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A taxonomic and biogeographic analysis of the <i>Trifolium gracilentum</i> species complexRogers, Lauren Marie 06 August 2019 (has links)
No description available.
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Disease Vectors of Papua New Guinea, Members of the <i>Anopheles Punctulatus</i> Species Complex (Diptera:Culicidae) – Molecular Diversity, Species Identification and Implications for Integrated Vector ManagementHalldin, Cara Nicole 04 May 2011 (has links)
No description available.
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Polimorfismo em Aedes scapularis: caracterização genética e morfológica de um dos vetores de filárias e arbovírus. / Polymorphisms in Aedes scapularis: Genetic and morphological characterization of one filaria and arbovirus vector.Petersen, Vivian Aparecida Ramos 01 June 2017 (has links)
A presente tese compreende 2 capítulos, dedicados à investigação de complexo de espécie e polimorfismo em Aedes scapularis. No Capítulo 1 foi desenvolvido um resumo técnico dos procedimentos utilizados na análise e montagem dos genes do DNA mitocondrial de 19 indivíduos da espécie Aedes scapularis e de como foi realizada a filtragem do DNA de alguns mosquitos em relação ao DNA amplificado do animal picado. No Capítulo 2 realizamos as análises de complexo de espécies e polimorfismo molecular em Aedes scapularis, com espécimes da Mata Atlântica, Caatinga e Mata Amazônica utilizando os marcadores: Morfometria Geométrica, gene Citocromo Oxidase Subunidade I e análise do DNA mitocondrial completo. Encontramos alto polimorfismo evidenciados por todos os marcadores populacionais nos mosquitos dos diferentes biomas estudados e alta estruturação populacional na análise filogenética dos genes mitocondriais codificadores de proteínas. Obtivemos duas conclusões majoritárias em nosso trabalho: 1) a espécie Aedes scapularis é genética e morfologicamente polimórfica em todos os ambientes estudados 2) Não encontramos evidência de complexo de espécies neste mosquito e então acreditamos que este mosquito trate-se de uma única entidade taxonômica. / The present thesis comprises 2 chapters, dedicated to the investigation of species complex and polymorphism in Aedes scapularis. In Chapter 1 a technical summary of procedures used in the analysis and assembly of mitochondrial DNA genes of 19 individuals of the species Aedes scapularis and how the \"filtering\" of the DNA of some mosquitoes was performed in relation to the amplified DNA of the animal bitten. In Chapter 2 we performed the analyzes of species complex and molecular polymorphism in Aedes scapularis, with Atlantic Forest, Caatinga (Xerophytic sparse tropical scrub) and Amazon Forest specimens using the markers: geometric morphometrics, Cytochrome Oxidase Subunit I gene Whole mitochondrial DNA analysis. We found high polymorphism evidenced for every markers in the mosquitoes of different biomes studied and high population structure in the phylogenetic analysis of the protein-coding mitochondrial genes. We obtained two principal conclusions in our work: 1) the species Aedes scapularis is genetic and morphologically polymorphic in all studied environments 2) We did not find evidence of species complex in this mosquito and therefore we believe that this mosquito is a single taxonomic entity.
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Typage moléculaire du complexe d'espèces Fusarium solani et détermination de son mécanisme de résistance au voriconazole / Molecular typing of Fusarium solani species complex and determination of its resistance mechanism to voriconazoleDebourgogne, Anne 29 March 2013 (has links)
Le complexe d'espèces Fusarium solani regroupe des champignons phytopathogènes également impliqués en pathologie humaine dans des infections parfois profondes et souvent de mauvais pronostic. Dans un premier temps, une méthode de MLST, s'appuyant sur 5 gènes de ménage a donc été développée. Validée sur 51 isolats épidémiologiquement distincts, cette méthode stable et reproductible présente un pouvoir discriminant de 99,1 %. Après comparaison à la technique de référence utilisée en phylogénie, un schéma consensus à 8 loci a été proposé. Dans un second temps, une étude de la sensibilité de ce pathogène à l'amphotéricine B et au voriconazole a été menée par deux techniques d'évaluation des CMI : microdilution CLSI M38-A2 et bandelettes E-test. Devant le paradoxe entre une sensibilité diminuée in vitro au voriconazole et la recommandation de cette molécule pour le traitement curatif de la fusariose humaine, des mécanismes de résistance ont été exploré. L'hypothèse d'un phénomène d'efflux n'a pas été retenue alors que celle d'une modification de la cible, la 14 alpha stérol déméthylase, peut être envisagée après la description de différentes mutations pour les isoformes CYP51A, B et C / Fusarium solani species complex includes phytopathogenic fungi also involved in human infections with poor prognosis. Firstly, MLST method, based on five housekeeping genes has been developed. This method has been validated on 51 isolates epidemiologically distinct, and has been shown to be stable and reproducible and provides a discriminating power of 99.1%. After comparison with the reference technique used in phylogeny, a consensus method with 8 loci has been proposed. Secondly, a study of the susceptibility to amphotericin B and voriconazole has been conducted with two MIC determination methods : CLSI M38-A2 microdilution and E-test. The paradox between decreased susceptibility to voriconazole in vitro and recommendation of this molecule for the curative treatment of Fusarium infections has lead to the exploration of resistance mechanisms. The hypothesis of an efflux phenomenon has not been retained whereas a change in the target, the sterol 14 alpha demethylase may be considered following the description of different mutations on proteins CYP51A, B and C
