Genetic Structure of Oryza rufipogon Griff. Natural Populations in Malaysia: Implications for Conservation and Genetic Introgression of Cultivated Rice

Thirty polymorphic Oryza sativa microsatellite loci (SSRs) were used to study population genetic structure of O. rufipogon Griff. natural populations in Malaysia. A total of 445 alleles were detected with an average of 14.8 alleles per locus in 176 individuals of O. rufipogon sampled from the states of Penang, Kedah, Kelantan and Terengganu where the natural populations are still found. The Kelantan population in the northeast of Peninsular Malaysia had the highest level of genetic diversity as measured by the mean number of alleles per locus, A_a?=?7.67, average number of effective alleles, A_e?=?5.50, percentage of polymorphic loci, P?=?100%, observed heterozygosity, H_o?=?0.631 and expected heterozygosity, H_e?=?0.798. In contrast, the Terengganu population in the east showed the lowest level of genetic diversity measured by the same criteria (A_a?=?4.23, A_e?=?2.10, P?=?100%, H_o?=?0.549 and H_e?=?0.449). Model–based clustering analysis using the STRUCTURE 2.2 program placed all the individuals into 12 clusters that corresponded to the geographic sampling locations. Neighbour-joining tree was constructed based on Nei’s genetic distance to further assess the genetic structure of the O. rufipogon individuals, showed good agreement (93.8%) with the model-based cluster analysis. However, the neighbour-joining tree identified sub-populations that STRUCTURE could not identify. The classification of individuals from the same populations under the same cluster supported the population differentiation. These two analyses seemed to indicate expansion of populations from the northeast of Peninsular Malaysia (Tumpat, Pasir Mas and Kota Bahru, Kelantan) not only to the immediate south of the region i.e. Terengganu but also into the northwest (i.e. Penang and Kedah) with the former being more recent. Oryza rufipogon accession IRGC105491 and O. sativa ssp. indica cultivar MR219, which were included in this study for comparisons with the local wild rice accessions, indicated that introgression of cultivated rice could change genetic composition and affect the population genetic structure of wild rice. This possibility should be carefully considered in plans to conserve this wild rice.     

Genetic Identification of Western Mediterranean Sturgeons and its Implication for Conservation

To date, the only native sturgeon species in Western Europe was believed to be Acipenser sturio. However, this species is currently restricted to the Gironde River (Southern France), and it poses serious difficulties for rearing in captivity and for using in recovery programme. Furthermore, it has been questioned whether A. sturio is in fact the only species within the rivers of Western Europe, as A. naccarii, a species previously considered endemic of the Adriatic region, has been reported from the Iberian Peninsula in recent years. Here, we have used forensic techniques to obtain DNA from several museum specimens of sturgeons caught in the Spanish Guadalquivir River and in other European rivers. We analysed DNA sequences from these specimens for five genetic markers (three nuclear and two mitochondrial regions), which were subsequently compared with sequences obtained from A. sturioand A. naccarii. Our study demonstrates that A. naccarii coexists withA. sturio, from the Adriatic Sea to the Iberian Peninsula, a finding that could be taken into account in future sturgeon recovery programmes in Western Europe.     

Effect of Translocations on the Genetic Structure in Populations of the Red Deer (Cervus elaphus) in Poland

Russian Journal of Genetics - The red deer (Cervus elaphus) has been translocated across Europe, including Poland in order to improve the quality of local populations of the animal. The aim of the...     

Genetic Demographic Structure of Rural Populations of Kyrgyzstan

The genetic demographic parameters of rural populations of Kyrgyzstan have been studied. The rural population of Kyrgyzstan has the following demographic characteristics: (1) it is demographically young (the population mean age is 25–28 years); (2) the sex ratio in reproductive age groups is unfavorable; (3) the fertility is high (5.78–7.68 pregnancies and 4.27–5.20 surviving children per woman of postreproductive age; (4) interethnic marriages are rare (1.0–5.9%), whereas consanguineous marriages are frequent (1.4–12%); (5) Crow's indices are relatively low (I _tot = 0.24–0.29, I _m = 0.05–0.13, I _f = 0.14–0.22); and (6) both male and female contributions of different regions of the republic make unequal contributions to the gametic structure of the population, with the gametic structure varying from generation to generation. Demographic parameters vary in rural populations of different geographic regions and with different ethnic compositions.     

