1 |
Taxonomy and molecular phylogeny of Cryptophyceae (Cryptophyta) from cultures / Taxonomia e filogenia molecular de Cryptophyceae (Cryptophyta) em culturasLubiana, Karoline Magalhães Ferreira 27 March 2018 (has links)
Cryptomonads are in majority autotrophic biflagellate organisms living in aquatic environments, which can be marine, brackish and freshwater. Although cells are easily reckonable at class level due to the asymmetrical shape and the gyrating swimming motion, the identification of species needs a broad morphological approach associated to molecular data. The group\'s taxonomy is confusing and controversial, due to authors\' disagreement concerning the diacritic features for taxa identification, and even the validity of the taxa. Furthermore, cryptomonads cells, many times, are diminutive and do not possess rigid structures, complicating the morphological distinction. Consequently, the knowledge of the group\'s biodiversity is very incomplete and based on very limited sampling. Accordingly, the present study aimed to enhance the knowledge of the cryptomonads species diversity maintained in cultures. We used 53 strains for the study of the phylogenetic diversity, using sequences of nuclear SSU and ITS2, and nucleomorph SSU rDNA. Six strains had their morphologies investigated by the use of light, confocal, scanning and transmission electron microscopies. As result, one new record for the Atlantic Ocean was registered, Nephroselmis viridis, a green algae genus initially described as Cryptophyceae. In addition, four new species form coastal regions of Brazil were described, Hemiselmis aquamarina, Rhodomonas iguapensis, Rhodomonas marataiama and Rhodomonas potiguaris. The first, has a new type of phycobiliprotein, Cr-PC- 564, and the others Cr-PE 545. All the new species proposed were highly supported as monophyletic lineages. Our molecular results suggest that Rhinomonas and Storeatula must be invalidated because these genera are not monophyletic and the morphological traits are not phylogenetic informative. The newly described species were also the first cryptomonads described for the marine environment of Brazil. Consequently, the present study contributed significantly to the initial knowledge of cryptomonads composition in the South Atlantic / Criptofíceas são organismos biflagelados, majoritariamente autotróficos, que habitam ambientes aquáticos, sejam marinhos, dulcícolas ou salobros. Embora facilmente diagnosticáveis em microscópio de luz devido à sua forma assimétrica e aos movimentos giratórios do nado, a identificação em nível específico exige uma ampla abordagem morfológica associada a dados molecular. A taxonomia do grupo é confusa, na qual os autores se contradizem a respeito dos caracteres diacríticos para identificação dos táxons e até mesmo da validade dos táxons. Tanta discussão advém do fato das células de criptofíceas muita das vezes serem diminutas e não possuírem estruturas rígidas, sendo difícil a sua distinção morfológica. Consequentemente, o conhecimento da biodiversidade do grupo é bastante incompleto e baseado em amostragens muito limitadas. Dessa forma, o presente estudo visou ampliar o conhecimento da diversidade de espécies de criptofíceas mantidas em culturas. Foram utilizadas 53 cepas para estudo da diversidade filogenética por meio dos marcadores nuclear SSU, ITS2 e nucleomorfo SSU rDNA. Seis cepas foram investigadas morfologicamente, usando microscópios de luz, confocal, eletrônico de varredura e transmissão. Como resultado, foi encontrado um novo registro de espécies para o Atlântico, Nephroselmis viridis, um gênero de alga verde primeiramente descrito como Cryptophyta. Além disso, quatro espécies novas advindas de regiões costeiras do Brasil foram descritas, Hemiselmis aquamarina, Rhodomonas iguapensis, Rhodomonas marataiama e Rhodomonas potiguaris. A primeira delas, tem um novo tipo de ficobiliproteína, Cr-PC 564, e as demais possuem Cr-PE 545. Essas novas espécies formam linhagens monofiléticas com altos valores de suporte dos nós. Os resultados sugerem que os gêneros Rhinomonas e Storeatula devem ser invalidados, uma vez que as características usadas na sua circunscrição não servem para todos as linhagens do gênero. As espécies novas de criptofíceas descritas também foram as primeiras descritas para criptofíceas marinhas do Brasil. Consequentemente, este estudo contribuiu significativamente para o conhecimento inicial da composição das criptofíceas no Atlântico Sul
|
2 |