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Diversité génétique et admixture au sein du complexe d’espèces Bemisia tabaci : contributions des compartiments nucléaires et cytoplasmiques / Genetic diversity and admixture within the Bemisia tabaci species complex : nuclear and cytoplasmic contributionsTerraz, Gabriel 06 July 2016 (has links)
Les invasions biologiques ont des conséquences écologiques telles que l'émergence de pathogènes et de ravageurs. Les populations invasives font face à de nouvelles conditions biotiques et abiotiques qu'elles doivent surmonter. Ces invasions biologiques sont des systèmes modèles pour étudier l'évolution sur de courtes échelles de temps car elles nécessitent une adaptation rapide qui fait intervenir différents processus (sélection naturelle, dérive, plasticité phénotypique). Du fait des introductions multiples et de l'hybridation, une augmentation de la variabilité génétique nucléaire peut-être observée dans ces populations, support d'une réponse adaptative plus rapide. De plus, chez les insectes, les symbiotes peuvent jouer un rôle important dans l'adaptation, contribution encore largement inconnue. Le ravageur de culture Bemisia tabaci est un complexe d'espèces dont les barrières reproductives sont peu connues et dont les différentes entités --- les cytotypes --- présentent des cortèges symbiotiques qui leur sont spécifiques. Grâce à une description de la dynamique spatio-temporelle de ces cytotypes, en contexte invasif en France et plus largement dans le bassin méditerranéen, nous avons constaté la présence simultanée de deux de ces entités et nous nous sommes interrogés sur un éventuel remplacement ou une coexistence. Cette situation originale nous a permis de tester leurs limites reproductives grâce à des microsatellites et des tests comportementaux, ainsi que la possibilité de transferts horizontaux de bactéries. Transferts que nous avons tenté de reproduire en laboratoire. Nous avons aussi développé des marqueurs RADSeq pour de futures analyses génomiques / Biological invasions have ecological consequences such as the emergence of pathogens and pests. Invasive populations face new biotic and abiotic conditions that they have to overcome.These biological invasions are model systems to study the evolution over short time scales because they require rapid adaptation that involves different processes (natural selection, drift, phenotypic plasticity).Because multiple introductions and hybridization, an increase in the nuclear genetic variability may be observed in these populations, supporting a faster adaptive response.Moreover, in insects, symbionts can play an important role in adaptation, a contribution largely unknown yet.Bemisia tabaci crop pest is a complex of species whose reproductive barriers are poorly known and whose different entities --- the cytotypes --- have symbiotic associations specific to them.Through a spatio-temporal dynamics description of these cytotypes in invasive context in France and more widely in the Mediterranean bassin, we found the simultaneous presence of both of these entities and we wondered about a possible replacement or coexistence.This peculiar situation has allowed us to test their reproductive boundaries with microsatellites and behavioral tests, as well as the possibility of horizontal transfer of bacteria. Transfers that we tried to reproduce in the laboratory. We have also developed RADSeq markers for future genomic analyzes
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A Systematic Revision of the Carex Nardina Complex (Cyperaceae)Sawtell, Wayne MacLeod January 2012 (has links)
The Carex nardina complex is a group of one to three species (C. nardina, C. hepburnii, C. stantonensis) and six taxa of unispicate sedges (Cyperaceae), the taxonomy of which has been controversial since the 1800s. As initial DNA phylogenies suggested that the complex was nested within Carex section Filifoliae and sister to C. elynoides, a species often confused with C. nardina and sympatric with it in the western North American Cordillera, analyses were conducted to determine whether C. hepburnii, C. stantonensis and other infraspecific taxa could be the result of hybridization. Morphometric and molecular analyses found no substantial evidence for hybridization and supported the recognition of no taxon beyond C. nardina. Consequently, this study concludes that the complex comprises a single variable species, Carex nardina, distributed throughout arctic North America south through the western Cordillera to New Mexico with a minor portion of its range in northeastern Russia, northwestern Scandinavia and Iceland.
