The effect of past climatic oscillations on spatial genetic structure of Atraphaxis manshurica (Polygonoideae) in the Horqin sandlands,northern China

To investigate the effect of past climate oscillations on the genetic diversity and demographic history of organisms in the Horqin sandlands, at the margin of the monsoonal zone in northern China. We selected Atraphaxis manshurica as a model and examined the spatial genetic structure in populations of this species across most of its covered range. Five haplotypes were identified on the basis of two chloroplast DNA sequences (psbK-psbI and psbB-psbH) in 127 individuals from 11 natural populations. The total genetic diversity (H_T = 0.437) of A. manshurica is low compared with species to the west in arid northwestern China, outside of monsoonal influence. Analysis of molecular variance (AMOVA) indicates that genetic differentiation primarily occurred among two geographical groups distinguished by spatial analysis of molecular variance (SAMOVA). The BEAST molecular clock approach revealed that genetic divergence of the species mostly occurred in middle-late Pleistocene, in accordance with the periodic glacial periods and accompanying monsoonal changes. From species distribution modeling (SDM), we found that the species experienced range contraction and southward retreat during the Last Glacial Maximum (LGM). The current genetic pattern and demographic history may have thus been shaped by glacial–interglacial cycles and changes of habitat since the middle Pleistocene.     

Phylogeography of Pulsatilla vernalis (L.) Mill. (Ranunculaceae): chloroplast DNA reveals two evolutionary lineages across central Europe and Scandinavia

Aim The aim of this study was to test hypotheses regarding some of the main phylogeographical patterns proposed for European plants, in particular the locations of glacial refugia, the post‐glacial colonization routes, and genetic affinities between southern (alpine) and northern (boreal) populations. Location The mountains of Europe (Alps, Balkans, Carpathians, Central Massif, Pyrenees, Scandinavian chain, Sudetes), and central European/southern Scandinavian lowlands. Methods As our model system we used Pulsatilla vernalis, a widely distributed European herbaceous plant occurring both in the high‐mountain environments of the Alps and other European ranges and in lowlands north of these ranges up to Scandinavia. Based on a distribution‐wide sampling of 61 populations, we estimated chloroplast DNA (cpDNA) variation along six regions using polymerase chain reaction–restriction fragment‐length polymorphisms (PCR–RFLPs) (trnH–trnK, trnK–trnK, trnC–trnD, psbC–trnS, psaA–trnS, trnL–trnF) and further sequencing of trnL–trnF and trnH–psbA. In addition, 11 samples of other European species of Pulsatilla were sequenced to survey the genus‐scale cpDNA variation. Results Eleven PCR–RFLP polymorphisms were detected in P. vernalis, revealing seven haplotypes. They formed two distinct genetic groups. Three haplotypes representing both groups dominated and were widely distributed across Europe, whereas the others were restricted to localized regions (central Alps, Tatras/Sudetes mountains) or single populations. Sequencing analysis confirmed the reliability of PCR–RFLPs and homology of haplotypes across their distribution. The chloroplast DNA variation across the section Pulsatilla was low, but P. vernalis did not share haplotypes with other species. Main conclusions The genetic distinctiveness of P. vernalis populations from the south‐western Alps with respect to other Alpine populations, as well as the affinities between the former populations and those from the eastern Pyrenees, is demonstrated, thus providing support for the conclusions of previous studies. Glacial refugia in the Dolomites are also suggested. Isolation is inferred for the high‐mountain populations from the Tatras and Sudetes; this is in contrast to the case for the Balkans, which harboured the common haplotype. Specific microsatellite variation indicates the occurrence of periglacial lowland refugia north of the Alps, acting as a source for the post‐glacial colonization of Scandinavia. The presence of different fixed haplotypes in eastern and western Scandinavia, however, suggests independent post‐glacial colonization of these two areas, with possible founder effects.     