Inferências filogenéticas na ordem Fucales (Phaeophyceae), com ênfase no gênero Sargassum C. Agardh do Atlântico Sul / Phylogenetics inferences in order Fucales (Phaeophyceae), with focus on Sargassum C. Agardh from South AtlanticCoimbra, Cíntia Schultz 08 December 2006 (has links)
O gênero Sargassum C. Agardh (Sargassaceae) constitui um dos mais representativos dentre os 41 gêneros da ordem Fucales (Phaeophyceae, Heterokontophyta), é amplamente distribuído nas regiões tropicais e subtropicais do globo e é considerado um importante componente da flora marinha. Devido ampla variabilidade fenotípica é considerado um dos gêneros de taxonomia mais complexa dentre as algas pardas, como são popularmente conhecidos os representantes da classe Phaeophyceae. A filogenia da ordem Fucales é bastante discutida para gêneros do hemisfério norte, mas ainda pouco elucidada. Os estudos de filogenia referentes ao gênero Sargassum são escassos, limitando-se a poucos marcadores moleculares, com baixa resolução no âmbito inter-específico e limitados à espécies de ocorrência nos oceanos Indo-Pacífico e Atlântico Norte. Nenhum estudo filogenético incluí espécies do Atlântico Sul para este gênero. Este estudo é pioneiro na análise de seqüências de diferentes marcadores moleculares para espécies do Atlântico Sul. Neste estudo, foram seqüenciados completamente os marcadores moleculares nucleares SSU rDNA e ITS2 para os táxons infra-genéricos Sargassum cymosum var. cymosum, S. cymosum var. nanum, S. furcatum, S. stenophyllum e S. vulgare. Todas as seqüências obtidas para ambos os marcadores apresentaram 100% de identidade entre os táxons analisados. Foram feitas seqüências também para o marcador molecular plastidial rbcL (parcial) e espaçador rbcLS para as espécies S. filipendula, S. stenophyllum e S. vulgare que resultaram também em 100% de identidade. Análises filogenéticas de cada um dos marcadores moleculares, incluindo nossas seqüências e aquelas disponíveis no Genbank e geradas pelos métodos de inferência \"Neigbour-joining\", máxima parcimônia e máxima verossimilhança se apresentaram robustas e corroboram outros resultados descritos na bibliografia referente a ordem Fucales e ao gênero Sargassum. Entretanto, tais resultados fornecem um forte indício da necessidade de busca de marcadores moleculares eficientes, devidamente respaldados por estudos de hibridação in vitro, dados ecológicos e de biogeografia para um melhor entendimento acerca das espécies ocorrentes na costa brasileira. / The genus Sargassum C. Agardh (Sargassaceae) is one of the most conspicuous among the 41 genera of the order Fucales (Phaeophyceae, Heterokontophyta). The genus has a broad distribution in the tropical and subtropical regions of the world, and is considered an important component of the marine flora. Due to a high phenotipic variation, the taxonomy of the genus is considered of the most complex among the brown seaweeds, as are known the representatives of the class Phaeophyceae. The phylogeny of the order Fucales was studied for the North Hemisphere genera, but is still not well understood. The phylogenetic studies of the genus Sargassum are scarce and limited to a few molecular markers, presenting low resolution for inter-specific analysis and are available only for species from the Indo-Pacific and the North Atlantic. There are no phylogenetic studies including species from the South Atlantic for the genus. This study is the first to analyze sequences from different molecular markers for species from the South Atlantic. In this study, the nuclear SSU rDNA and ITS2 were completely sequenced for the infra-generic taxa Sargassum cymosum var. cymosum, S. cymosum var. nanum, S. furcatum, S. stenophyllum and S. vulgare. All the sequences for both markers presented 100% identity among analyzed taxa. Sequences were also obtained for the chloroplast marker rbcLS, including parcial rbcL and the spacer region rbcLS for the species S. filipendula, S. stenophyllum and S. vulgar. These sequences also presented 100% identity among analyzed taxa. Phylogenetic analysis of each of the molecular markers, including our sequences together with other sequences available in the Genbank and generated by the inference methods Neigbour-joining, maximum parsimony and maximum likelihood were robust and similar to other results described in the literature for the order Fucales and the genus Sargassum. Nonetheless, these results are an indicative of the need for more efficient molecular markers, associated with data from in vitro hibridization, ecology and biogeography for a better understanding about the taxa occurring on the brazilian coast.