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Habitatové preference a párování koexistujících západokarpatských linií blešivců druhového komplexu Gammarus fossarum / Habitat and pairing preferences among coexisting lineages of the Gammarus fossarum species complex in the Western CarpathiansBystřický, Pavel Karel January 2020 (has links)
In recent years, due to the development of molecular methods, a great level of cryptic diversity across multiple taxa was discovered. One of these groups are freshwater amphipods. Amphipods due to lower dispersal and recolonization abilities present a suitable model system for studying potential ecological interactions among genetically distant lineages during their secondary contact. In this thesis, I studied the cryptic species complex Gammarus fossarum in a contact zone of several genetically divergent lineages known from the previous research in the Vsetin region. I focused on two main questions: Firstly, whether there are preferences among individuals from different lineages for sexual partners from the same lineage rather than from the different one (i.e., I test for the potential existence of prezygotic reproduction barrier between the lineages). I tested this hypothesis by collecting pairs from natural contact zone and also (in a limited extent) by an aquarium experiment. Secondly, I tested whether these lineages differ in mesohabitat (pool versus riffle) distribution in syntopy, which may indicate competition among lineages and potential diversification of their ecological niches. Animals from nine localities (with expected contact of two lineages per locality) were examined. In more than...
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CHARACTERIZING BILLBUG (SPHENOPHORUS SPP.) SEASONAL BIOLOGY USING DNA BARCODES AND A SIMPLE MORPHOMETRIC ANALYSISMarian M Rodriguez-Soto (10726101) 30 April 2021 (has links)
Insect species complexes challenge entomologists in a variety of ways ranging from quarantine protection to pest management. Billbugs (Coleoptera: Curculionidae: <i>Sphenophorus</i> spp. Schönherr) represent one such species complex that has been problematic from a pest management perspective. These grass-feeding weevils reduce the aesthetic and functional qualities of turfgrass. Sixty-four species of billbugs are native to North America, and at least ten are associated with damage to turfgrass. Billbug species are sympatric in distribution and their species composition and seasonal biology varies regionally. Since their management relies heavily on proper choice of insecticide active ingredients and timing of insecticide applications that target specific life stages, understanding billbug seasonal biology underpins the development of efficient management programs. However, billbug seasonal biology investigations are currently hindered by our inability to identify the damaging larval stage to species level. DNA barcoding, which involves the use of short DNA sequences that are unique for each species, represents one potential tool that can aid these efforts. By combining DNA-based species identification with morphometric measures capable of serving as a proxy of larval development, it may be possible to gain a more holistic understanding of billbug seasonal biology. In this study, we developed a DNA barcoding reference library using cytochrome oxidase subunit 1 (COI) sequences from morphologically identified adult billbugs collected across Indiana, Missouri, Arizona, and Utah. Next, we applied our reference library for comparison and identification of unknown larval specimens collected across the growing season in Utah and Indiana. We then used a combination of DNA barcoding and larval head capsule diameters acquired from samples collected across a short span of the growing season to produce larval phenology maps. Adult billbug COI sequences varied within species, but the variation was not shaped by geography, indicating that this locus itself could resolve larval species identity. Overlaid with head capsule diameter data from specimens collected across the growing season, a better understanding of billbug species composition and seasonal biology emerged. This knowledge will provide researchers with the tools necessary to fill critical gaps in our understanding of billbug biology thereby improving turfgrass pest management. Using this approach researchers will be able to support efforts to provide growers with the information necessary to develop more prescriptive, location-based management programs and reduce the ecological footprint of turfgrass pest management.
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Ekofyziologická diferenciace kryptických druhů komplexu Synura petersenii (Synurophyceae) / Ecophysiological differentiation of Synura petersenii cryptic species (Synurophyceae)Jelínková, Lucie January 2014 (has links)
Synura petersenii represents a complex of pseudo-cryptic species. These are planktonic colonial organisms belonging to the class Chrysophyceae. The species are abundant in spring and autumn, when they produce golden-brown blooms in oligo-mesotrophic waters. In this thesis, I focused on investigating the effect of temperature to growth parameters of four selected species: S. petersenii, S. americana, S. glabra and S. conopea. Several temperature experiments were performed and statistically analyzed. According to growth curves the temperature 25 žC was mostly stressful for these organisms. Only S. petersenii sensu stricto was sometimes able to growth at this temperature. In general, the significant differences in growth rates were detected between S. petersenii and S. americana. In all experiments, S. petersenii had the lowest growth rate. This ubiquitous species probably acts as a K-strategist. S. americana grew generally very quickly, especially at temperature 13 žC that is obviously optimal for it. Further, I observed a significant strain specificity, which is largely a well-known phenomenon in the ecophysiology. Significant differences in growth rates were noted between temperatures 13 žC and 16 žC, where all tested species grew best, as well. This is in accordance with a general recognition of...
