Functional gametophytic self-incompatibility in a peripheral population of Solanum peruvianum (Solanaceae)

The transition from self-incompatibility to self-compatibility is a common transition in angiosperms often reported in populations at the edge of species range limits. Geographically distinct populations of wild tomato species (Solanum section Lycopersicon (Solanaceae)) have been described as polymorphic for mating system with both self-incompatible and self-compatible populations. Using controlled pollinations and sequencing of the S-RNase mating system gene, we test the compatibility status of a population of S. peruvianum located near its southern range limit. Pollinations among plants of known genotypes revealed strong self-incompatibility; fruit set following compatible pollinations was significantly higher than following incompatible pollinations for all tested individuals. Sequencing of the S-RNase gene in parents and progeny arrays was also as predicted under self-incompatibility. Molecular variation at the S-RNase locus revealed a diverse set of alleles, and heterozygosity in over 500 genotyped individuals. We used controlled crosses to test the specificity of sequences recovered in this study; in all cases, results were consistent with a unique allelic specificity for each tested sequence, including two alleles sharing 92% amino-acid similarity. Site-specific patterns of selection at the S-RNase gene indicate positive selection in regions of the gene associated with allelic specificity determination and purifying selection in previously characterized conserved regions. Further, there is broad convergence between the present and previous studies in specific amino-acid positions inferred to be evolving under positive selection.     

Population genetic structure and evolutionary history of Psammochloa villosa (Trin.) Bor (Poaceae) revealed by AFLP marker

Psammochloa villosa is an ecologically important desert grass that occurs in the Inner Mongolian Plateau where it is frequently the dominant species and is involved in sand stabilization and wind breaking. We sought to generate a preliminary demographic framework for P. villosa to support the future studies of this species, its conservation, and sustainable utilization. To accomplish this, we characterized the genetic diversity and structure of 210 individuals from 43 natural populations of P. villosa using amplified fragment length polymorphism (AFLP) markers. We obtained 1,728 well‐defined amplified bands from eight pairs of primers, of which 1,654 bands (95.7%) were polymorphic. Results obtained from the AFLPs suggested effective alleles among populations of 1.32, a Nei''s standard genetic distance value of 0.206, a Shannon index of 0.332, a coefficient of gene differentiation (G _ST) of 0.469, and a gene flow parameter (Nm) of 0.576. All these values indicate that there is abundant genetic diversity in P. villosa, but limited gene flow. An analysis of molecular variance (AMOVA) showed that genetic variation mainly exists within populations (64.2%), and we found that the most genetically similar populations were often not geographically adjacent. Thus, this suggests that the mechanisms of gene flow are surprisingly complex in this species and may occur over long distances. In addition, we predicted the distribution dynamics of P. villosa based on the spatial distribution modeling and found that its range has contracted continuously since the last interglacial period. We speculate that dry, cold climates have been critical in determining the geographic distribution of P. villosa during the Quaternary period. Our study provides new insights into the population genetics and evolutionary history of P. villosa in the Inner Mongolian Plateau and provides a resource that can be used to design in situ conservation actions and prioritize sustainable utilization.     

Population structure and genetic differentiation associated with breeding history and selection in tomato (Solanum lycopersicum L.)

