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1.
Ann Bot ; 2024 Sep 18.
Article in English | MEDLINE | ID: mdl-39292610

ABSTRACT

BACKGROUND AND AIMS: The section Synstylae in genus Rosa (Rosaceae) comprises 25-36 species and includes several major progenitors of modern rose cultivars. East Asian Synstylae species have recently diverged and are closely related, and their phylogenetic relationships remain unclear. In the present study, we employed a conserved ortholog set (COS) markers and genome-wide nuclear orthologs to elucidate their phylogenetic relationships and unravel their complex evolutionary history. METHODS: Utilising on eight Rosaceae COS (RosCOS) markers, we analysed a total of 137 accessions representing 15 East Asian Synstylae taxa to establish a robust phylogenetic framework and reconstruct ancestral areas. Furthermore, we constructed the species tree for eight representative species and estimated their divergence times based on 1,683 genome-wide orthologs. The species tree-gene tree coalescence time comparison, Patterson's D, f4-ratio, and f-branch statistics were analysed to identify incomplete lineage sorting (ILS), genetic introgression, and reticulation events using conserved ortholog data. KEY RESULTS: RosCOS markers and genome-wide orthologs effectively resolved the robust phylogeny of East Asian Rosa sect. Synstylae. Species divergence times estimated with genome-wide orthologs indicated that East Asian Synstylae species have recently diverged, with an estimated crown age of approximately 2 Mya. The rampant gene tree discordance indicated the possibility of ILS and/or genetic introgression. In the section Synstylae, deeper coalescence in the gene trees compared to the species tree suggested ILS as a source of gene tree discordance. Further, Patterson's D and f-branch statistics indicated that several lineages in the section were involved in genetic introgression. CONCLUSIONS: We have unravelled the complex evolutionary history of East Asian Rosa sect. Synstylae, including recent species divergences, ILS, and genetic introgression. Coupled with the geographical and ecological complexity of East Asia, ILS and genetic introgression may have contributed to the rapid diversification of East Asian Synstylae species by permitting adaptation to diverse environments.

2.
Heredity (Edinb) ; 126(5): 831-845, 2021 05.
Article in English | MEDLINE | ID: mdl-33510467

ABSTRACT

Understanding adaptation mechanisms is important in evolutionary biology. Parallel adaptation provides good opportunities to investigate adaptive evolution. To confirm parallel adaptation, it is effective to examine whether the phenotypic similarity has one or multiple origins and to use demographic modeling to consider the gene flow between ecotypes. Solidago yokusaiana is a rheophyte endemic to the Japanese Archipelago that diverged from Solidago virgaurea. This study examined the parallel origins of S. yokusaiana by distinguishing between multiple and single origins and subsequent gene flow. The haplotypes of noncoding chloroplast DNA and genotypes at 14 nuclear simple sequence repeat (nSSR) loci and single-nucleotide polymorphisms (SNPs) revealed by double-digest restriction-associated DNA sequencing (ddRADseq) were used for phylogeographic analysis; the SNPs were also used to model population demographics. Some chloroplast haplotypes were common to S. yokusaiana and its ancestor S. virgaurea. Also, the population genetic structures revealed by nSSR and SNPs did not correspond to the taxonomic species. The demographic modeling supported the multiple origins of S. yokusaiana in at least four districts and rejected a single origin with ongoing gene flow between the two species, implying that S. yokusaiana independently and repeatedly adapted to frequently flooding riversides.


Subject(s)
Solidago , DNA, Chloroplast/genetics , Microsatellite Repeats , Phylogeography , Solidago/genetics
3.
Ann Bot ; 128(3): 343-356, 2021 08 26.
Article in English | MEDLINE | ID: mdl-34104952

ABSTRACT

BACKGROUND AND AIMS: Hybridization is the main driver of plant diversification, and gene flow via hybridization has multifaceted effects on plant evolution. Carex angustisquama is an extremophyte that grows on soils heavily acidified by volcanism. Despite its habitat distinct from that of other species, this species is known to form interspecific hybrids, implying interspecific gene flow. It is crucial to verify the extent and direction of interspecific gene flow between C. angustisquama and closely related species to understand the evolutionary process of an extremophyte in solfatara fields. METHODS: In this study, expressed sequence tag-simple sequence repeat markers were utilized to infer the extent and direction of interspecific gene flow between C. angustisquama and closely related species. KEY RESULTS: Bayesian clustering and simulation analyses revealed that all individuals of the three hybrid species were classified into the first hybrid generation or first backcross to C. angustisquama; therefore, current interspecific gene flow is limited. Moreover, in the Bayesian inference of historical gene flow based on multispecies samples, the model that assumed no interspecific gene flow was the most strongly supported across all species pairs, including phylogenetically close but ecologically distinctive species pairs. CONCLUSIONS: Our results revealed that interspecific gene flow between C. angustisquama and its related species has been limited both currently and historically. Moreover, our results of Bayesian inference of historical gene flow indicated that extrinsic, rather than intrinsic, factors probably act as isolating barriers between Carex species, with hybrid breakdown via microhabitat segregation being the probable potential barrier. Overall, our findings provide insights into the evolutionary process of an extremophyte in solfatara fields and offer an important example of the mechanisms of diversification of the speciose genus Carex.