|
3 |
Inferências filogenéticas na ordem Fucales (Phaeophyceae), com ênfase no gênero Sargassum C. Agardh do Atlântico Sul / Phylogenetics inferences in order Fucales (Phaeophyceae), with focus on Sargassum C. Agardh from South AtlanticCíntia Schultz Coimbra 08 December 2006 (has links)
O gênero Sargassum C. Agardh (Sargassaceae) constitui um dos mais representativos dentre os 41 gêneros da ordem Fucales (Phaeophyceae, Heterokontophyta), é amplamente distribuído nas regiões tropicais e subtropicais do globo e é considerado um importante componente da flora marinha. Devido ampla variabilidade fenotípica é considerado um dos gêneros de taxonomia mais complexa dentre as algas pardas, como são popularmente conhecidos os representantes da classe Phaeophyceae. A filogenia da ordem Fucales é bastante discutida para gêneros do hemisfério norte, mas ainda pouco elucidada. Os estudos de filogenia referentes ao gênero Sargassum são escassos, limitando-se a poucos marcadores moleculares, com baixa resolução no âmbito inter-específico e limitados à espécies de ocorrência nos oceanos Indo-Pacífico e Atlântico Norte. Nenhum estudo filogenético incluí espécies do Atlântico Sul para este gênero. Este estudo é pioneiro na análise de seqüências de diferentes marcadores moleculares para espécies do Atlântico Sul. Neste estudo, foram seqüenciados completamente os marcadores moleculares nucleares SSU rDNA e ITS2 para os táxons infra-genéricos Sargassum cymosum var. cymosum, S. cymosum var. nanum, S. furcatum, S. stenophyllum e S. vulgare. Todas as seqüências obtidas para ambos os marcadores apresentaram 100% de identidade entre os táxons analisados. Foram feitas seqüências também para o marcador molecular plastidial rbcL (parcial) e espaçador rbcLS para as espécies S. filipendula, S. stenophyllum e S. vulgare que resultaram também em 100% de identidade. Análises filogenéticas de cada um dos marcadores moleculares, incluindo nossas seqüências e aquelas disponíveis no Genbank e geradas pelos métodos de inferência \"Neigbour-joining\", máxima parcimônia e máxima verossimilhança se apresentaram robustas e corroboram outros resultados descritos na bibliografia referente a ordem Fucales e ao gênero Sargassum. Entretanto, tais resultados fornecem um forte indício da necessidade de busca de marcadores moleculares eficientes, devidamente respaldados por estudos de hibridação in vitro, dados ecológicos e de biogeografia para um melhor entendimento acerca das espécies ocorrentes na costa brasileira. / The genus Sargassum C. Agardh (Sargassaceae) is one of the most conspicuous among the 41 genera of the order Fucales (Phaeophyceae, Heterokontophyta). The genus has a broad distribution in the tropical and subtropical regions of the world, and is considered an important component of the marine flora. Due to a high phenotipic variation, the taxonomy of the genus is considered of the most complex among the brown seaweeds, as are known the representatives of the class Phaeophyceae. The phylogeny of the order Fucales was studied for the North Hemisphere genera, but is still not well understood. The phylogenetic studies of the genus Sargassum are scarce and limited to a few molecular markers, presenting low resolution for inter-specific analysis and are available only for species from the Indo-Pacific and the North Atlantic. There are no phylogenetic studies including species from the South Atlantic for the genus. This study is the first to analyze sequences from different molecular markers for species from the South Atlantic. In this study, the nuclear SSU rDNA and ITS2 were completely sequenced for the infra-generic taxa Sargassum cymosum var. cymosum, S. cymosum var. nanum, S. furcatum, S. stenophyllum and S. vulgare. All the sequences for both markers presented 100% identity among analyzed taxa. Sequences were also obtained for the chloroplast marker rbcLS, including parcial rbcL and the spacer region rbcLS for the species S. filipendula, S. stenophyllum and S. vulgar. These sequences also presented 100% identity among analyzed taxa. Phylogenetic analysis of each of the molecular markers, including our sequences together with other sequences available in the Genbank and generated by the inference methods Neigbour-joining, maximum parsimony and maximum likelihood were robust and similar to other results described in the literature for the order Fucales and the genus Sargassum. Nonetheless, these results are an indicative of the need for more efficient molecular markers, associated with data from in vitro hibridization, ecology and biogeography for a better understanding about the taxa occurring on the brazilian coast.