Tomato (Solanum lycopersicum L.) has undergone intensive selection during and following domestication. We investigated population structure and genetic differentiation within a collection of 70 tomato lines representing contemporary (processing and fresh-market) varieties, vintage varieties and landraces. The model-based Bayesian clustering software, STRUCTURE, was used to detect subpopulations. Six independent analyses were conducted using all marker data (173 markers) and five subsets of markers based on marker type (single-nucleotide polymorphisms, simple sequence repeats and insertion/deletions) and location (exon and intron sequences) within genes. All of these analyses consistently separated four groups predefined by market niche and age into distinct subpopulations. Furthermore, we detected at least two subpopulations within the processing varieties. These subpopulations correspond to historical patterns of breeding conducted for specific production environments. We found no subpopulation within fresh-market varieties, vintage varieties and landraces when using all marker data. High levels of admixture were shown in several varieties representing a transition in the demarcation between processing and fresh-market breeding. The genetic clustering detected by using the STRUCTURE software was confirmed by two statistics, pairwise F(st) (θ) and Nei's standard genetic distance. We also identified a total of 19 loci under positive selection between processing, fresh-market and vintage germplasm by using an F(st)-outlier method based on the deviation from the expected distribution of F(st) and heterozygosity. The markers and genome locations we identified are consistent with known patterns of selection and linkage to traits that differentiate the market classes. These results demonstrate how human selection through breeding has shaped genetic variation within cultivated tomato.     

Population genetics and evolutionary history of Miscanthus species in China

Miscanthus species have received considerable attention as a potential biomass source for renewable energy production because of their ability to produce high yields of biomass and adapt to a wide range of climates and soils. To explore the genetic diversity and phylogenetic relationship of Miscanthus species in China, we used 24 simple sequence repeat markers to genotype 100 natural populations representing all four Chinese Miscanthus species (M. sinensis Andersson, M. floridulus (Lab.) Warb. ex K. Schum. & Lauterb., M. sacchariflorus (Maxim.) Hack., and M. lutarioriparius L. Liu ex Renvoize & S. L. Chen). Based on phylogenetic, principal coordinate, and Structure analyses, we found that the 100 populations formed two major groups corresponding to sect. Triarrhena and sect. Miscanthus. Group 1 (i.e., sect. Triarrhena) was further subdivided into two subgroups corresponding to M. sacchariflorus and M. lutarioriparius; Group 2 (i.e., sect. Miscanthus) was subdivided into three subgroups, group 2a (M. sinensis populations in southern China), group 2b (M. sinensis populations in northern China), and group 2c (all the M. floridulus populations). Population genetics analyses indicated high levels of the genetic diversity at both population (H_E = 0.468–0.599) and species (H_E = 0.559–0.708) levels, indicative of the potential of these wild resources in future breeding programs. The species distribution modeling showed that M. sacchariflorus and M. lutarioriparius have experienced population reductions during the last glacial maximum and population expansion afterward; in contrast, M. sinensis and M. floridulus both underwent gradual population expansions from the last interglaciation to the present. We also suggest that M. floridulus originated from M. sinensis in southeast China through ecological speciation. The understanding of the evolutionary history and population dynamics of these species not only provides valuable information for further genetic improvement and breeding of this energy crop but also gives important insights into the origin and speciation processes of the Miscanthus species.     

间颅鼠兔的种群遗传结构和历史演化动态

本研究基于多个线粒体基因（包括COI、Cyt b、tRNA-Thr、tRNA-Pro、D-loop控制区部分序列共计2417bp）对间颅鼠兔（Ochotona cansus）的种群遗传结构和历史演化动态进行了研究。基于线粒体基因联合数据构建的贝叶斯树显示,间颅鼠兔分为两大支系：来自岷山山系东部的甘肃白水江和四川唐家河的种群组成了支系一;其余采样点的种群组成了支系二。基于以上基因所构建的单倍型网络图显示的遗传结构与贝叶斯树一致。贝叶斯聚类分析（BAPS）将间颅鼠兔分为4个地理种群。A种群包括甘肃白水江（BSJ）和四川唐家河（TJH）的样本;B种群仅包括四川卧龙（WL）的样本;C种群包括青海北部种群（GC、MY、QL）、青海南部-四川北部种群（JW、JZ、ZK、RE）、四川康定（KD）和陕西太白山（TB）的样本;D种群包括山西娄烦（LF）以及陕西吴起（WQ）的样本。基于线粒体基因构建的物种树进行支系分化时间的推测,结果显示4个地理种群的分化时间约为0.72 Ma、0.32 Ma、0.12 Ma, 这与造成青藏高原剧烈隆起的昆黄运动（1.10-0.60Ma）和共和运动（0.15Ma）发生时间基本吻合。采用中性检验、错配分布、扩展贝叶斯天际线（EBSPs）3种方法对间颅鼠兔的种群历史动态进行预测,分析结果显示间颅鼠兔在历史上并没有经历过显著的种群扩张,而且在末次盛冰期后开始衰减。生态位模型（ENM）预测结果表明：末次盛冰期时间颅鼠兔的潜在分布区比其现今分布区小,末次盛冰期比末次间冰期潜在分布区略大,表明间颅鼠兔受末次盛冰期影响较大。气候因子分析显示降水比温度对间颅鼠兔种群影响更大,推测降水对植被的演化影响显著,从而影响间颅鼠兔的食物来源和栖息环境。     