Subject(s)
Carex Plant , Cyperaceae , Bayes Theorem , Hybridization, Genetic , Phylogeny
4.
Mol Ecol ; 29(17): 3234-3247, 2020 09.
Article in English | MEDLINE | ID: mdl-31800130

ABSTRACT

Edaphic specialization is one of the main drivers of plant diversification and has multifaceted effects on population dynamics. Carex angustisquama is a sedge plant growing only on heavily acidified soil in solfatara fields, where only extremophytes can survive. Because of the lack of closely related species in similar habitats and its disjunct distribution, the species offers ideal settings to investigate the effects of adaptation to solfatara fields and of historical biogeography on the genetic consequences of plant edaphic specialization to solfatara fields. Here, genome-wide single nucleotide polymorphisms were used to reveal the phylogenetic origin of C. angustisquama, and 16 expressed sequence tag-simple sequence repeat markers were employed to infer population demography of C angustisquama. Molecular phylogenetic analysis strongly indicated that C. angustisquama formed a monophyletic clade with Carex doenitzii, a species growing on nonacidified soil in the sympatric subalpine zone. The result of population genetic analysis showed that C. angustisquama has much lower genetic diversity than the sister species, and notably, all 16 loci were completely homozygous in most individuals of C. angustisquama. Approximate Bayesian computation analysis supported the model that assumed hierarchical declines of population size through its evolutionary sequence. We propose that the edaphic specialist in solfatara fields has newly attained the adaptation to solfatara fields in the process of speciation. Furthermore, we found evidence of a drastic reduction in genetic diversity in C. angustisquama, suggesting that the repeated founder effects associated with edaphic specialization and subsequent population demography lead to the loss of genetic diversity of this extremophyte in solfatara fields.


Subject(s)
Carex Plant/genetics , Genetics, Population , Phylogeny , Bayes Theorem , Expressed Sequence Tags , Microsatellite Repeats , Polymorphism, Single Nucleotide , Sulfur
5.
Conserv Biol ; 34(5): 1142-1151, 2020 10.
Article in English | MEDLINE | ID: mdl-31994789

ABSTRACT

Reviews that summarize the genetic diversity of plant species in relation to their life history and ecological traits show that forest trees have more genetic diversity at population and species levels than annuals or herbaceous perennials. In addition, among-population genetic differentiation is significantly lower in trees than in most herbaceous perennials and annuals. Possible reasons for these differences between trees and herbaceous perennials and annuals have not been discussed critically. Several traits, such as high rates of outcrossing, long-distance pollen and seed dispersal, large effective population sizes (Ne ), arborescent stature, low population density, longevity, overlapping generations, and occurrence in late successional communities, may make trees less sensitive to genetic bottlenecks and more resistant to habitat fragmentation or climate change. We recommend that guidelines for genetic conservation strategies be designed differently for tree species versus other types of plant species. Because most tree species fit an LH scenario (low [L] genetic differentiation and high [H] genetic diversity), tree seeds could be sourced from a few populations distributed across the species' range. For the in situ conservation of trees, translocation is a viable option to increase Ne . In contrast, rare herbaceous understory species are frequently HL (high differentiation and low diversity) species. Under the HL scenario, seeds should be taken from many populations with high genetic diversity. In situ conservation efforts for herbaceous plants should focus on protecting habitats because the typically small populations of these species are vulnerable to the loss of genetic diversity. The robust allozyme genetic diversity databases could be used to develop conservation strategies for species lacking genetic information. As a case study of reforestation with several tree species in denuded areas on the Korean Peninsula, we recommend the selection of local genotypes as suitable sources to prevent adverse effects and to insure the successful restoration in the long term.