Genetic structure of Salsola junatovii (Chenopodiaceae) in the northern edge of the Taklimakan desert and conservational implications

Salsola junatovii Botsch. (Chenopodiaceae), a desert shrub endemic to the northern edge of the Taklimakan desert in China, is listed as an endangered species because of its narrow habitat requirements and a decline in numbers of individuals. In order to provide information on conservation strategies, we investigated the genetic patterns and evolutionary history of this species. Two cpDNA spacers, (psbA-trnH and psbK-psbI), and the nrITS sequence were employed in 116 individuals from 15 populations across the whole range of the species. A total of 7 haplotypes and 12 ribotypes were detected. Based on separate BEAST analyses, we suggest that intraspecific differentiation of S. junatovii occurred at 2.284–0.264 Ma for cpDNA haplotypes, and 1.304–0.1 Ma for nrITS ribotypes, both in the Pleistocene. Only mismatch analysis and neutrality tests for nrITS sequences over all populations were indicative of demographic expansion. Inconsistency between results from chloroplast and nuclear sequences was detected, apparently due to a stronger seed-mediated gene flow among populations than pollen-mediated flow under the severe desert conditions. Based on genetic structure results, one population, KMS, with the highest number of unique genotypes, should be a conservation priority; another nine populations containing unique genotypes were suggested for ex situ conservation.     

Patterns of chloroplast DNA variation in <Emphasis Type="Italic">Cycas debaoensis</Emphasis> (Cycadaceae): conservation implications

Climate changes during glacial periods have had significant effects on the current distribution of plant species. Palaeontologial data suggest that modern cycads originated in southwest China. Cycas debaoensis (Cycadaceae) is an endangered species restricted to a small area of southwest China. This species has been classified into two types: sand and karst, according to the soil matrix they grow on. To determine the locations of its glacial refugia and its genetic structure, we examined chloroplast sequence variation of the atpB-rbcL and psbA-trnH intergenic spacers. Four chloroplast DNA haplotypes were obtained from 120 individuals collected from 11 populations covering the entire extant distribution range of the species. Significant population subdivision was detected (G _ST = 0.684 and F _ST = 0.74160), suggesting low levels of gene flow between regions and populations. There was marked haplotype differentiation between populations in the sand and karst regions, with only one haplotype being present in both. The molecular phylogenetic data, together with the geographic distribution of the haplotypes, suggest that C. debaoensis experienced range contraction during glacial periods, and that the current populations are still confined to the areas of the original refugia. These results implied that isolated refugia might have maintained in both sand and karst regions during the last glacial maximum and even earlier glaciations. The low within-population diversity of C. debaoensis suggested that there were strong bottleneck events or founder effects within each separate region during the Quaternary climatic oscillations. These findings are important for the conservation of this endangered species.     

Genetic diversity in endangered Notopterygium forbesii Boissieu based on intraspecies sequence variation of chloroplast DNA and implications for conservation

A thorough understanding of the levels and partitioning of genetic variation across populations and geographical regions of endangered species is a prerequisite to ensure effective conservation and/or restoration activities. Here, we examined chloroplast DNA (cpDNA) trnH-psbA intergenic spacer sequences variation within Notopterygium forbesii, an endangered and endemic perennial herb in China. Sequence data obtained from 141 individuals in 14 populations revealed twenty-two haplotypes. A high level of haplotype diversity (Hd = 0.81) and low level of nucleotide diversity (Pi = 0.0047) were detected. Low genetic differentiation among populations and also among regions was consistently indicated by both hierarchical analyses of molecular variance (AMOVA) and the structure of a neighbor-joining tree. Low level of population differentiation between populations or between regions in cpDNA sequences may be due to effects of the abundance of ancestral haplotype sharing and the high number of private haplotypes fixed for each population. Based on our results, we proposed some conservation strategies.     

Genetic diversity in Artemisia halodendron (Asteraceae) based on chloroplast DNA psbA–trnH region from different hydrothermal conditions in Horqin sandy land, northern China

The genetic diversity of Artemisia halodendron (Asteraceae), a constructive and dominant species in the Horqin sandy land, was investigated to examine the genetic relationships with different hydrothermal regions in the Horqin sandy land. We sequenced chloroplast DNA (cpDNA) fragments psbA–trnH of 243 plants from ten populations across the Horqin sandy land. The analyses of cpDNA variation identified seven haplotypes. A high level of haplotype diversity (H _d = 0.831) and low level of nucleotide diversity (π = 0.0018) were detected. Haplotypes clustered into three tentative clades. Low genetic differentiation among regions was consistently indicated by hierarchical analyses of molecular variance (AMOVA).     