Population genetic structure of Sagittaria natans (Alismataceae), an endangered species in China,revealed by nuclear SSR loci analyses

Sagittaria natans (Alismataceae) is an endangered aquatic herb in China. The nuclear microsatellite (SSR) loci variation of the 11 extant populations of S. natans was investigated in the present study. A relative high level of genetic diversity was found in this species. The Wilcoxon’s signed rank tests did not indicate a recent bottleneck in any of the populations. The Analysis of molecular variance (AMOVA) showed a low level of population differentiation (FST = 0.284) among the populations of S. natans. This result was supported by STRUCTURE analysis (K = 1), the NJ analyses and Mantel test (r = ?0.0221, p > 0.5). The genetic structure could be contributed to an earlier period of more pronounced gene flow when the species had a more continuous distribution. The results of this study could be used as the basis for conservation guidelines for the management of this endangered species in China.     

加拿大-西北大西洋地区掌形藻的种群遗传结构与动态变化

探讨古气候波动(如更新世末期冰期)对典型生物的时空分布和有效种群大小变动的影响是生物地理学和进化遗传学的重要研究课题.本文利用线粒体cox2-3序列和RAPD两种分子标记,对分布于加拿大-西北大西洋地区8个地点(共138个个体)的掌形藻(Palmaria palmata)进行谱系地理学研究,试图阐明当更新世冰期来临时掌形藻如何衍生出适应性的进化机制,并形成当前的地理分布格局.结果表明,线粒体cox2-3间区序列共检测出11个单倍型,其中1个单倍型(C3)在所有种群中都有分布,并位于星状基因谱系的中心位置,可认为是祖先单倍型.St.Lawrence湾内北部的两个种群多样性最高,与其他地理种群分化最明显,这与基于RAPD数据的STRUCTURE聚类分析结果相一致.根据掌形藻遗传多样性及其单倍型谱系结构特征,推测掌形藻在加拿大-西北大西洋沿岸存在多个冰期避难所.分子多态性分析(AMOVA)显示掌形藻的遗传变异主要来自种群内,而St.Lawrence湾和Fundy湾群组间的遗传变异较小.cox2-3序列的Bayesian skyline plots分析结果反映出掌形藻种群在加拿大-西北大西洋沿岸经历了轻微的种群扩张,时间大概在0.18-0.13百万年前.St.Lawrence湾和Fundy湾群组间的K2P遗传距离为0.2％,相应的分化时间大约在0.36百万年前.由此推测,更新世末期的冰期及间冰期是影响掌形藻种群结构及变动的重要古气候环境因子.     