Incorporación de diferencias de diversidad genética entre árboles y plantas herbáceas en estrategias de conservación Resumen Las revisiones que resumen la diversidad genética de las plantas en relación con sus características ecológicas y biológicas muestran que los árboles forestales tienen más diversidad genética a nivel de población y de especie que las plantas anuales o las perennes herbáceas. Sumado a esto, la diferenciación genética entre poblaciones es significativamente más baja en los árboles que en la mayoría de las perennes herbáceas y las anuales. Hasta la fecha no se han discutido críticamente las posibles explicaciones de estas diferencias entre los árboles y las perennes herbáceas y las plantas anuales. Varias características, como las tasas altas de alogamia, la dispersión a gran distancia de polen y semillas, el gran tamaño de la población efectiva (Ne ), la estatura arbórea, la baja densidad poblacional, la longevidad, el solapamiento de generaciones y la presencia dentro de comunidades sucesionales tardías, pueden generar en los árboles una menor sensibilidad a los cuellos de botella genéticos y una mayor resistencia a la fragmentación del hábitat o al cambio climático. Recomendamos que las directrices para las estrategias de conservación genética estén diseñadas de manera diferente para las especies arbóreas que para otro tipo de plantas. Ya que la mayoría de las especies arbóreas encajan dentro de un escenario LH (baja [L] diferenciación genética y alta [H] diversidad genética), las semillas de los árboles podrían tomarse de unas cuantas poblaciones dispersas a lo largo del área de distribución de la especie. Por lo anterior, para la conservación in situ de los árboles, la translocación es una opción viable para incrementar la Ne . Al contrario de esta situación, las especies herbáceas raras del sotobosque con frecuencia son especies HL (alta diferenciación y baja diversidad). En el escenario HL, las semillas deberían ser recolectadas de muchas poblaciones con diversidad genética alta y los esfuerzos de conservación in situ para las plantas herbáceas deberían enfocarse en la protección del hábitat ya que las poblaciones típicamente pequeñas de estas especies son vulnerables a la pérdida de la diversidad genética. Las robustas bases de datos de diversidad genética aloenzimática podrían usarse para desarrollar estrategias de conservación para las especies que carecen de información genética. Como caso de estudio de reforestación con varias especies arbóreas en áreas deforestadas de la Península de Corea, recomendamos la selección de genotipos locales como fuente adecuada para prevenir los efectos adversos y para asegurar la restauración exitosa a largo plazo.


Subject(s)
Conservation of Natural Resources , Trees , Ecosystem , Genetic Variation , Plants , Trees/genetics
6.
J Plant Res ; 133(6): 765-782, 2020 Nov.
Article in English | MEDLINE | ID: mdl-32815044

ABSTRACT

Scrophularia takesimensis is a critically endangered endemic species of Ulleung Island, Korea. A previous molecular phylogenetic study based on nuclear ribosomal DNA (nrDNA) internal transcribed spacer (ITS) sequences with very limited sampling suggested that it is most closely related to the clade comprising S. alata and S. grayanoides. To determine the origin of S. takesimensis, we sampled a total of 171 accessions including S. takesimensis (9 populations and 63 individuals) and two closely related species, S. alata (11 populations and 68 individuals) and S. grayanoides (5 populations and 40 individuals) from eastern Asia and sequenced ITS and two chloroplast DNA (cpDNA) non-coding regions. Previously sequenced representative species of Scrophularia (109 taxa for ITS and 80 taxa for cpDNA) were combined with our data set and analyzed. While the global scale ITS phylogenetic tree suggests monophyly for each of the three eastern Asian species, S. takesimensis appears to be more closely related (albeit weakly) to a clade containing eastern North American/Caribbean species than to either S. alata or S. grayanoides. By contrast, the global scale cpDNA phylogenetic tree demonstrates that the eastern North America/Caribbean clade is sister to a clade comprising the three eastern Asian species. In addition, the monophyletic S. takesimensis is deeply embedded within paraphyletic S. alata, sharing its most recent common ancestor with populations from Japan/Sakhalin. Two divergent, geographically structured cp haplotype groups within S. takesimensis suggest at least two independent introductions from different source areas. A new and accurate chromosome number of S. takesimensis (2n = 94) is reported and some conservation strategies are discussed.


Subject(s)
Conservation of Natural Resources , Endangered Species , Phylogeny , Scrophularia/classification , DNA, Chloroplast/genetics , DNA, Plant/genetics , DNA, Ribosomal Spacer/genetics , Evolution, Molecular , Islands , Republic of Korea , Sequence Analysis, DNA
7.
Int J Mol Sci ; 20(19)2019 Sep 20.
Article in English | MEDLINE | ID: mdl-31547213

ABSTRACT

Symplocarpus, a skunk cabbage genus, includes two sister groups, which are drastically different in life history traits and thermogenesis, as follows: The nonthermogenic summer flowering S. nipponicus and thermogenic early spring flowering S. renifolius. Although the molecular basis of thermogenesis and complete chloroplast genome (plastome) of thermogenic S. renifolius have been well characterized, very little is known for that of S. nipponicus. We sequenced the complete plastomes of S. nipponicus sampled from Japan and Korea and compared them with that of S. renifolius sampled from Korea. The nonthermogenic S. nipponicus plastomes from Japan and Korea had 158,322 and 158,508 base pairs, respectively, which were slightly shorter than the thermogenic plastome of S. renifolius. No structural or content rearrangements between the species pairs were found. Six highly variable noncoding regions (psbC/trnS, petA/psbJ, trnS/trnG, trnC/petN, ycf4/cemA, and rpl3/rpl22) were identified between S. nipponicus and S. renifolius and 14 hot-spot regions were also identified at the subfamily level. We found a similar total number of SSR (simple sequence repeat) motifs in two accessions of S. nipponicus sampled from Japan and Korea. Phylogenetic analysis supported the basal position of subfamily Orontioideae and the monophyly of genus Symplocarpus, and also revealed an unexpected evolutionary relationship between S. nipponicus and S. renifolius.


Subject(s)
Araceae , DNA, Plant/genetics , Genome, Plastid , Phylogeny , Araceae/classification , Araceae/genetics , Japan , Korea , Species Specificity
8.
Mol Ecol ; 27(5): 1324-1337, 2018 03.
Article in English | MEDLINE | ID: mdl-29419910

ABSTRACT

The climbing orchid Erythrorchis altissima is the largest mycoheterotroph in the world. Although previous in vitro work suggests that E. altissima has a unique symbiosis with wood-decaying fungi, little is known about how this giant orchid meets its carbon and nutrient demands exclusively via mycorrhizal fungi. In this study, the mycorrhizal fungi of E. altissima were molecularly identified using root samples from 26 individuals. Furthermore, in vitro symbiotic germination with five fungi and stable isotope compositions in five E. altissima at one site were examined. In total, 37 fungal operational taxonomic units (OTUs) belonging to nine orders in Basidiomycota were identified from the orchid roots. Most of the fungal OTUs were wood-decaying fungi, but underground roots had ectomycorrhizal Russula. Two fungal isolates from mycorrhizal roots induced seed germination and subsequent seedling development in vitro. Measurement of carbon and nitrogen stable isotope abundances revealed that E. altissima is a full mycoheterotroph whose carbon originates mainly from wood-decaying fungi. All of the results show that E. altissima is associated with a wide range of wood- and soil-inhabiting fungi, the majority of which are wood-decaying taxa. This generalist association enables E. altissima to access a large carbon pool in woody debris and has been key to the evolution of such a large mycoheterotroph.


Subject(s)
Mycorrhizae/physiology , Orchidaceae/microbiology , Carbon/metabolism , Carbon Isotopes/analysis , Mycorrhizae/metabolism , Nitrogen/metabolism , Nitrogen Isotopes/analysis , Orchidaceae/classification , Orchidaceae/metabolism , Plant Roots/classification , Plant Roots/genetics
9.
Ann Bot ; 121(3): 489-500, 2018 03 05.
Article in English | MEDLINE | ID: mdl-29300816

ABSTRACT

Background and Aims: The processes and mechanisms underlying lineage diversification are major topics in evolutionary biology. Eurasian goldenrod species of the Solidago virgaurea complex show remarkable morphological and ecological diversity in the Japanese Archipelago, with ecotypic taxa well adapted to specific environments (climate, edaphic conditions and disturbance regimes). The species complex is a suitable model to investigate the evolutionary processes of actively speciating plant groups, due to its ability to evolve in relation to environmental adaptation and its historical population dynamics. Methods: Two chloroplast markers, 18 nuclear microsatellite markers and ddRAD-sequencing were used to infer population genetic demography of S. virgaurea complex with its related species/genera. Key Results: Our analysis showed that populations in Japan form an evolutionary unit, which was genetically diverged from adjacent continental populations. The phylogenetic structure within the archipelago strongly corresponds to the geography, but interestingly there is no concordance between genetic structure and ecotypic boundaries; neighbouring populations of distinct ecotypes share a genetic background. Conclusions: We propose that the traits specific to the ecotypic entities are maintained by natural selection or are very recently generated and have little effect on the genomes, making genome-wide genetic markers unsuitable for detecting ecotypic differentiation. Furthermore, some sporadically distributed taxa (found as rheophytes and alpine plants) were repeatedly generated from a more widespread taxon in geographically distant areas by means of selection. Overall, this study showed that the goldenrod complex has a high ability to evolve, enabling rapid ecological diversification over a recent timeframe.


Subject(s)
Solidago/genetics , DNA, Chloroplast/genetics , Ecology , Genetic Variation/genetics , Genetics, Population , Japan , Microsatellite Repeats/genetics , Phylogeny , Phylogeography , Sequence Analysis, DNA
10.
BMC Evol Biol ; 16: 20, 2016 Jan 22.
Article in English | MEDLINE | ID: mdl-26801608

ABSTRACT

BACKGROUND: During glacial periods, glacial advances caused temperate plant extirpation or retreat into localized warmer areas, and subsequent postglacial glacial retreats resulted in range expansions, which facilitated secondary contact of previously allopatric isolated lineages. The evolutionary outcomes of secondary contact, including hybrid zones, dynamic hybrid swarm, and resultant hybrid speciation, depends on the strengths of reproductive barriers that have arisen through epistatic and pleiotropic effects during allopatric isolation. The aim of this study was to demonstrate refugia isolation and subsequent secondary contact between two perennial Asclepioid species and to assess the genetic consequences of the secondary contact. We modeled the range shift of two ecologically distinct Vincetoxicum species using the species distribution model (SDM) and assessed the genetic consequences of secondary contact by combining morphological and genetic approaches. We performed morphometric analysis (592 individuals) and examined 10 nuclear microsatellites (671 individuals) in V. atratum, V. japonicum, and putative hybrid populations. RESULTS: Multivariate analysis, model-based Bayesian analysis, and non-model-based discriminant analysis of principal components confirmed the hybridization between V. atratum and V. japonicum. High pollen fertility and a lack of linkage disequilibrium suggested that the hybrid populations may be self-sustaining and have persisted since V. atratum and V. japonicum came into contact during the post-glacial period. Moreover, our findings show that the pattern of hybridization between V. atratum and V. japonicum is unidirectional and differs among populations. Geographically-isolated hybrid populations exist as genetically distinct hybrid swarms that consist of V. atratum-like genotypes, V. japonicum-like genotypes, or admixed genotypes. In addition, Bayesian-based clustering analysis and coalescent-based estimates of long-term gene flow showed patterns of introgressive hybridization in three morphologically 'pure' V. japonicum populations. CONCLUSION: In this study, we demonstrated that climatic oscillations during the Quaternary period likely led to species range shift and subsequently secondary contact. Hybrid populations may be self-sustaining and have persisted since V. atratum and V. japonicum came into contact during the post-glacial period. Pattern of hybridization between V. atratum and V. japonicum is unidirectional and differs among populations. We concluded that these differences in the genetic consequences of secondary contact are caused by historical colonization processes and/or natural selection.


Subject(s)
Apocynaceae/physiology , Hybridization, Genetic , Vincetoxicum/physiology , Bayes Theorem , Biological Evolution , Gene Flow , Genotype , Linkage Disequilibrium , Microsatellite Repeats , Selection, Genetic
11.
J Hered ; 107(5): 455-62, 2016 Sep.
Article in English | MEDLINE | ID: mdl-27271115

ABSTRACT

We examined the genetic diversity and structure in populations of the endangered grassland herb Vincetoxicum atratum using 11 polymorphic microsatellite loci. Although the populations were small and disconnected, our molecular data indicated that the species maintains relatively high levels of genetic diversity and connectivity among populations. Population clustering analyses detected 2 to 3 clusters and most of the populations of V. atratum comprised admixture of these genetic clusters. These admixtures likely formed during the process of colonizing habitats that had been disturbed by human activities. However, STRUCTURE clustering detected low-admixtures in populations occurring in rocky maritime sites, which may not be suitable for agriculture/rangeland activities. High genetic diversity and population connectivity suggested that loss of the remaining populations by grassland reduction might be an immediate threat for this species. Small grasslands populations managed by local farmers need appropriate conservation practices. Although our results showed genetic diversity and gene flow among populations of V. atratum were high, it is possible that this resulted from the historical continuous distribution of the species. To examine this hypothesis, further periodical monitoring of the genetic diversity and the genetic differentiation for the species is needed for a conservation action of the species.


Subject(s)
Genetic Variation , Genetics, Population , Vincetoxicum/classification , Vincetoxicum/genetics , Ecosystem , Evolution, Molecular , Gene Flow , Grassland , Japan , Microsatellite Repeats
12.
J Plant Res ; 129(6): 1013-1020, 2016 Nov.
Article in English | MEDLINE | ID: mdl-27542159

ABSTRACT

The evolution of mycoheterotrophy has been accompanied by extreme reductions in plant leaf size and photosynthetic capacity. Partially mycoheterotrophic plants, which obtain carbon from both photosynthesis and their mycorrhizal fungi, include species with leaves of normal size and others that are tiny-leaved. Thus, plant species may lose their leaves in a gradual process of size reduction rather than through a single step mutation. Little is known about how the degree of mycoheterotrophy changes during reductions in leaf size. We compared the degree of mycoheterotrophy among five Japanese Cephalanthera species, four with leaves of normal size (Cephalanthera falcata, Cephalanthera erecta, Cephalanthera longibracteata and Cephalanthera longifolia), one with tiny leaves (Cephalanthera subaphylla), and one albino form of C. falcata (as reference specimens for fully mycoheterotrophic plants). The levels of mycoheterotrophy were determined by stable isotope natural abundance analysis. All Cephalanthera species were relatively enriched in 13C and 15N in comparison with surrounding autotrophic plants. Cephalanthera subaphylla was strongly enriched in 13C and 15N to levels similar to the albinos. Species with leaves of normal size were significantly less enriched in 13C than C. subaphylla and the albinos. Thus, C. subaphylla was strongly mycoheterotrophic, obtaining most of its carbon from mycorrhizal fungi even though it has tiny leaves; species with leaves of normal size were partially mycoheterotrophic. Hence, during the evolutionary pathway to full mycoheterotrophy, some plant species appear to have gained strong mycoheterotrophic abilities before completely losing foliage leaves.


Subject(s)
Carbon/metabolism , Fungi/metabolism , Heterotrophic Processes , Nitrogen/metabolism , Orchidaceae/metabolism , Orchidaceae/microbiology , Japan , Orchidaceae/anatomy & histology , Plant Leaves/anatomy & histology , Species Specificity , Symbiosis
13.
Mol Phylogenet Evol ; 77: 183-94, 2014 Aug.
Article in English | MEDLINE | ID: mdl-24792085

ABSTRACT

Rapid organismal radiations occurring on the Qinghai-Tibetan Plateau (QTP) and the mechanisms underlying Asia-Africa intercontinental disjunctions have both attracted much attention from evolutionary biologists. Here we use the genus Isodon (Lamiaceae), a primarily East Asian lineage with disjunct species in central and southern Africa, as a case study to shed light upon these processes. The molecular phylogeny and biogeographic history of Isodon were reconstructed using sequences of three plastid markers, the nuclear ribosomal internal transcribed spacer (nrITS), and a low-copy nuclear gene (LEAFY intron II). The evolution of chromosome numbers in this genus was also investigated using probabilistic models. Our results support a monophyletic Isodon that includes the two disjunct African species, both of which likely formed through allopolyploidy. An overland migration from Asia to Africa through Arabia during the early Miocene is proposed as the most likely explanation for the present disjunct distribution of Isodon. The opening of the Red Sea in the middle Miocene may appear to have had a major role in disrupting floristic exchange between Asia and Africa. In addition, a rapid radiation of Isodon was suggested to occur in the late Miocene. It corresponds with one of the major uplifts of the QTP and subsequent aridification events. Our results support the hypothesis that geological and climatic events play important roles in driving biological diversification of organisms distributed in the QTP area.


Subject(s)
Isodon/genetics , Phylogeny , Africa , China , Chromosomes, Plant , Isodon/classification , Phylogeography , Sequence Analysis, DNA
14.
Am J Bot ; 100(11): 2240-9, 2013 Nov.
Article in English | MEDLINE | ID: mdl-24190948

ABSTRACT

PREMISE OF THE STUDY: We posed two hypotheses for broad scenarios of postglacial recolonization of Korea by the warm-temperate vegetation: (1) that extant Korean populations are derived from a single refugium, or (2) that they are derived from multiple refugia. We chose a homosporous fern typical of East Asian warm-temperate vegetation, Selliguea hastata, to test which of the two scenarios is more likely and to check whether Japan contained putative glacial refugia. METHODS: Using 16 allozyme loci, we obtained genotypes of 756 individuals from 20 populations, representative of the whole distribution area in Korea (including Jeju Island), Japan, and Taiwan. We assessed genetic variability within and among populations, Wright's F-statistics, and conducted analysis of molecular variance, model-based Bayesian clustering, and bottleneck tests. KEY RESULTS: We found no allozyme variation within populations of S. hastata in mainland Korea, whereas genetic polymorphism was detected for populations from Jeju Island, Japan (in particular a population from southeastern Shikoku), and Taiwan. The levels of inbreeding within populations were high, consistent with the potential of S. hastata for intragametophytic selfing. CONCLUSIONS: Data on allelic richness together with Bayesian clustering methods suggest a pattern of postglacial recolonization of mainland Korea from a single refugium, probably located either on Jeju Island or in Japan. Jeju Island should merit the highest priority for conservation biogeography, as it played a role as a Quaternary refugium for arctic-alpine, boreal, temperate as well as warm-temperate plants, as suggested here.


Subject(s)
Genetic Variation , Polypodiaceae/genetics , Bayes Theorem , Conservation of Natural Resources , Electrophoresis , Inbreeding , Islands , Isoenzymes/genetics , Isoenzymes/metabolism , Japan , Molecular Sequence Data , Phylogeny , Plant Proteins/genetics , Plant Proteins/metabolism , Polypodiaceae/metabolism , Republic of Korea , Sequence Analysis, DNA , Taiwan
15.
J Hered ; 104(2): 248-62, 2013 Mar.
Article in English | MEDLINE | ID: mdl-23125404

ABSTRACT

It is thought that the warm-temperate vegetation of Korea, which at present is limited to southern coastal areas, was founded by individuals from glacial refugia putatively located in southern Japan and/or southern China. Two scenarios of postglacial recolonization can be hypothesized: 1) extant Korean populations are derived from multiple source populations or, 2) they originated from a single source. To test which of these scenarios is more likely, we surveyed patterns of genetic diversity in 3 congeneric terrestrial orchids that are typical of Korean warm-temperate vegetation, Calanthe discolor, C. sieboldii, and C. reflexa. In total, we studied 14 populations with 17 allozyme loci. To complement the study, we also tested the 2 scenarios with previous population-genetics data reported for other warm-temperate plant species native to Korea. Levels of genetic variation in the 3 Calanthe species were substantially higher than those typical of allozyme-based studies in other terrestrial orchid species, which clearly suggest a pattern of postglacial recolonization fitting the first scenario. However, previous studies with native Korean species showed equivocal patterns and suggest conflicting scenarios. The Calanthe species studied here and the previous genetic surveys conducted on other species indicate that the establishment of contemporary warm-temperate vegetation in Korea has been diverse since deglaciation. From a conservation perspective, C. reflexa should be regarded as endangered in Korea, needing special attention to preserve its current genetic diversity and to prevent further decreases in population sizes.


Subject(s)
Endangered Species , Genetic Variation , Orchidaceae/genetics , Alleles , Conservation of Natural Resources , Gene Frequency , Genetic Loci , Genetics, Population , Geography , Inbreeding , Isoenzymes/genetics , Orchidaceae/classification , Phylogeny , Population Density , Population Dynamics , Republic of Korea , Temperature
16.
Ecol Evol ; 13(7): e10319, 2023 Jul.
Article in English | MEDLINE | ID: mdl-37456070

ABSTRACT

The genus Symplocarpus in basal Araceae includes both thermogenic and non/slightly thermogenic species that prefer cold environments. If floral thermogenesis of Symplocarpus contributes to cold adaptation, it would be expected that thermogenic species have a larger habitat than non/slightly thermogenic species during an ice age, leading to increased genetic diversity in the current population. To address this question, potential distribution in past environment predicted by ecological niche modeling (ENM), genetic diversity, and population structure of chloroplast and genome-wide single nucleotide polymorphisms were compared between thermogenic Symplocarpus renifolius and non/slightly thermogenic Symplocarpus nipponicus. ENM revealed that the distribution of S. nipponicus decreased, whereas that of S. renifolius expanded in the Last Glacial Maximum. Phylogeographic analyses have shown that the population structures of the two species were genetically segmented and that the genetic diversity of S. renifolius was higher than that of S. nipponicus. The phylogenetic relationship between chloroplast and nuclear DNA is topologically different in the two species, which may be due to the asymmetric gene flow ubiquitously observed in plants. The results of this study imply that floral thermogenesis of Symplocarpus contributes to expanding the distribution during an ice age, resulting in increased genetic diversity due to cold adaptation.

17.
Front Plant Sci ; 14: 1089165, 2023.
Article in English | MEDLINE | ID: mdl-36998693

ABSTRACT

Although the monophyly of Phedimus has been strongly demonstrated, the species relationships among approximately 20 species of Phedimus have been difficult to determine because of the uniformity of their floral characteristics and extreme variation of their vegetative characters, often accompanied by high polyploid and aneuploid series and diverse habitats. In this study, we assembled 15 complete chloroplast genomes of Phedimus species from East Asia and generated a plastome-based backbone phylogeny of the subgenus Aizoon. As a proxy for nuclear phylogeny, we reconstructed the nuclear ribosomal DNA internal transcribed spacer (nrDNA ITS) phylogeny independently. The 15 plastomes of subg. Aizoon were highly conserved in structure and organization; hence, the complete plastome phylogeny fully resolved the species relationships with strong support. We found that P. aizoon and P. kamtschaticus were polyphyletic and morphologically distinct or ambiguous species, and they most likely evolved from the two species complex. The crown age of subg. Aizoon was estimated to be 27 Ma, suggesting its origin to be in the late Oligocene; however, the major lineages were diversified during the Miocene. The two Korean endemics, P. takesimensis and P. zokuriensis, were inferred to have originated recently during the Pleistocene, whereas the other endemic, P. latiovalifolium, originated in the late Miocene. Several mutation hotspots and seven positively selected chloroplast genes were identified in the subg. Aizoon.

18.
Am J Bot ; 99(6): e255-7, 2012 Jun.
Article in English | MEDLINE | ID: mdl-22623611

ABSTRACT

PREMISE OF THE STUDY: Microsatellite markers were developed for Tiarella polyphylla in Korea and Japan to study the genetic diversity and genetic structure of the species. METHODS AND RESULTS: We successfully isolated a total of nine polymorphic simple sequence repeat loci. These nine loci contained from two to eight alleles per locus. The observed and expected heterozygosities ranged from 0.000 to 0.250 and 0.000 to 0.974, respectively. CONCLUSIONS: The markers developed in this study may be used to estimate genetic diversity, genetic structure, and historical and recent gene flow in T. polyphylla, which requires conservation and management.


Subject(s)
Genetic Variation , Microsatellite Repeats/genetics , Plant Leaves/genetics , Saxifragaceae/genetics , DNA Primers/genetics , DNA, Plant/chemistry , DNA, Plant/genetics , Genotype , Molecular Sequence Data , Polymerase Chain Reaction , Polymorphism, Genetic , Saxifragaceae/classification , Sequence Analysis, DNA , Species Specificity
19.
J Hered ; 103(5): 692-702, 2012.
Article in English | MEDLINE | ID: mdl-22563130

ABSTRACT

We hypothesized that the main Korean mountain ranges provided many refugia for boreal plant species, where they likely found relatively stable habitats and maintained large population sizes. Under this scenario, high levels of genetic variation and low degree of differentiation among populations within these species were anticipated. To test this hypothesis, we examined levels of allozyme diversity (17 loci) in 12 populations of the common terrestrial montane orchid Oreorchis patens from the main ranges in Korea and 4 populations of its rare congener O. coreana, which is restricted to the Korean island of Jeju. As expected, O. patens harbored high levels of genetic variation within populations (%P = 62.8, A = 1.96, H (o) = 0.211, and H (e) = 0.237). Allele frequency differences among populations were low (F (ST) = 0.075), and the species also displayed a significant correlation between pairwise genetic differentiation and geographical distance. All these results suggest that extant populations were founded by multiple genetically diverse individuals and that most of this initial diversity would have been maintained in the stable mountainous conditions during Quaternary climatic oscillations. In contrast, we were unable to detect any genetic diversity in O. coreana, suggesting that contemporary populations likely originated from a single ancestral source population that had lost all genetic variability. From a long-term conservation genetics perspective, extreme rarity and small population sizes, coupled with its apparent genetic uniformity, place O. coreana at a high risk of extinction. Thus, both in situ and ex situ conservation efforts should be of particular importance for this species.


Subject(s)
Conservation of Natural Resources , Evolution, Molecular , Genetic Variation , Orchidaceae/genetics , Cloning, Molecular , Gene Frequency , Inbreeding , Orchidaceae/classification , Phylogeography , Republic of Korea , Seasons
20.
Mitochondrial DNA B Resour ; 7(6): 1171-1173, 2022.
Article in English | MEDLINE | ID: mdl-35783051

ABSTRACT

Thalictrum aquilegiifolium (Ranunculaceae) is widely distributed in the Eurasian Continent and Japan and comprises some intraspecific taxa. We report here the complete chloroplast genome of T. aquilegiifolium var. sibiricum. The plastome of T. aquilegiifolium var. sibiricum is 156,074 bp in length, containing large (85,457 bp) and small (17,642 bp) single-copy regions which are separated by a pair of inverted repeats (26,487 bp each). The genome consists of 119 genes, including 88 protein-coding, four ribosomal RNA genes, and 27 transfer RNA genes. Our phylogenetic analysis revealed that Thalictrum species formed a highly supported clade, indicating that these species are monophyletic.

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