Effects of the Tanaka Line on the genetic structure of Bombax ceiba (Malvaceae) in dry‐hot valley areas of southwest China

Southwest China is an important biodiversity hotspot. The interactions among the complex topography, climate change, and ecological factors in the dry‐hot valley areas in southwest China may have profoundly affected the genetic structure of plant species in this region. In this study, we determined the effects of the Tanaka Line on genetic variation in the wild Bombax ceiba tree in southwest China. We sampled 224 individuals from 17 populations throughout the dry‐hot valley regions. Six polymorphic expressed sequence tag–simple sequence repeat primers were employed to sequence the PCR products using the first‐generation Sanger technique. The analysis based on population genetics suggested that B. ceiba exhibited a high level of gene diversity (H_E: 0.2377–0.4775; I: 0.3997–0.7848). The 17 populations were divided into two groups by cluster analysis, which corresponded to geographic characters on each side of the Tanaka Line. In addition, a Mantel test indicated that the phylogeographic structure among the populations could be fitted to the isolation‐by‐distance model (r² = .2553, p < .001). A barrier test indicated that there were obstacles among populations and between the two groups due to complex terrain isolation and geographic heterogeneity. We inferred that the Tanaka Line might have promoted the intraspecific phylogeographic subdivision and divergence of B. ceiba. These results provide new insights into the effects of the Tanaka Line on genetic isolation and population differentiation of plant species in southwest China.     

The phylogeographic history of the self-pollinated herb Tacca chantrieri (Dioscoreaceae) in the tropics of mainland Southeast Asia

The geological and climatic oscillations influenced the geographic distribution and demography of most present-day species, but few studies have investigated evolutionary history of species adapted to the tropical regions of Southeast Asia. Here, using sequence datasets obtained from three chloroplast DNA fragments (trnH-psbA, trnS-trnG, and trnL-F) from 320 individuals belonging to 24 natural populations, we investigated the phylogeographical history of Tacca chantrieri, which inhabits Southeast Asian tropical forests. Although relatively high level of differentiation among the populations were observed, mismatch distribution and neutrality tests showed no evidence of recent demographic population expansion. Phylogenetic inference exhibited two identified population groups showing a disjunctive distribution of dominant haplotypes. The split in cpDNA was largely consistent with the Tanaka line and Red River geographically. Molecular clock estimations revealed that the two lineages diverged during Pleistocene approximately 1.16 Ma. Therefore, the disjunct distribution of T.chantrieri could be explained by both the vicariance caused by Red River as well as ecological barriers caused by the different monsoon climates (Southwest monsoon vs. Southeast monsoon) that developed during the Pleistocene. The Tanaka line can be considered as a climatically driven barrier that influenced present-day plant dispersal.     

Phylogeographic and demographic effects of Quaternary climate oscillations in Hexinia polydichotoma (Asteraceae) in Tarim Basin and adjacent areas

In order to investigate the genetic diversity and influence of climate oscillations on evolutionary processes of organisms in Northwest China, we selected Hexinia polydichotoma, a species endemic to China, and examined the phylogeographic structure and historical factors that influenced the evolutionary history of this species in its entire cover range, Tarim Basin and adjacent areas. In the study, 17 haplotypes were identified in H. polydichotoma on the basis of two chloroplast DNA sequences (trnH–psbA and ycf6–psbM). Shown in the network, the two common haplotypes, A and D, respectively, mainly distribute along the northern and southern rims of the basin. The analyses of molecular variance analysis suggest that genetic variation primarily occurs among populations, and all populations were subdivided into five groups by SAMOVA. Geographic range expansion along the southern and northern rims of the basin was supported by the significant value for Tajima’s D and by the unimodal mismatch distribution. It is possible that during the interglacial period of the middle Pleistocene, a large amount of snow and glacial ice melted from the mountains surrounding Tarim Basin. This increased water, the expanding desert, and the dispersal ability of H. polydichotoma were important factors driving not only geographic range expansion, but also the current phylogeographic structure of this species. It is possible that during the middle Pleistocene, the climatic fluctuations resulted in expansion and contraction cycles of river systems and oases, and may consequently have caused population fragmentation.     