Complete chloroplast genome sequences of Solanum bulbocastanum, Solanum lycopersicum and comparative analyses with other Solanaceae genomes

Despite the agricultural importance of both potato and tomato, very little is known about their chloroplast genomes. Analysis of the complete sequences of tomato, potato, tobacco, and Atropa chloroplast genomes reveals significant insertions and deletions within certain coding regions or regulatory sequences (e.g., deletion of repeated sequences within 16S rRNA, ycf2 or ribosomal binding sites in ycf2). RNA, photosynthesis, and atp synthase genes are the least divergent and the most divergent genes are clpP, cemA, ccsA, and matK. Repeat analyses identified 33–45 direct and inverted repeats ≥30 bp with a sequence identity of at least 90%; all but five of the repeats shared by all four Solanaceae genomes are located in the same genes or intergenic regions, suggesting a functional role. A comprehensive genome-wide analysis of all coding sequences and intergenic spacer regions was done for the first time in chloroplast genomes. Only four spacer regions are fully conserved (100% sequence identity) among all genomes; deletions or insertions within some intergenic spacer regions result in less than 25% sequence identity, underscoring the importance of choosing appropriate intergenic spacers for plastid transformation and providing valuable new information for phylogenetic utility of the chloroplast intergenic spacer regions. Comparison of coding sequences with expressed sequence tags showed considerable amount of variation, resulting in amino acid changes; none of the C-to-U conversions observed in potato and tomato were conserved in tobacco and Atropa. It is possible that there has been a loss of conserved editing sites in potato and tomato.Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

Population genetics and demographic history of the ice goby (Leucopsarion petersii) in the Northwest Pacific

Environmental Biology of Fishes - The Northwest Pacific, including Korea, is an interesting area for population genetic studies because of the dramatic Pleistocene sea-level change. The ice goby...     

Analysis of phylogenetic relationships in the genus Solanum (Solanaceae) as revealed by RAPD markers

Phylogenetic relationships and genetic variation were examined in the genus Solanum based on the random amplified polymorphic DNA (RAPD) technique. Genetic distances were estimated for 42 accessions from five subgenera [Archaesolanum, Minon (Syn. Brevantherum), Leptostemonum, Potatoe, and Solanum]. This investigation provided new information and reinforced some suggestions from previous phylogenetic studies. Analysis with random markers from the total genome clearly separated Solanum sect. Dulcamara, from the other members of Solanum subg. Potatoe, and indicated that among the analysed Solanum subgenera subg. Solanum is most closely related to it. The results suggest that Solanum sect. Dulcamara should be excluded from Solanum subg. Potatoe. The subclusters formed by S. rostratum and S. citrullifolium appear to be distinct from the subcluster formed by the two accessions of S. sisymbriifolium. This topology indicates that Solanum sect. Androceras and Solanum sect. Cryptocarpum are fairly closely related, although the data suggest that the two sections should not be maintained.     

Population demographic history of a temperate shrub,Rhododendron weyrichii (Ericaceae), on continental islands of Japan and South Korea

Continental islands provide opportunities for testing the effects of isolation and migration on genetic variation in plant populations. In characteristic of continental islands is that the geographic connections between these islands, which are currently distinguished by seaways, have experienced fluctuations caused by sea‐level changes due to climate oscillations during the Quaternary. Plant populations on the islands have migrated between these islands via the exposed seafloors or been isolated. Here, we examined the demographic history of a temperate shrub, Rhododendron weyrichii, which is distributed in the southwestern parts of the Japanese archipelago and on an island of South Korea, using statistical phylogeographic approaches based on the DNA sequences of two chloroplast and eight nuclear loci in samples analyzed from 18 populations on eight continental islands, and palaeodistribution modeling. Time estimates for four island populations indicate that the durations of vicariance history are different between these populations, and these events have continued since the last glacial or may have predated the last glacial. The constancy or expansion of population sizes on the Japanese islands, and in contrast a bottleneck in population size on the Korean island Jeju, suggests that these islands may have provided different conditions for sustaining populations. The result of palaeodistribution modeling indicates that the longitudinal range of the species as a whole has not changed greatly since the last glacial maximum. These results indicate that exposed seafloors during the glacial period formed both effective and ineffective migration corridors. These findings may shed light on the effects of seafloor exposure on the migration of plants distributed across continental islands.     

Contrasting patterns of genetic structure and evolutionary history as revealed by rnitochondrial DNA and nuclear gene-enzyme variation betweenDrosophila melanogaster andDrosophila simulans

Drosophila melanogaster and its sibling speciesD. simulans have a cosmopolitan distribution. Studies on nuclear gene-enzyme variation from natural populations of these species reveal that the two have almost equal overall heterozygosity, yetD. simulans populations are significantly less differentiated. However, it is not clear whether this difference in population structure represents a difference in the genetic strategy with which they respond to the same adaptive challenges, or is the result of difference in species history. To help answer this question, we have undertaken an intensive survey of restriction fragment length polymorphisms of mitochondrial DNA (mtDNA) fromD. simulans; the results are compared with those fromD. melanogaster. We surveyed 69 isofemale lines ofD. simulans from four continents and seven lines from the Seychelles Islands. Ten restriction enzymes detected 104 restriction sites in the continental mtDNAs, of which only threeHinf1 sites were variable and account for fourHlnf1 (restriction variants) haplotypes. These four variants were all found in geographically distant locations. By contrast, twenty-three haplotypes were observed inD. melanogaster, many of which were observed in only one population. It would seem, therefore, that these two species have had different histories. Specifically, cosmopolitan populations ofD: simulans are probably products of a comparatively recent expansion from a source population in Africa. These results do not negate differences in their genetic strategy of adaptation, but they do show the importance of historical contingency in the present-day pattern of geographic variation.     

Population genetic structure and demographic history of the fat greenling Hexagrammos otakii

Fat greenling (Hexagrammos otakii) is an important commercial fish in the Northwestern Pacific, being distributed along the coastal waters of the East/Japan Sea and the Yellow Sea. To investigate population genetic structure and demographic history of this species, one hundred and fifty five individuals were collected from five localities in the distribution range of the species and sequence variations in the mitochondrial genes COI, COIII-ND3-ND4L, and cytochrome b were examined. For all the genes in every sampling location, the nucleotide diversities were very low (0.001 ～ 0.005) although the haplotype diversities were relatively high, 0.55 ～ 0.81 for COI, 0.79 ～ 0.84 for COIII-ND3-ND4L, and 0.95 ～ 0.97 for cytochrome b. Hierarchical analysis of molecular variance (AMOVA), the conventional population statistic FST, and exact test of population differentiation revealed no significant genetic structuring among the samples, indicating that fat greening is panmictic throughout the range of its distribution. Neutrality tests such as Tajima’s D and Fu’s FS statistics and mismatch distribution analyses suggested that fat greening has undergone the demographic history of population expansion during the late Pleistocene period approximately 91,000 ～ 327,000 years ago. The star-burst patterns of haplotype networks and low nucleotide diversities also indicated recent population expansion. These results help establish the fisheries management strategy for fat greenling in the Northwestern Pacific.     

Population structure analyses and demographic history of the malaria vector Anopheles albimanus from the Caribbean and the Pacific regions of Colombia

Background

Artesunate and amodiaquine (AS&AQ) is at present the world's second most widely used artemisinin-based combination therapy (ACT). It was necessary to evaluate the efficacy of ACT, recently adopted by the World Health Organization (WHO) and deployed over 80 countries, in order to make an evidence-based drug policy.

Methods

An individual patient data (IPD) analysis was conducted on efficacy outcomes in 26 clinical studies in sub-Saharan Africa using the WHO protocol with similar primary and secondary endpoints.

