introgression. Exclusion of individuals with introgressed mtDNA allowed reaching a 91.6% identification success rate. Significant COI divergence (3.5–4.4%) was observed within the most widespread ground squirrel species (Spermophilus erythrogenys, S. pygmaeus, S. suslicus, Urocitellus undulatus), suggesting the presence of cryptic species. A single putative NUMT (nuclear mitochondrial pseudogene) sequence was recovered during molecular analysis; mitochondrial COI from this sample was amplified following re-extraction of DNA. Our data show high discrimination ability of 100 bp COI fragments for Eurasian ground squirrels (84.3%) with no incorrect assessments, underscoring the potential utility of the existing reference librariy for the development of diagnostic ‘mini-barcodes’.     

On the growth of incisors in ground squirrels (Spermophilus) during hibernation

The growth of incisors was studied in two Spermophilus parryii and two S. undulatus ground squirrels with DS-1922L temperature data loggers implanted in the peritoneal cavity, which were kept under laboratory conditions. Daily increments on the incisors surface were similar to those in other species of ground squirrels, but they were less distinct and regular than in wild-living conspecific individuals from the same region. Two S. parryii and one S. undulatus ground squirrels entered hibernation and successfully overwintered. Despite some anomalies in their incisors, changes in body temperature during hibernation (recorded by the data loggers) had an effect on the pattern of their growth, resulting in the formation of a “hibernation zone” on the incisor surface. The number of narrow increments within this zone roughly corresponded to the number of alternating periods of torpor and euthermia during hibernation. This could be regarded as evidence that the incisors of the animals studied continued growing throughout hibernation, including the period of deep hibernation, with the rhythm of their growth coinciding with the rhythm of changes in body temperature. The effect of spontaneous trauma of an upper incisor on the growth of other incisors is described.     

Spectral sensitivity of ground squirrel cones measured with ERG flicker photometry

Summary Ground squirrels have dichromatic color vision. The spectral sensitivities of the two classes of cones found in the retinas of two species of ground squirrel were measured using ERG flicker photometry. The spectral sensitivity curves for these cone classes were closely fit by curves from wavelength-dependent visual pigment nomograms. One cone type had an average peak sensitivity of 518.9 nm (California ground squirrels,Spermophilus beecheyi) or 517.0 nm (thirteen-lined ground squirrels,Spermophilus tridecemlineatus). The second type of cone found in these ground squirrels had an average peak sensitivity of 436.7 nm. An examination of the variation in spectral sensitivity among individual animals suggests that the sensitivity peaks for the middle-wavelength cone cover a range of not greater than 4 nm.     

Delayed effect of pinealectomy on hibernation of the golden-mantled ground squirrel

Pinealectomy or radical sham pinealectomy were performed on adult golden-mantled ground squirrels,Spermophilus (=Citellus) lateralis, approximately 1 month prior to the date of normal winter emergence. The first hibernatory period and subsequent active season were not different in either of the operated groups from intact animals. However, although the initiation of the second hibernatory period was not affected in the pinealectomized animals, this group failed to show the progressive increase in the length of heterothermic bouts that is characteristic of normal hibernation. Also, terminal arousal occurred approximately 6 weeks earlier in the second year after pinealectomy. Male squirrels showed a corresponding time compression in their annual gonadal cycle, as was assessed by testicular state.These results suggest that the pineal gland of the golden-mantled ground squirrel is involved in the expression of the annual hibernatory cycle. In the absence of the pineal gland the adult of this species is unable to sustain the normal depth and duration of hibernation in the second over-wintering period following pinealectomy.We have carried out additional experiments with young, laboratory-bornS. lateralis and with field-caught, adultS. richardsonii. The results of these studies also are described in this paper.Presented at the Ninth International Congress of Biometeorology, 23 Sept – 1 Oct 1981, Osnabrück and Hohenheim, FRG.     

Genetic evidence of hybridization between paletailed Spermophilus pallidicauda Satunin, 1903 and alashanic S. alaschanicus Büchner, 1888 ground squirrels in Mongolia

Analysis of Spermophilus pallidicauda Satunin, 1903 from three localities in Mongolia using cytogenetic characteristics (chromosome number and morphology, as well as the number and localization of nucleolus organizer regions) revealed the presence of a first-generation (F₁) hybrid animal (2n = 36), of the paletailed S. pallidicauda (2n = 34) and alashanic S. alaschanicus (2n = 38) ground squirrels in the contact zone of their ranges. Analysis of nuclear DNA from ten ground squirrels (from a set of karyologically examined animals) by RAPD-PCR with eight oligonucleotide primers (OPA10, OPA12, OPC02, OPC05, OPC08, OPC09, OPC12, and OPD05) revealed four hybrids in two sites, with one of the hybrid being F₁. The position of the hybrids in phylogenetic reconstructions made for the subgenera Citellus and Colobotis species varied depending on the method used. In the UPGMA dendrogram of genetic similarity hybrids formed their own subcluster with high bootstrap index (949) within the cluster of Citellus species. In the NJ phylogenetic tree, hybrids also clustered with high bootstrap index (886). But in this case they were located between the Colobotis and Citellus species clusters. The mtDNA haplotypes of the three hybrids examined were highly similar to the Colobotis ground squirrels, albeit in phylogenetic reconstructions they were placed between Colobotis and Citellus. The sites of the hybrid animals identification were located more than 200 km apart. Hence, the contact zone between the S. pallidicauda and S. alaschanicus can encompass a large territory in Mongolia.     