A range wide geographic pattern of genetic diversity and population structure of Hexinia polydichotoma (Asteraceae) in Tarim Basin and adjacent areas

In order to investigate the genetic diversity and influence of climate oscillations on evolutionary processes of organisms in northwest China, we selected Hexinia polydichotoma, a species endemic to China, and examined the geographic pattern of genetic variation in its entire cover range, Tarim Basin and adjacent areas. In the study, 22 chloroplast (cp) haplotypes were identified based on two cpDNA sequences (trnH–psbA and ycf6–psbM), and five ITS sequence variations were found. Shown in the cp haplotype network, the two common cp haplotypes mainly distributed along the northern and southern rims of the basin respectively and intersected in the center of the basin, whereas in the ITS network, ITS genotype 1 was widespread across the whole distribution area, and rare genotypes were concentrated in the western rim of the basin. Genetic variation primarily occurred among populations and SAMOVA groups. Fragmented desert habitat may have caused gene flow barrier among populations or groups far from each other, leading to significant genetic differentiation at these levels. It appears that expansion and contraction cycles of river systems and oases during the middle Pleistocene was the source of the observed fragmentation. Geographic range expansion in H. polydichotoma was supported by the significant value for Tajima's D, Fu's F_S, and by a unimodal mismatch distribution. It was possible that the enlargement of the Taklimakan Desert during the middle Pleistocene may have provided appropriate conditions for the range dispersal. We identified western rim of the basin as the center of genetic diversity of H. polydichotoma based on the present dataset.     

基于叶绿体DNA非编码序列的蒙古扁桃谱系地理学研究

该研究选取中国西北干旱区第三纪孑遗植物蒙古扁桃（Amygdalus mongolica）,基于叶绿体DNA非编码trnH psbA序列对蒙古扁桃17个居群324个个体进行了谱系地理学研究。结果表明：（1）蒙古扁桃trnH psbA序列长度350 bp,变异位点63个,共有9种单倍型,居群间总遗传多样性为（H_t）为0.758,居群内平均遗传多样性为（H_s）为0.203,贺兰山东麓及阴山南麓边缘的居群具有较高的单倍型多样性及核苷酸多样性并固定较多特有单倍型,推测这2个地区是蒙古扁桃在第四纪冰期时的重要避难所。（2）AMOVA分析表明,居群间的遗传变异为83.84%,居群内的遗传变异为16.16%,居群间遗传分化系数N_st>G_st（N_st=0.733, G_st=0.655, P>0.05）,表明蒙古扁桃不存在明显的谱系地理结构;根据单倍型地理分布及网络关系图,把蒙古扁桃自然地理居群分为东、西两大地理组群,而且东、西地理组群没有共享单倍型;居群遗传结构分析表明,两大地理组群遗传分化较大。（3）蒙古扁桃居群在间冰期或冰期后经历了近期的居群扩张,由于奠基者效应使得多数居群只固定了单一的单倍型。     

Conservation genetics and geographic patterns of genetic variation of the endangered officinal herb Fritillaria pallidiflora

Fritillaria pallidiflora is an endangered officinal herb distributed in the Tianshan Mountains of northwestern China. We examined its phylogeography to study evolutionary processes and suggest implications for conservation. Six haplotypes were detected based on three chloroplast non‐coding spacers (psbA‐trnH, rps16, and trnS‐trnG); genetic variation mainly occurred among populations and SAMOVA groups. This species is distributed in different deep valleys, and we speculate that these fragmented habitats cause gene flow barriers among populations and groups. We also speculate that during glacial periods, extremely low temperatures and aridity caused additional range shrinkage and fragmentation, factors consequently resulting in significant intraspecific differentiation in allopatric regions. For setting a conservation management plan, we identified the Lucaogou region as the most important area, and we designated two ESUs for separate management.     

Molecular phylogeography of Fagus engleriana (Fagaceae) in subtropical China: limited admixture among multiple refugia

Beech is one of the most important trees in the temperate and subtropical forests of the Northern Hemisphere. Despite Chinese beeches have the particularity that only grow in subtropical areas, they have received few phylogeographic research. In this study, we sampled 25 populations of the northernmost-distributed Chinese beech, Fagus engleriana, and detected six haplotypes across 350 individuals by using sequences of two chloroplast intergenic spacers. The chloroplast genetic diversity was relatively low (h _T?=?0.659), with most genetic variance residing among populations (G _ST?=?0.831, N _ST?=?0.855, G _ST??N _ST). SAMOVA analysis indicated that populations clustered into six groups with little admixture among them (most groups were characterized by a unique hapotype). Pairwise difference among haplotypes and Fu??s Fs statistic indicated that populations of F. engleriana have not experienced recent sudden expansions. Both the phylogeographic and demographic patterns found in this study suggest that F. engleriana remained fragmented in multiple refugia throughout the Pleistocene climatic changes, and experienced limited both glacial and interglacial/postglacial expansion. The results of this study imply that long-term isolation among multiple refugia, coupled with little admixture among populations of different refugia provided numerous opportunities for population divergence and allopatric speciation, which might be a driving factor for the exceptionally broad temperate species diversity in southern China.     

Chloroplast DNA variation and genetic structure of Miscanthus sinensis in southwest China

Miscanthus sinensis is a dominant perennial C4 grass with the potential to being a feedstock crop in North America, Europe, and China. Variation in chloroplast DNA sequence was used to obtain information regarding the genetic diversity and structure of populations of M. sinensis in southwest China. Chloroplast DNA, trnL-F and rpl20-rps12 sequences from seventy-five individuals representing 14 populations of M. sinensis were used to study the sequence variation. Seven haplotypes and 16 polymorphic sites (2.7%) were identified. Five substitutions, 6 indels, and 5 existing substitutions and indels sites, were detected through splicing these two gene segments. The genetic diversity within the studied populations (diversity of haploids, h = 0.561, nucleotide diversity, π = 0.00504) was low, this may be affected by the relatively larger effect of genetic drift on the chloroplast DNA, reflecting smaller effective populations than nuclear DNA. Genetic variance within the populations was higher than that between the populations, suggesting that higher gene flow may exist within these populations. The results of parsimony network in seven haplotypes indicated that H1 and H2 may be ancient haplotypes, which may help guide future research on the origin of M. sinensis. Our results provide information on the genetic diversity and structure of M. sinensis and may assist future studies on the phylogeography of M. sinensis.     

Phylogeography of Sophora davidii (Leguminosae) across the ‘Tanaka‐Kaiyong Line’, an important phytogeographic boundary in Southwest China

The ‘Tanaka‐Kaiyong Line’ (TKL) is a major phytogeographic boundary in Southwest China, separating East Asia's Sino‐Himalayan and Sino‐Japanese Floras. However, little is known about the importance of this boundary in promoting intraspecific phylogeographic subdivision and divergence. Using chloroplast (cpDNA) and nuclear‐intron (nDNA) sequence data, we reconstructed the population history of Sophora davidii, a drought‐tolerant riparian shrub widely distributed on either side of the TKL. Specifically, we aimed at testing two long‐standing explanations for possible vicariant events across the TKL: (i) Late Pliocene (c. 3 Ma) geological uplift of the eastern Qinghai‐Tibetan Plateau (QTP) or (ii) a sharp environmental gradient associated with the establishment of different monsoon regimes on either side of the TKL during the (Late) Pleistocene. Our genealogical analyses detected a major west–east split in cpDNA, geographically largely consistent with the TKL, and dated to c. 1.28 Ma (95% HPD: 0.21–2.96 Ma), hence postdating the latest phase of eastern QTP uplift. Furthermore, integrating cpDNA phylogeographic patterns with mismatch analyses, we found multiple refugial isolation and long‐term demographic stability of populations in the west (Hengduan Mountain Range) compared with extensive range expansions in the east, possibly during the last glacial period(s) and followed by differentiation into regional sublineages (southeast: Yunnan‐Guizhou Plateau vs. northeast: Qinling Mts./Loess Plateau). Although nuclear differentiation was less marked, the geographical pattern of nDNA haplotypes provided some further indication of the species' eastward expansion, possibly from source populations located just east of the TKL (lower Jinshajiang region). Overall, the present data reject the geological (tectonic) explanation for the TKL and, instead, provide supportive evidence for its role as a climatically driven barrier to present‐day plant dispersal. In addition, our study highlights changing temperatures and vegetation types during the last glacial period(s), along with aspects of regional topography, to be important determinants of the glacial eastward expansion of S. davidii. In consequence, our study lends support to a ‘glacial out‐of‐Hengduan Mts’. hypothesis for the xerophytic‐riparian flora of Southwest China, which in turn is inconsistent with the traditional view of the TKL as a ‘classical’ vicariant‐biogeographic boundary.     

Strong Genetic Differentiation of Primula sikkimensis in the East Himalaya–Hengduan Mountains

The East Himalaya-Hengduan Mountains region is the center of diversity of the genus Primula, and P. sikkimensis is one of the most common members of the genus in the region. In this study, the genetic diversity and structure of P. sikkimensis populations in China were assessed using inter-simple sequence repeat (ISSR) and chloroplast microsatellite markers. The 254 individuals analyzed represented 13 populations. High levels of genetic diversity were revealed by ISSR markers. At the species level, the expected heterozygosity and Shannon’s index were 0.4032 and 0.5576, respectively. AMOVA analysis showed that 50.3% of the total genetic diversity was partitioned among populations. Three pairs of chloroplast microsatellite primers tested yielded a total of 12 size variants and 15 chloroplast haplotypes. Strong cpDNA genetic differentiation (G _ST = 0.697) and evidence for phylogeographic structure were detected (N _ST = 0.788, significantly higher than G _ST). Estimated rates of pollen-mediated gene flow are approximately 27% greater than estimated rates of seed-mediated gene flow in P. sikkimensis. Both seed and pollen dispersal, however, are limited, and gene flow among populations appears to be hindered by the patchiness of the species’ habitats and their geographic isolation. These features may have played important roles in shaping the genetic structure of P. sikkimensis. A minimum-spanning tree of chloroplast DNA haplotypes was constructed, and possible glacial refugia of P. sikkimensis were identified.     

Phylogeography and genetic diversity of East Asian Neolitsea sericea (Lauraceae) based on variations in chloroplast DNA sequences

Neolitsea sericea is an evergreen broad leaved tree in the warm-temperate regions of East Asia. This area is a hotspot for plant species richness and endemism caused by dynamic changes in land configuration during the Quaternary. However, the historical migration of such evergreen tree species is still poorly understood. In an attempt to reconstruct the phylogeographic history of N. sericea during the Quaternary, we identified the chloroplast DNA haplotypes of 287 individuals from 33 populations covering almost all of its geographic range. Analyses were based on sequence data from the trnL–F, psbC–trnS, and rps16 regions. Nine haplotypes were identified. The majority included ancestral types in the southwestern part of the main islands of Japan, with other region-specific haplotypes being found in populations on the Korean Peninsula, Taiwan (Isl. Lanyu), and elsewhere in Japan. A statistical parsimony network revealed two lineages derived from Japanese main islands. One was represented on the Korean Peninsula, the other on Isl. Lanyu. The current distribution of N. sericea has been shaped by colonization via land bridges. During the glacial periods, two primary, but separate migration routes were followed—from the southwestern part of the Japanese main islands to either the Korean Peninsula or Taiwan. In addition, we believe the Zhoushan populations were shaped by post-glacial processes through an ECS land bridge (East China Sea basin) from northern refugia that existed during the late Pleistocene.     

Analyses of genetic population structure of two ecologically important mangrove tree species, Bruguiera gymnorrhiza and Kandelia obovata from different river basins of Iriomote Island of the Ryukyu Archipelago, Japan