Results

A total of 11,700 patients (75% under 5 years old), from 33 different sites in 16 countries were followed for 28 days. Loss to follow-up was 4.9% (575/11,700). AS&AQ was given to 5,897 patients. Of these, 82% (4,826/5,897) were included in randomized comparative trials with polymerase chain reaction (PCR) genotyping results and compared to 5,413 patients (half receiving an ACT). AS&AQ and other ACT comparators resulted in rapid clearance of fever and parasitaemia, superior to non-ACT. Using survival analysis on a modified intent-to-treat population, the Day 28 PCR-adjusted efficacy of AS&AQ was greater than 90% (the WHO cut-off) in 11/16 countries. In randomized comparative trials (n = 22), the crude efficacy of AS&AQ was 75.9% (95% CI 74.6–77.1) and the PCR-adjusted efficacy was 93.9% (95% CI 93.2–94.5). The risk (weighted by site) of failure PCR-adjusted of AS&AQ was significantly inferior to non-ACT, superior to dihydroartemisinin-piperaquine (DP, in one Ugandan site), and not different from AS+SP or AL (artemether-lumefantrine). The risk of gametocyte appearance and the carriage rate of AS&AQ was only greater in one Ugandan site compared to AL and DP, and lower compared to non-ACT (p = 0.001, for all comparisons). Anaemia recovery was not different than comparator groups, except in one site in Rwanda where the patients in the DP group had a slower recovery.

Conclusion

AS&AQ compares well to other treatments and meets the WHO efficacy criteria for use against falciparum malaria in many, but not all, the sub-Saharan African countries where it was studied. Efficacy varies between and within countries. An IPD analysis can inform general and local treatment policies. Ongoing monitoring evaluation is required.     

Population Structure and Genetic Diversity of Native and Invasive Populations of Solanum rostratum (Solanaceae)

Aims

We investigate native and introduced populations of Solanum rostratum, an annual, self-compatible plant that has been introduced around the globe. This study is the first to compare the genetic diversity of Solanum rostratum between native and introduced populations. We aim to (1) determine the level of genetic diversity across the studied regions; (2) explore the likely origins of invasive populations in China; and (3) investigate whether there is the evidence of multiple introductions into China.

Methods

We genotyped 329 individuals at 10 microsatellite loci to determine the levels of genetic diversity and to investigate population structure of native and introduced populations of S. rostratum. We studied five populations in each of three regions across two continents: Mexico, the U.S.A. and China.

Important Findings

We found the highest genetic diversity among Mexican populations of S. rostratum. Genetic diversity was significantly lower in Chinese and U.S.A. populations, but we found no regional difference in inbreeding coefficients (F _IS) or population differentiation (F _ST). Population structure analyses indicate that Chinese and U.S.A. populations are more closely related to each other than to sampled Mexican populations, revealing that introduced populations in China share an origin with the sampled U.S.A. populations. The distinctiveness between some introduced populations indicates multiple introductions of S. rostratum into China.     

Population genetic structure and demographic history of the black fly vector,Simulium nodosum in Thailand

An understanding of the genetic structure and diversity of vector species is crucial for effective control and management. In this study, mitochondrial DNA sequences were used to examine the genetic structure, diversity and demographic history of a black fly vector, Simulium nodosum Puri (Diptera: Simuliidae), in Thailand. A total of 145 sequences were obtained from 10 sampling locations collected across geographical ranges in the country. Low genetic diversity was found in populations of S. nodosum that could be explained by the recent population history of this species. Demographic history analysis revealed a signature of demographic expansion dating back to only 2600–5200 years ago. Recent population expansion in S. nodosum possibly followed an increase in agriculture that enabled its hosts', humans and domestic animals, densities to increase. Alternatively, the Thai populations could be a derivative of an older expansion event in the more northern populations. Mitochondrial DNA genealogy revealed no genetically divergent lineages, which agrees with the previous cytogenetic study. Genetic structure analyses found that only 27% of the pairwise comparisons were significantly different. The most likely explanation for the pattern of genetic structuring is the effect of genetic drift because of recent colonization.     