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Dissection of fertility barriers among lineages of Gibberella zeaeFuentes-Bueno, Irazema January 1900 (has links)
Master of Science / Department of Plant Pathology / Robert L. Bowden / John F. Leslie / Fusarium graminearum Schwabe sensu lato (teleomorph: Gibberella zeae (Schwein.) Petch), a homothallic ascomycete fungus, is the causal agent of Fusarium head blight (FHB) of wheat (Triticum aestivum L.), barley (Hordeum vulgare L.), and other small grains. FHB occurs worldwide and serious outbreaks have been reported in North America, South America, Asia, and Europe. According to the phylogenetic species concept (PSC), F. graminearum is composed of at least 15 phylogenetic lineages known as the Fusarium graminearum species complex.
Although F. graminearum is homothallic, some members of different phylogenetic lineages are known to intercross in the laboratory. It has been suggested that F. graminearum sensu lato fits the biological species concept (BSC). According to the BSC, “species are groups of actually or potentially interbreeding natural populations, which are reproductively isolated from other such groups”. Previous reports of intercrossing were qualitative, so the degree of reproductive isolation, if any, is not clear. Since intrinsic reproductive isolation is the key criterion to identify species by the BSC, more detailed quantitative information is needed.
Chromosome rearrangements between fungal strains may reduce fertility in sexual crosses through the production of genetically inviable recombinant progeny. As such, rearrangements can be important postzygotic reproductive barriers between species. Following methods used in Neurospora crassa, ascospore tetrads were analyzed for patterns of ascospore viability. Crosses were made with three lineage 7 (F. graminearum sensu stricto according to PSC) strains as female. Each female was a MAT1-2 knockout mutant that rendered it obligately heterothallic. Males were several members of lineages 6 (F. asiaticum according to PSC) and lineage 7. Crosses with lineage 7 males formed complete asci with 8 ascospores indicating that their genomes are isosequential with the testers. Crosses with one strain from lineage 6 with two known inversions produced asci containing 8, 6, and 4 ascospores, consistent with it not being isosequential. However, three other strains of lineage 6 appeared to be isosequential with the testers. Therefore, chromosome rearrangements did not appear to be common to strains of lineage 6 and probably do not contribute significantly to reproductive isolation of lineage 6 and lineage 7.
Interlineage fertility studies with the three lineage 7 tester strains were performed to quantify interlineage fertility parameters including the total number of ascospores produced, perithecial density, and perithecium internal development scores. All lineage 7 female testers successfully crossed to all 23 male strains from lineages 1 to 9. For total ascospore production, one female tester crossed equally well with all lineages and the other two testers showed statistically significant differences for a few lineages. For perithecial density, there was a significantly lower density with all three testers when crossed with lineage 6, but the other lineages were not statistically different from lineage 7. For perithecial development, there was large variation for every lineage. Therefore, in the crosses with reduced fertility, the reduction can be attributed to a postzygotic effect since mature perithecia and asci developed.
All of the tested lineages of the Fusarium graminearum species complex can produce viable progeny with F. graminearum lineage 7, which was the taxonomic type of the original species before it was split into phylogenetic species. There are a few examples of reduced fertility with two lineage 7 testers, the remaining tester crossed equally well with all lineages. Therefore members of lineages 1-9 all should be considered members of Fusarium graminearum according to the BSC. The existing female testers could be used to identify members of the F. graminearum clade by performing test crosses in the laboratory.
The PSC and BSC species concepts do not agree for this group of fungi. This disagreement indicates that the F. graminearum species complex is in the early stages of speciation. The lack of intrinsic reproductive barriers supports the hypothesis that these lineages have developed in geographic isolation. As the lineages have apparently been brought together through global trade, interlineage hybrids have been reported in the field. The discrepancy between PSC and BSC will eventually be resolved by whether the lineages fuse or remain separate in nature. Even if the lineages remain separate, this study demonstrates the potential for gene flow between lineage 7 and lineages 1 through 9.
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