We analyzed nuclear and chloroplast microsatellite makers to assess genetic diversity and examine genetic structure of two mangrove tree species, Bruguiera gymnorrhiza and Kandelia obovata recovered from nine major river basins of Iriomote Island of the Ryukyu Archipelago, Japan. The average number of alleles per nuclear locus per population was 2.6 in B. gymnorrhiza and 1.7 in K. obovata. Bayesian clustering analysis using InStruct identified two genetic clusters in B. gymnorrhiza and three clusters in K. obovata. Chloroplast microsatellites revealed two dominant haplotypes from B. gymnorrhiza and three haplotypes from K. obovata. The overall result suggests low genetic diversity for both species. AMOVA for nuclear microsatellites showed 9.3?% of population variation in B. gymnorrhiza. Although genetic differentiation between several populations was significant in this species, F _ST suggested low to moderate level of differentiations between most of the populations. Distribution of genetic clusters and chloroplast haplotypes also suggested weak differentiations among B. gymnorrhiza populations. In K. obovata, population variation was, however, relatively high (27.8?%). The high differentiation between K. obovata populations was also suggested from the F _ST and genetic clusters from nuclear microsatellites, and chloroplast haplotypes. A significant correlation between chloroplast genetic distances and coastline distances as well as haplotype distributions for both species suggest that propagules from each species mostly disperse to the neighboring river basins. While significant F _IS and higher percentage of admixed clusters from nuclear microsatellites suggested inbreeding, continual gene exchange by propagule dispersal among populations especially among neighboring populations was suggested for both species from maternally inherited chloroplast microsatellites analyses.     

Low genetic diversity and limited gene flow in a dominant mangrove tree species (Rhizophora stylosa) at its northern biogeographical limit across the chain of three Sakishima islands of the Japanese archipelago as revealed by chloroplast and nuclear SSR analysis

We examined the genetic diversity, population structure and gene flow in a dominant mangrove tree (Rhizophora stylosa) at its northern biogeographical limit in Sakishima islands of the Japanese archipelago. Simple sequence repeat (SSR) markers from chloroplast (cpSSR) and nuclear DNA were used to analyze 16 populations recovered from various river basins across the chain of three Sakishima islands—Iriomote, Ishigaki and Miyako. The average number of alleles (1.7–2.7) and observed heterozygosities (0.031–0.216) at nuclear SSR and haploid diversity (0.000–0.489) at cpSSR across the populations suggested low genetic diversity in R. stylosa in Sakishima islands. cpSSR analysis identified two haplotypes, and Bayesian clustering analysis (nuclear SSR) revealed two genetic clusters. Analysis of molecular variance (nuclear SSR) showed significant population differentiations. Pairwise tests consistently revealed significant differentiation between most of the population pairs; however, the degrees of differentiations are generally correspondent to the relative geographical distances as suggested from pairwise F _ST and cpSSR genetic distances. Moreover, Mantel tests showed some signals of correlations between genetic distances (nuclear and chloroplast) and geographical distances. These results suggest that combined contribution of gene flow via pollen and propagule dispersal in R. stylosa mostly occurred between neighboring river basins. The appearances of two cpSSR haplotypes (maternal lineages) as well as two nuclear genetic clusters (putative ancestral lineages) at various river basins support the hypothesis that present-day R. stylosa populations across the Sakishima islands were established from few identical founders; however, significant differentiations among various river basins most likely resulted from the limited gene flow and high inbreeding.     

Multiple autopolyploidizations and range expansion of Allium przewalskianum Regel. (Alliaceae) in the Qinghai‐Tibetan Plateau

We used the Allium przewalskianum diploid–tetraploid complex on the Qinghai‐Tibetan Plateau (QTP) as a model to examine how this complex responded to the Quaternary climatic oscillations, and whether multiple autopolyploidizations have occurred. We sequenced five chloroplast DNA (cpDNA) fragments (accD‐psaI, trnH‐psbA, trnL‐trnF, trnS‐trnG and rpl16‐intron) in 306 individuals (all of known ploidy level) from 48 populations across the distribution of this species complex. We identified a total of 32 haplotypes—11 in diploids only, 13 in tetraploids only, and 8 found in both cytotypes. This, plus network analyses, indicated that tetraploids have arisen independently from diploids at least eight times. Most populations in the eastern QTP contained multiple haplotypes, but only a single haplotype was found for 17 tetraploid populations on the western QTP, suggesting a recent colonization of the western QTP. We further found that this species complex underwent an earlier range expansion around 5–150 thousand years ago (kya), after the largest glacial period (800–170 kya) in the QTP. In addition, the high frequencies of tetraploids in the QTP suggested that the tetraploid A. przewalskianum cytotype has evolutionary advantages over diploids in colonizing and/or surviving the arid habitats of the QTP.