两种濒危水韭植物迁地保护居群的基因流动态及回归重建保育遗传管理策略

采用微卫星分子标记对中华水韭（Isoetessinensis）安徽休宁、浙江建德和东方水韭（I.orientalis）浙江松阳三个孑遗居群的迁地保护居群开展了遗传多样性检测与遗传结构分析。7对多态性微卫星引物在36个迁地保护亚居群的720个样本中共检测到59个等位基因,每位点平均等位基因数（A）为8·43。迁地保护亚居群均维持很高的遗传多样性,多态信息含量（PIC）平均为0·707。迁地保护亚居群间遗传分化较低,遗传分化系数GST仅为0·070,居群间具有较大基因流（Nm=3·59）。单因素方差分析发现水韭孢子或孢子体在沿主要水流方向上的长距离传播能力要强于弱水流方向上的短距离传播能力,水流动态对水韭植物的基因流有重要影响。这与UPGMA聚类分析中迁地保护亚居群按邻近位置或水流相通程度优先聚类的结果相一致,水流所带动的强大基因流导致了不同孑遗居群来源的迁地保护亚居群间的遗传混杂。建议在开展水韭植物的迁地保护或回归自然重建时,对具有地方适应分化或者显著性进化的水韭植物居群应相互隔离而不宜配置在一起,以避免远交衰退的遗传风险。     

壮族Y染色体分型及其内部遗传结构

壮族是中国最大的少数民族,与东南亚的泰老族群关系密切,在东亚人群的遗传结构研究中地位非常特殊。本研究调查了壮族各个支系的Y染色体多样性,通过主成分分析、聚类分析和分子方差分析,揭示壮族的内部父系遗传结构。结果发现,壮族的主要Y染色体单倍群为O%＊,O2a,O1。传统的对壮族按方言分为南北二组的分类方法在遗传上并没有依据,壮族支系体现出从东往西的梯度变化过程。这说明壮族的结构中有几个层次,最早的成分普遍出现在各个支系中,第二层是由东部来的百越核心成分,第三层是北方来的汉族成分。壮族内部遗传结构的分析将有助于对东亚人群的南来起源的研究。     

Y-chromosome Genotyping and Genetic Structure of Zhuang Populations

Zhuang, the largest ethnic minority population in China, is one of the descendant groups of the ancient Bai-Yue. Linguistically, Zhuang languages are grouped into northern and southern dialects. To characterize its genetic structure, 13 East Asian-specific Y-chromosome biallelic markers and 7 Y-chromosome short tandem repeat (STR) markers were used to infer the haplogroups of Zhuang populations. Our results showed that O*, O2a, and O1 are the predominant haplogroups in Zhuang. Frequency distribution and principal component analysis showed that Zhuang was closely related to groups of Bai-Yue origin and therefore was likely to be the descendant of Bai-Yue. The results of principal component analysis and hierarchical clustering analysis contradicted the linguistically derived north-south division. Interestingly, a west-east clinal trend of haplotype frequency changes was observed, which was supported by AMOVA analysis that showed that between-population variance of east-west division was larger than that of north-south division. O* network suggested that the Hongshuihe branch was the center of Zhuang. Our study suggests that there are three major components in Zhuang. The O* and O2a constituted the original component; later, O1 was brought into Zhuang, especially eastern Zhuang; and finally, northern Han population brought O3 into the Zhuang populations.     

Genetic Structure of Remnant Populations and Cultivars of Switchgrass (Panicum virgatum) in the Context of Prairie Conservation and Restoration

Switchgrass (Panicum virgatum L.) is a dominant, perennial C₄ grass of North American tallgrass prairies with cultivars that are widely used in grassland restoration, pastures, and landscaping. However, these cultivars may be genetically dissimilar to small, remnant populations, raising concerns about altered genetic composition of native populations through gene flow. To address this issue on a local scale in Ohio and Illinois, we used microsatellite markers to characterize genetic diversity and differentiation of 10 remnant prairie populations (5 in each state) and 8 common cultivars. The bulk of genetic variation was found to reside within rather than among wild populations, consistent with the outcrossing breeding system of switchgrass. Genetic diversity was similar among the remnant populations despite large differences in area (approximately 2–2,590 ha), highlighting the importance of small native populations as reservoirs of variation and potential seed sources for prairie restoration. Cultivars generally had similar levels of variation to the wild populations, but we found clear genetic dissimilarity between wild and cultivated gene pools (especially for Kanlow, but also Trailblazer, Blackwell, Dacotah, Summer, and Sunburst cultivars). This suggests that using cultivars in local prairie restoration efforts may alter the genetic composition of wild populations. Whether such changes are deemed as negative depends on the cultivar under consideration and specific conservation goals for preserving native switchgrass populations. Patterns of genetic variation in remnant prairie populations and potential cultivar sources can be used to develop guidelines for restoration as well as future planting of cultivars for biofuels.     