|
4 |
Pour une meilleure caractérisation du registre fossile pélagique : diversité morphologique, biogéographie et écologie des espèces cryptiques de foraminifères planctoniques / For a better characterization of the fossil pelagic record : molecular, biogeographical and ecological diversity of planctonic foraminifers cryptic speciesMorard, Raphaël 09 November 2010 (has links)
L’utilisation des coquilles carbonatées de foraminifères planctoniques comme marqueurs paléocéanographiques repose sur l’hypothèse fondamentale que chaque espèce morphologique correspond à une espèce biologique caractéristique d’un habitat spécifique. Cette relation empirique a été récemment remise en cause par des analyses moléculaires qui ont révélé la présence systématique de plusieurs espèces génétiques (espèces cryptiques) au sein des morpho-espèces actuelles. Il a été suggéré que ces espèces cryptiques ou génotypes, présentaient (1) des préférences biogéographiques et écologiques restreintes par rapport à leur morpho-espèce respective et (2) des différences morphologiques. Dans ce travail, nous avons caractérisé la diversité génétique, morphologique et écologique de 4 morpho-espèces clefs de la paléocéanographie, i.e. Orbulina universa, Truncorotalia truncatulinoides, Globoconella inflata et Globigerina bulloides. Cette étude repose sur le développement d’un protocole d’extraction ADN non destructif pour la coquille calcaire, permettant l’analyse conjointe de la variabilité génétique et morphologique d’un même individu. Les variations de forme ou de porosité de chacun des génotypes des morphoespèces ont été quantifiées. Il apparaît que le fort degré de plasticité morphologique largement documenté chez les foraminifères planctonique et jusqu’alors interprété comme écophénotypique, est au moins en partie la conséquence du regroupement de plusieurs génotypes présentant des morphologies et préférences écologique particulières. Sur la base de ces observations, des modèles de reconnaissance morphologique permettant d’identifier les génotypes à partir de la morphologie de la coquille, utilisables à l’échelle populationnelle, ont été développés. Afin de quantifier l’impact de l’intégration de la diversité cryptique dans les reconstitutions paléocéanographiques basées sur les assemblages de foraminifères planctoniques, les fonctions de transfert couramment utilisées ont été re-calibrées en intégrant les distributions restreintes des génotypes d’O. universa, T. truncatulinoides, G. inflata et G. bulloides. Ces re-calibrations conduisent à un degré de précision jusqu’alors jamais atteint dans les reconstructions paléocéanographiques basées sur les assemblages de foraminifères planctoniques. / The usefulness of calcareous shells of planktonic foraminifera as a paleoceanographic proxy relies on the key hypothesis that each morphospecies corresponds to a biological species with a specific habitat. This empirical relationship has been challenged since molecular analyses have revealed a significant level of cryptic genetic diversity among modern morphospecies of planktonic foraminifera. Previous workers have suggested that the cryptic species or genotypes (1) display narrower biogeographic and ecological ranges than their related morphospecies, and (2) exhibit shell morphological differences. In this work, we have characterized the genetic, morphological and ecological diversity among four planktonic foraminiferal morphospecies of significance in paleoceanography, i.e. Orbulina universa, Truncorotalia truncatulinoides, Globoconella inflata and Globigerina bulloides. