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Molecular Systematics (molecular + systematics)
Selected AbstractsMOLECULAR SYSTEMATICS OF RIVER DOLPHINS INFERRED FROM COMPLETE MITOCHONDRIAL CYTOCHROME- B GENE SEQUENCESMARINE MAMMAL SCIENCE, Issue 1 2002Guang Yang Abstract 1,140 bp of the complete mitochondrial cytochrome- b gene sequences of baiji (Lipotes vexillifer), franciscana (Pontoporia blainvillei), and Ganges river dolphin (Platanista gangetica gangetica) were determined to address the systematic position and phylogeny of extant river dolphins with combination of homologous sequences of other cetaceans. The neighbor-joining (NJ), maximum parsimony (MP), and maximum likelihood (ML) phylogenetic analyses all identified the river dolphins into three lineages, i. e., Platanista, Lipotes, and Inia+Pontoporia. The Lipotes did not have sister relationship with either Platanista or Inia+Pontoporia, which strongly supported the referral of Lipotes to a separate family, i. e., Lipotidae. There were very high sequence divergences between all river dolphin genera, suggesting a relatively longer period of separation time than those among other odontocete families. [source] Molecular systematics of the speciose Indo-Pacific soft coral genus, Sinularia (Anthozoa: Octocorallia)INVERTEBRATE BIOLOGY, Issue 4 2009Catherine S. McFadden Abstract. The speciose tropical soft coral genus Sinularia traditionally has been divided into five intrageneric taxonomic groups based on variation in a single morphological character: the shape of the club sclerites (calcite skeletal elements) embedded in the surface tissues of the colony. To test the phylogenetic utility of this system of classification, we used a 735-bp fragment of the octocoral-specific mitochondrial msh1 gene to construct a molecular phylogeny that included 80 of the ,150 recognized morphospecies of Sinularia. The msh1 phylogeny recovered five well-supported clades, but they were not congruent with the traditional intrageneric taxonomic groups. Mapping of characters onto the tree suggested that the five major clades plus several additional sub-clades of Sinularia can be distinguished based on a suite of four morphological characters; these include the presence of sclerites in the tentacle, collaret, and point regions of the polyps, in addition to the shape of the club sclerites in the surface tissues. The overall growth form of the colony also distinguishes some clades. Polyp sclerites have for the most part been overlooked taxonomically in Sinularia, and as a result information on these characters is lacking or is incorrect in many species descriptions. As has been the case in other recent studies of lower metazoan groups, construction of a molecular phylogeny has led us to recognize the phylogenetic and taxonomic importance of previously overlooked morphological characters. A revised taxonomic key that includes these characters is already improving our ability to discriminate species boundaries, and facilitating description of new Sinularia species. [source] Molecular systematics of Scaphirhynchinae: an assessment of North American and Central Asian Freshwater Sturgeon SpeciesJOURNAL OF APPLIED ICHTHYOLOGY, Issue 4 2007C. B. Dillman Summary The sturgeon subfamily Scaphirhynchinae contains two genera of obligate freshwater sturgeon: Scaphirhynchus and Pseudoscaphirhynchus, from North America and Central Asia, respectively. Both genera contain morphologically variable species. A novel data set containing multiple individuals representing four diagnosable morphological variants for two species of Pseudoscaphirhynchus, P. hermanni and P. kaufmanni, was generated. These data were used to test taxonomic hypotheses of monophyly for the subfamily Scaphirhynchinae, monophyly of both Scaphirhynchus and Pseudoscaphirhynchus, monophyly of P. hermanni and P. kaufmanni, and monophyly of the recognized morphological variants. Monophyly of the subfamily Scaphirhynchinae is consistently rejected by all phylogenetic reconstruction methodologies with the molecular character set while monophyly of both river sturgeon genera is robustly supported. The molecular data set also rejects hypotheses of monophyly for sampled species of Pseudoscaphirhynchus as well as monophyly for the recognized intraspecific morphological variants. Interestingly both Scaphirhynchus and Pseudoscaphirhynchus demonstrate the same general pattern in reconstructed topologies; a lack of phylogenetic structure in the clade with respect to recognized diversity. Despite rejection of monophyly for the subfamily Scaphirhynchinae with molecular data, reconstructed hypotheses from morphological character sets consistently support monophyly for this subfamily. Disparities among the data sets, as well as reasons for rejection of monophyly for Scaphirhynchinae and species of Scaphirhynchus and Pseudoscaphirhynchus with molecular characters are examined and a decreased rate of molecular evolution is found to be most consistent with the data. [source] Molecular systematics, biogeography and population structure of Neotropical freshwater needlefishes of the genus PotamorrhaphisMOLECULAR ECOLOGY, Issue 3 2000N. R. Lovejoy Abstract Phylogenetic relationships of populations and species within Potamorrhaphis, a genus of freshwater South American needlefishes, were assessed using mitochondrial cytochrome b sequences. Samples were obtained from eight widely distributed localities in the Amazon and Orinoco rivers, and represented all three currently recognized species of Potamorrhaphis. The phylogeny of haplotypes corresponded imperfectly to current morphological species identities: haplotypes from P. guianensis, the most widespread species, did not make up a monophyletic clade. Geography played a strong role in structuring genetic variation: no haplotypes were shared between any localities, indicating restricted gene flow. Possible causes of this pattern include limited dispersal and the effects of current and past geographical barriers. The haplotype phylogeny also showed a complex relationship between fishes from different river basins. Based on the geographical distribution of clades, we hypothesize a connection between the middle Orinoco and Amazon via rivers of the Guianas. More ancient divergence events may have resulted from Miocene alterations of river drainage patterns. We also present limited data for two other Neotropical freshwater needlefish genera: Belonion and Pseudotylosurus. Pseudotylosurus showed evidence of substantial gene flow between distant localities, indicating ecological differences from Potamorrhaphis. [source] Molecular systematics in the genus Clintonia and related taxa based on rbcL and matK gene sequence dataPLANT SPECIES BIOLOGY, Issue 2 2001Kazuhiko Hayashi Abstract In an attempt to elucidate the affinity and phylogeny of the disjunct North American,eastern Asian genus Clintonia, two chloroplast genes, rbcL and matK, were sequenced for all five species (Clintonia andrewsiana, Clintonia borealis, Clintonia umbellulata, Clintonia uniflora and Clintonia udensis). Similar sequence data sets for both genes supported the idea that a monophyly of Clintonia consists of two clades, one in eastern Asia and one in North America. The North American lineage resolves into an eastern group and a western group. There are surprisingly few site substitutions within these two genes, notwithstanding the wide morphological diversity of the genus. To root the Clintonia trees, Cardiocrinum (=Lilium) cordatum, Medeola virginiana, Scoliopus bigelovii and Scoliopus hallii were used as outgroup taxa. Similar topologies for Clintonia resulted when both the rbcL and matK gene sequences were combined. However, when an amino acid tree was generated for the matK sequence, all differences between the North American species were reduced to similarities due to synonymous codon sequences. Differentiation patterns of some selected morphological, karyological and embryological characters in Clintonia were also reviewed in comparison to the resulting molecular topologies. The unique, Clintonia -type megasporogenesis that produced identical, maternally derived, diploid zygotes and endosperm coupled to polyploid buffering provides a considerable constraint on variability. A search of possible sister genera to Clintonia was also attempted based on the molecular analyses and outgroup analysis, and Medeola virginiana from eastern North America turned out to be the closest relative found. [source] Molecular systematics and population genetics of biological invasions: towards a better understanding of invasive species managementANNALS OF APPLIED BIOLOGY, Issue 1 2009J. Le Roux Abstract The study of population genetics of invasive species offers opportunities to investigate rapid evolutionary processes at work, and while the ecology of biological invasions has enjoyed extensive attention in the past, the recentness of molecular techniques makes their application in invasion ecology a fairly new approach. Despite this, molecular biology has already proved powerful in inferring aspects not only relevant to the evolutionary biologist but also to those concerned with invasive species management. Here, we review the different molecular markers routinely used in such studies and their application(s) in addressing different questions in invasion ecology. We then review the current literature on molecular genetic studies aimed at improving management and the understanding of invasive species by resolving of taxonomic issues, elucidating geographical sources of invaders, detecting hybridisation and introgression, tracking dispersal and spread and assessing the importance of genetic diversity in invasion success. Finally, we make some suggestions for future research efforts in molecular ecology of biological invasions. [source] Molecular systematics of bisexual Artemia populationsAQUACULTURE RESEARCH, Issue 7 2006Lin Hou Abstract To help resolve phylogenetic relationships among bisexual Artemia populations, phylogenetic analysis was conducted using DNA sequences from the nuclear DNA internal transcribed spacer 1 (ITS-1) and portions of the mitochondrial genome corresponding to the cytochrome oxidase I (COI). DNA sequences were generated for nine bisexual Artemia populations living in different regions of the world. Phylogenetic trees based on ITS-1 and COI sequences indicated that bisexual Artemia populations consist of four groups. The bisexual Artemia populations from Tibet and Kazakstan always clustered with Artemia urmiana in the same group; there is small sequence divergence and genetic distance among them. Therefore, we deduced that bisexual Artemia populations from Tibet and Kazakstan may belong to the A. urmiana group. Our study did not support that bisexual Artemia populations from Tibet are a new, separate species A. tibetiana. We also found that A. sinica and A. urmiana have a small genetic distance. Based upon these findings, we conclude that A. urmiana may have played an important role in the evolution of A. sinica. [source] Molecular systematics of cowries (Gastropoda: Cypraeidae) and diversification patterns in the tropicsBIOLOGICAL JOURNAL OF THE LINNEAN SOCIETY, Issue 3 2003CHRISTOPHER P. MEYER This study produces a nearly comprehensive phylogeny for the marine gastropod group Cypraeidae (cowries) and uses this topology to examine diversification patterns in the tropics. The dataset is based on molecular sequence data from two mitochondrial genes and includes 210 evolutionary significant units (ESUs) from 170 recognized species (>80%). Systematics for the group is revised based on well-supported clades, and tree topology is generally consistent with previously proposed classification schemes. Three new genera are introduced (Cryptocypraea gen. nov, Palmulacypraea gen. nov, and Contradusta gen. nov) and two previous genera are resurrected (Perisserosa and Eclogavena). One new tribe is proposed (Bistolidini). Topologies produced by a range of transition:transversion (Ti:Tv) weighting schemes in parsimony are pooled and evaluated using maximum likelihood criteria. Extensive geographical coverage shows persistent, large-scale geographical structure in sister-groups. Genetic divergence between subspecies is often equivalent or even greater than that between recognized species. Using ESUs as a metric, diversity throughout the Indo-West Pacific (IWP) increases by 38%. Intra- and inter-regional diversification patterns show that the IWP is the centre for speciation in cowries. The other major tropical regions of the world are inhabited by a predominantly relictual fauna; from a cowrie's eye-view. Good dispersal ability begets larger ranges, increased extinction resistance and morphological stasis; whereas shorter larval duration results in smaller ranges, higher speciation rates, but also higher turnover. Larval duration and dispersal ability appear correlated with ocean productivity as taxa with longer-lived larvae are associated with oligotrophic conditions; whereas taxa with shorter larval durations are associated with eutrophic, continental conditions. This tendency is carried to the extreme in temperate or upwelling regions where a planktonic phase is completely lost and crawl-away larvae evolve multiple times. A strong phylogenetic trend supports these observations as lineages leading up to and including the derived Indo-West Pacific Erroneinae clade contain taxa predominantly restricted to continental habitats and have undergone the greatest evolutionary radiations in their respective regions. © 2003 The Linnean Society of London, Biological Journal of the Linnean Society, 2003, 79, 401, 459. [source] A contribution to the phylogeny of annual species of Astragalus (Fabaceae) in the Old World using hair micromorphology and other morphological charactersFEDDES REPERTORIUM, Issue 5-6 2007F. Taeb A cladistic analysis including 32 annual and nine perennial species of Astragalus along with four outgroups from related genera is performed using characters from hair micromorphology, floral morphology and some other morphological sources. The hair characters show the similar evolutionary trends as known earlier for the genus Astragalus, but they exhibit lower variability in comparison with other major subgroups of Astragalus. The obtained data was compared with the data from molecular systematics. The most important results of this study are: 1) medifixed hairs are developed at least two times among annual Astragalus, 2) fruit morphology, does not provide strong evidence in delimitation of the sections within