Genetic Diversity and Structure in Austrocedrus chilensis Populations: Implications for Dryland Forest Restoration

In South America, 94% of dry‐temperate lands present some degree of environmental degradation, highlighting the need for ecological restoration. We analyzed geographic patterns of genetic variation in Austrocedrus chilensis, a dominant conifer of the steppe‐forest ecotone in the eastern Andes, to examine its potential for restoration. We sampled 67 locations in Argentina and estimated genetic parameters to determine the effects of historical factors affecting diversity, together with inbreeding and gene flow, using 12 allozyme loci. Genetic diversity decreased southwards in eastern populations, which are marginal for the range of the species and patchily distributed, while high genetic admixture was detected in continuous western populations, possibly reflecting postglacial migrations from northern and eastern sources. Higher inbreeding (F_IS > 0.14) was recorded in northern compared with southern populations, attributed to the impact of recent bottlenecks resulting from anthropogenic fires. Gene flow was found to be moderate overall (F_ST = 0.12). The implications of these results for restoration actions focusing on Austrocedrus were explored. Relatively small, inbred yet genetically diverse northern populations should be the subject of passive restoration efforts, while experimental common gardens should be established toward the south, to support active restoration approaches. This illustrates how ahead of time information on patterns of genetic variation can support restoration efforts for dryland tree species.     

Genetic Structure of Daphnia galeata Populations in Eastern China

This study presents the first examination of the genetic structure of Daphnia longispina complex populations in Eastern China. Only one species, D. galeata, was present across the eight investigated lakes; as identified by taxon assignment using allelic variation at 15 microsatellite loci. Three genetically differentiated D. galeata subgroups emerged independent of the type of statistical analysis applied. Thus, Bayesian clustering, discriminant analysis based on results from factorial correspondence analysis, and UPGMA clustering consistently showed that populations from two neighbouring lakes were genetically separated from a mixture of genotypes found in other lakes, which formed another two subgroups. Clonal diversity was high in all D. galeata populations, and most samples showed no deviation from Hardy-Weinberg equilibrium, indicating that clonal selection had little effect on the genetic diversity. Overall, populations did not cluster by geographical origin. Further studies will show if the observed pattern can be explained by natural colonization processes or by recent anthropogenic impact on predominantly artificial lakes.     

华山新麦草自然居群的遗传结构和种内遗传多态性研究

华山新麦草为我国特有种,公分布在陕西华山,应用5种酶系统共13个基因位点对采自华山13个亚居群的华山新麦草进行等位酶分析,研究结果发现,多态性位点的比例（P）为69％,个位点等位基因的平均数（A）为1．8,平均每个位点的预期杂合性（He)为0．344,Simpson指数为0．998,证明华山新麦草居群内有较高的遗传多态性和克隆多样性,固定指数（F）显示有意义的负值（－0．252),预期的随机交配相比较,居群内有过多的杂合体,这可能与华山新麦草的交酸系统和繁育方式有关,平均的遗传距离为0．046（变化范围：0－0．139）,大约有91％的遗传变异存在于亚居群内,应用间接法测得华山新麦草自然居群间的基因流（Nm)为2．77,明显你于一般风媒传粉植物（5．24）,暗示华山新麦草自然居群的基因流水平似乎正处于一种临界状太,有进一步分化的潜能,但受多种因素的影响。     

Host Movement and the Genetic Structure of Populations of Parasitic Nematodes

Mitochondrial DNA (mtDNA) sequence data were used to compare the population genetic structures of five species of parasitic nematodes from three different hosts: Ostertagia ostertagi and Haemonchus placei from cattle, H. contortus and Teladorsagia circumcincta from sheep, and Mazamastrongylus odocoilei from white-tailed deer. The parasites of sheep and cattle showed a pattern consistent with high gene flow among populations. The parasite of deer showed a pattern of substantial population subdivision and isolation by distance. It appears that host movement is an important determinant of population genetic structure in these nematodes. High gene flow in the parasites of livestock also indicates great opportunity for the spread of rare alleles that confer resistance to anthelmintic drugs. All species, including the parasite of deer, had unusually high within-population diversities (averages of 0.019-0.027 substitutions per site between pairs of individuals from the same population). Large effective population sizes (Ne), perhaps in combination with rapid mtDNA evolution, appear to be the most likely explanation for these high within-population diversities.     