Mating system and fine-scale spatial genetic structure of Solanum lycocarpum St.Hil. (Solanaceae) in the Brazilian Cerrado

Restricted gene dispersion – resulting from both self-pollination and limited capability of pollen migration, as well as seed dispersion at short distances – has been considered the main reason for spatial genetic structuring in plant populations. This study evaluated the intrapopulation genetic structure and the mating system in four populations of Solanum lycocarpum, a woody bush occurring in Brazilian Cerrado vegetation. Two hundred and twenty-four individuals were genotyped through five nuclear SSR loci (30 alleles) and six cpSSR loci (82 haplotypes). The study evidenced that the species mates predominantly by outcrossings , that biparental inbreeding is not common, and that there are almost 10 trees participating as pollen donors per mother-tree. The populations were formed by many mother lineages, indicating efficient seed dispersion by the fauna and the occurrence of multiple foundation events. Spatial genetic structure was observed in three populations (average Sp=0.0184 ± 0.0030) and it resulted from both restricted seed dispersion and from vegetative reproduction. During the collection of seeds for ex situ conservation, seeds must be gathered from 150 to 200 mother trees, so that the effective size of 500 individuals is retained. The sampling must comprise the biggest possible number of populations in a wide area to enable the maintenance of the biggest possible haplotypic diversity.     

Heterochromatin and rDNA patterns in Solanum species of the Morelloid and Dulcamaroid clades (Solanaceae)

The heterochromatin distribution and the position of 18-5.8-26S, and 5S rDNA loci were determined in 13 species of Solanum of the Morelloid and Dulcamaroid clades. The CMA/DAPI staining and FISH were employed. Two types of constitutive heterochromatin were determined: CMA⁺/DAPI^? associated to NOR and CMA⁺/DAPI^? distributed as terminal bands. In the Morelloid clade, CMA⁺/DAPI^? bands were found in five species while in the Dulcamaroid clade, only S. angustifidum presented this feature. In the Morelloid clade, two to four 18-5.8-26S rDNA loci occupied terminal positions and two rDNA 5S loci were found with variable positions (terminal, intercalary, and centromeric). In the Dulcamaroid clade, two terminal 18-5.8-26S rDNA loci were detected with the exception of S. salicifolium which possessed four such loci and two to four 5S rDNA loci. Solanum crispum is the only species possessing the 5S in synteny with 18-5.8-26S rDNA loci. Karyotype features chromosome banding pattern as well as the location of ribosomal genes which varied among the species, reflecting the chromosome differentiation and evolutionary divergence. The findings obtained contributed to the development of tools that can be used for establishing chromosomic homeologies among species and hence to clarify their taxonomic relationships.     

Population genetic structure and demographic history of the endemic Formosan lesser horseshoe bat (Rhinolophus monoceros)

Intraspecific phylogenies can provide useful insights into how populations have been shaped by historical and contemporary processes. Taiwan formed around 5 million years ago from tectonic uplift, and has been connected to mainland Asia several times since its emergence. A central mountain range runs north to south, bisecting the island, and potentially impedes gene flow along an east-west axis. The Formosan lesser horseshoe bat (Rhinolophus monoceros) is endemic to Taiwan, where it is found mainly at low altitude. To determine the population structure and the demographic and colonization history of this species, we examined variation in the mitochondrial DNA control region in 203 bats sampled at 26 sites. We found very high haplotype and nucleotide diversity, which decreased from the centre to the south and north. Population differentiation followed a pattern of isolation by distance, though most regional genetic variance was attributable to differences between the relatively isolated southern population and those from other regions. A haplotype network was consistent with these findings and also suggested a southward colonization, followed by subsequent secondary contact between the south and other regions. Mismatch distributions were used to infer a past population expansion predating the last glacial maximum, and a neighbour-joining tree showed that R. monoceros formed a monophyletic grouping with respect to its sister taxa. Taken together, our results suggest that this taxon arose from a single period of colonization, and that demographic growth followed in the late Pleistocene. Current genetic structure reflects limited gene flow, probably coupled with stepwise colonization in the past. We consider explanations for the persistence of the species through multiple glacial maxima.