annual Astragalus, 3) presence of long and thick hairs with largely tuberculate base should be considered as an advanced character, and can be regarded as an important synapomorphy among annual Astragalus, 4) the position of some species of the large and heterogeneous sect. Sesamei, e.g. A. persepolitanus and A. coronilla, and their possible close relationship with the species of the sect. Oxyglottis should be re-assessed, 5) the species of the sect. Ankylotus show close relationship to sect. Platyglottis, based on floral morphology and hair characters, 6) there are not enough supports from hair, floral morphology and biogeography for considering A. annularis, A. epiglottis (as Glottis epiglottis), A. pelecinus (as Biserrula pelecinus) and A. vogelii (as Podlechiella vogelii) as separated from Astragalus (as suggested by molecular data). Moreover, the inclusion of Barnebyella calycina again in Astragalus is well supported by morphological data. (© 2007 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) Zur Phylogenie annueller Arten von Astragalus (Fabaceae) in der Alten Welt auf der Basis der Haar-Mikromorphologie und anderer morphologischer Merkmale Eine kladistische Analyse, umfassend 32 annuelle und neun perennierende Arten von Astragalus mit vier Nebengruppen verwandter Gattungen, wurde auf der Basis von Mikromorphologie, Blütenmorphologie und einiger anderer morphologischer Quellen vorgenommen. Die Merkmale der Haare zeigen ähnliche evolutionäre Tendenzen wie sie bereits früher von der Gattung Astragalus bekannt waren, doch zeigen sie im Vergleich zu anderen, umfassenderen Untergruppen von Astragalus, eine geringere Variabilität. Die so gewonnenen Daten werden mit Daten der molekularen Systematik verglichen. Die wichtigsten Ergebnisse dieser Studie sind: 1. Die im mittleren Bereich fixierten Haare entwickelten sich innerhalb der annuellen Astragalus zweimal; 2. Die Morphologie der Früchte liefert keinen eindeutigen Beweis zur Abgrenzung der Sektionen innerhalb der annuellen Astragalus -Arten; 3. Die Anwesenheit langer, dicker Haare mit einer großen tuberkularen Basis ist als abgeleitetes Merkmal zu betrachten und kann als wichtige Synapomorphie innerhalb annueller Astragalus -Arten betrachtet werden; 4. Die Stellung einiger Arten der großen, heterogenen Sekt. Sesamei, z. B. A. persepolitanus und A. coronilla und ihre möglicherweise enge Verwandtschaft mit den Arten der Sekt. Oxyglottis sollte neu beurteilt werden. 5. Die Arten der Sekt. Ankylotus zeigen aufgrund ihrer Blütenmorphologie und der Merk- male ihrer Haare enge Verwandtschaft zur Sekt. Platyglottis; 6. Es gibt nicht genügend Hinweise bezüglich Haare, Blütenmorphologie und Biogeographie um A. annularis, A. epiglottis (als Glottis epiglottis), A. pelecinus (als Biserrula pelecinus) und A. vogelii (als Podlechiella vogelii) von Astragalus abzutrennen (wie es die molekularen Daten aussagen). Dagegen ist die Wiedereingliederung von Barnebyella calycina in die Gattung Astragalus gut durch die morphologischen Daten gestützt. [source] Ultrastructure of sperms in Acoela (Acoelomorpha) and its concordance with molecular systematicsINVERTEBRATE BIOLOGY, Issue 3 2004Anatoly Petrov Abstract. The sperms of the Acoela, a group of lower worms, are filiform cells with 2 flagella incorporated into the cell body. Their axonemes can variously have 9+2, 9+1, or 9+0 patterns of microtubules; and singlet microtubules in the cell body can be arranged in axial or cortical positions. An analysis of phylogenetic relationships of acoels based on molecular characters (18S rDNA sequence data) showed that these patterns of microtubules, where known, fell into discrete monophyletic groups. To test this hypothesis, we have expanded the database of sperm characters by examining the ultrastructure of a further 10 species representing 4 acoel families. As expected, the Convolutidae fell into 2 unrelated groups: "small-bodied convolutids"(Convoluta pulchra, Praeconvoluta tigrina, Pseudaphanostoma smithrii) having 9+2 axonemes and cortical microtubules, and "large-bodied convolutids" (including Wulguru cuspidata) having 9+0 axonemes and axial microtubules. Also, as expected, a member of the Mecynostomidae (Paedomecynostomum bruneum) has 9+1 axonemes and axial microtubules. Members of a family that appears intermediate by molecular characters, the Otocelididae, significantly have a variety of patterns: axonemes with both 9+2 and 9+0 patterns (Notocelis gullmarensis) or just 9+2 (the other species), and either axial (Philocelis brueggemanni), both axial and cortical (N. gullmarensis) microtubules, or microtubules that bend between axial and cortical positions along the length of the sperm (Otocelis sandara). Members of the Dakuidae (Daku woorimensis) also belong to this intermediate group, having 9+2 axonemes and axial microtubules, while in a fifth otocelidid (Stomatricha hochbergi), sperm characters are like those of the "large-bodied convolutids" (9+0 axonemes and axial microtubules). Characters of sperm morphology generally support the molecular hypothesis of relationships and confirm a suspected polyphyly of the families Convolutidae, Otocelididae, and Actinoposthiidae. [source] Application of molecular clocks in ornithology revisitedJOURNAL OF AVIAN BIOLOGY, Issue 6 2006A. Townsend Peterson Molecular clocks have seen many applications in ornithology, but many applications are uncritical. In this commentary, I point out logical inconsistencies in many uses of clocks in avian molecular systematics. I call for greater rigor in application of molecular clocks , clocks should only be used when clocklike behavior has been tested and confirmed, and when appropriate calibrations are available. Authors and reviewers should insist on such rigor to assure that systematics is indeed scientific, and not just storytelling. [source] Avian molecular systematics on the rebound: a fresh look at modern shorebird phylogenetic relationshipsJOURNAL OF AVIAN BIOLOGY, Issue 3 2004Marcel Van Tuinen The study of avian molecular systematics currently lags behind that of mammals in several ways. Little phylogenetic resolution is observed among orders and phylogenetic studies below the ordinal level largely remain based on fast evolving mitochondrial sequences. New papers by Paton et al., Ericson et al., and Thomas et al. provide avian molecular systematics with a badly needed boost. These studies indicate that sampling more taxa and slower evolving nuclear genes yields strong phylogenetic resolution among the major shorebird (order Charadriiformes) families. The new data show surprising overall consensus and converge on certain novel clades. If correct, this newly obtained phylogenetic framework has tremendous implications for our understanding of the evolution of shorebird morphology, ecology and behaviour. [source] Genetic structure of two populations of the Namibian giraffe, Giraffa camelopardalis angolensisAFRICAN JOURNAL OF ECOLOGY, Issue 4 2009Rick A. Brenneman Abstract Two geographically distinct populations of giraffe (Giraffa camelopardalis) were sampled for this study, the northern Namib Desert and Etosha National Park. Population genetic parameters and relationships within subpopulations were estimated to better understand the genetic architecture of this isolated subspecies. Gene flow between the geographically separated populations can be attributed to recent translocation of giraffe between the two populations. Inbreeding estimates in the six subpopulations studied were low though we found evidence that genetic drift may be affecting the genetic diversity of the isolated populations in northern Namibia. Population dynamics of the sampling locations was inferred with relationship coefficient analyses. Recent molecular systematics of the Namibian giraffe populations indicates that they are distinct from the subspecies Giraffa camelopardalis giraffa and classified as G. c. angolensis. Based on genetic analyses, these giraffe populations of northern Namibia, the desert-dwelling giraffe and those protected in Etosha National Park, are a distinct subspecies from that previously assumed; thus we add data on G. c. angolensis to our scientific knowledge of this giraffe of southern Africa. Résumé Deux populations de girafes (Giraffa camelopardalis) distinctes sur le plan géographique ont servi d'échantillons pour cette étude, celle du nord du Désert du Namib et celle du Parc National d'Etosha. Nous avons estimé les paramètres génétiques des populations et les relations au sein des sous-populations pour mieux comprendre l'architecture génétique de cette sous-espèce isolée. Les flux génétiques entre les populations séparées géographiquement peuvent être attribués à la récente translocation de girafes entre ces deux populations. L'inbreeding estimé dans les six sous-populations étudiées était faible, encore que nous ayons découvert des preuves que la dérive génétique pourrait bien affecter la diversité génétique des populations isolées dans le nord de la Namibie. La dynamique des populations des endroits où furent faits les échantillonnages fut déduite en fonction de l'analyse des coefficients. La nouvelle systématique moléculaire des populations de girafes de Namibie indique qu'elles sont distinctes de la sous-espèce Giraffa camelopardalis giraffa et classées comme G.c. angolensis. Selon les analyses génétiques, ces populations de girafes du nord de la Namibie, les girafes qui vivent dans le désert et celles qui sont protégées dans le Parc National d'Etosha sont une sous-espèce distincte de celle que l'on croyait auparavant, et nous ajoutons ainsi des données sur G.c. angolensisà la connaissance scientifique de cette girafe d'Afrique australe. [source] | |||||||||||||||||||||||||