中国14个民族红细胞血型座位的遗传分化

根据中国13个人口逾百万的民族及台湾高山族的红细胞血型座位的基因频率,分析了各血型系统的分化程度。结果表明,中国人群在MNSs系统上的分化十分显著。对各民族间的亲缘关系分析表明,汉族、朝鲜族、蒙古族、回族,满族和藏族等北方民族首先聚集在一起,侗族、高山族、壮族和彝族等聚集在一起,然后白族与南北两大人集聚集在一起,最后才是维吾尔族与其它人群相聚。本文以华北汉族作为蒙古人种的代表,探讨了世界上三大人种间的遗传关系,结果表明,黄种人与黑种人之间的遗传差异最小,而黑种人与白种人之间的遗传差异最大。根据基因分化系数(G_(ST))和Shannon信息测度(H),中国民族间的遗传差异均仅占中国人总遗传变异量的2％左右,这说明,绝大部分遗传变异存在于各民族之内。     

The Genetic Structure of Staphylococcus aureus Populations from the Southwest Pacific

The genetic structure of Staphylococcus aureus populations sampled from diverse regions of the globe have been the subject of numerous investigations. Here we describe the structure of S. aureus populations collected from the Southwest Pacific. Multi-locus sequence typing was performed on 467 isolates obtained from people with nasal colonization or bacteremia in Auckland (NZ), and patients predominantly affected by skin and soft tissue infection in Samoa, Fiji and Tonga. The predominant sequence types (STs) varied between Auckland (ST5), Fiji (ST30), and Samoa (ST1), however, the overall genetic diversity within each region did not differ significantly between locations. Divergent Clonal Complex 75 (CC75) strains were isolated in Auckland and Fiji. When diversity of the Southwest Pacific populations was compared with those previously described from Asia, Europe, North America and Africa no significant differences were detected. With the exception of CC75 strains, the global collection of S. aureus encompasses relatively little diversity, with novel STs arising locally from a small number of widespread lineages.     

Genetic Structure of Qiangic Populations Residing in the Western Sichuan Corridor

The Qiangic languages in western Sichuan (WSC) are believed to be the oldest branch of the Sino-Tibetan linguistic family, and therefore, all Sino-Tibetan populations might have originated in WSC. However, very few genetic investigations have been done on Qiangic populations and no genetic evidences for the origin of Sino-Tibetan populations have been provided. By using the informative Y chromosome and mitochondrial DNA (mtDNA) markers, we analyzed the genetic structure of Qiangic populations. Our results revealed a predominantly Northern Asian-specific component in Qiangic populations, especially in maternal lineages. The Qiangic populations are an admixture of the northward migrations of East Asian initial settlers with Y chromosome haplogroup D (D1-M15 and the later originated D3a-P47) in the late Paleolithic age, and the southward Di-Qiang people with dominant haplogroup O3a2c1*-M134 and O3a2c1a-M117 in the Neolithic Age.     

Low Genetic Variation in the Heath Hen Prior to Extinction and Implications for the Conservation of Prairie-Chicken Populations

Low genetic variation is often considered to contribute to the extinction of species when they reach small population sizes. In this study we examined the mitochondrial control region from museum specimens of the Heath Hen (Tympanuchus cupido cupido), which went extinct in 1932. Today, the closest living relatives of the Heath Hen, the Greater (T. c. pinnatus), Attwater’s (T. c. attwateri) and Lesser (T. pallidicinctus) Prairie-chicken, are declining throughout most of their range in Midwestern North America, and loss of genetic variation is a likely contributor to their decline. Here we show that 30 years prior to their extinction, Heath Hens had low levels of mitochondrial genetic variation when compared with contemporary populations of prairie-chickens. Furthermore, some current populations of Greater Prairie-chickens are isolated and losing genetic variation due to drift. We estimate that these populations will reach the low levels of genetic variation found in Heath Hens within the next 40 years. Genetic variation and fitness can be restored with translocation of individuals from other populations; however, we also show that choosing an appropriate source population for translocation can be difficult without knowledge of historic population bottlenecks and their effect on genetic structure.