Calibrating the molecular clock: estimates of ground squirrel divergence made using fossil and geological time markers

According to 5-Myr-old fossil evidence, ground squirrels within the genus Spermophilus had diverged into subgenera Spermophilus and Otospermophilus by late Miocene times. Radiometric dating has also provided a precise time for the sudden onset of a geological event, occurring 0.725 Myr ago, that initiated the complete and permanent reproductive isolation of two subspecies within the subgenus Otospermophilus. Since these two subspecies (S. beecheyi beecheyi and S. b. douglasii) readily hybridize with each other under laboratory conditions, allopatric subspeciation is unlikely to have occurred prior to 0.725 Myr ago. We employed Nei's model for estimating genetic distance in units which are linear in time, calibrated on the 0.725-Myr- ago date for initiation of S. b. subspeciation, to test its ability to generate a time scale for subgeneric divergence in keeping with the minimum estimate provided by the fossil record. This represents the most valid test to date of the utility of Nei's model for estimating genetic distance in units which are linear in time. Nei's model was found to underestimate this minimum time by 1 Myr, but it approximated this date after correcting values of D for variation in rates of evolution among loci.      

Genetic Differentiation of the Daurian Ground Squirrel <Emphasis Type="Italic">Spermophilus dauricus</Emphasis> Brandt, 1843 according to Variability of the Mitochondrial DNA Control Region

Nucleotide sequences of the mtDNA control region were studied in 64 Daurian ground squirrels of the Spermophilus dauricus dauricus subspecies from 20 localities from the territory of Mongolia and Transbaikalia of the Russian Federation. A large number of slightly different haplotypes were detected. It was found that genetic polymorphism is not associated with geographical variability. It seems that the Kherlen River is not an ecological and geographical barrier for Daurian ground squirrels, while an exchange between Mongolian and Chinese populations probably occurs within the southwest end of the Greater Khingan Range. By comparative analysis of a number of molecular genetic markers, it was found that the mitochondrial genome numbered KR534854 (GenBank NCBI) belongs not to S. dauricus, but to one of the members of the Sciurus genus.     

Genome analysis of ground squirrels of the genus Citellus (Rodentia,Sciuridae) II. DNA sequence organization

The organization of the DNA sequences in five specics of Citellus (C. pygmaeus, C. fulvus, C. major, C. parryi and C. undulatus) was determined from the reassociation kineties of DNA fragments of various lengths and the size distribution of SI-nuclease-resistant duplexes of repetitive DNA. Only 15% of the genome of all the species studied consists of short unique and repeated sequences interspersed with a period less than 2 3 kb, whereas the major part of the genome is occupied by much more extensive sequences of two types, moderately long (3–15 kb) and very long (much more than 15 kb). On the basis of the number of moderately long single-copy sequences the species under study are divided into two groups, coinciding with their division into short-tailed and long-tailed ground squirrels: the short-tailed (C. pygmaeus, C. major and C. fulvus) possess far more such sequences (17–24%) than do the long-tailed ones (C. parryi and C. undulatus) (1–7%). The same division is observed in the amount of very long single-copy sequences. The repeated DNA sequences of Citellus vary widely in size, i.e. from 70 up to some thousands of nucleotide pairs, sequences of more than 1200 nucleotide pairs being most common. In addition, part of the repetitions contain between 70 and 150 base pairs. About one-third of C. parryi repeats (10% of the genome) are characterized by such very short sequences whereas their amont is much less in the other Citellus species (1–4% of the genome).     

Evidence for gene flow in parasitic nematodes between two host species of shrews

We describe the genetic structure of populations of the intestinal nematode Longistriata caudabullata (Trichostrongyloidea: Heligmosomidae), a common parasite of short-tailed shrews (genus Blarina, Insectivora: Soricidae). Parasites and hosts were collected from a transect across a contact zone between two species of hosts, Blarina brevicauda and B. hylophaga, in central North America. An 800-base pairs (bp) fragment of the ND4 mitochondrial DNA (mtDNA) gene was sequenced for 28 worms and a 783-bp fragment of the mtDNA control region was analysed for 16 shrews. Phylogenetic analyses of mtDNA sequences revealed reciprocal monophyly for the shrew species, concordant with morphological diagnosis, and supported the idea that the transect cuts through a secondary contact zone between well-differentiated B. brevicauda and B. hylophaga. In contrast to this pattern, the parasitic nematode mtDNA phylogeny was not subdivided according to host affiliation. Genealogical discordance between parasite and host phylogenies suggests extensive gene flow among parasites across the host species boundary.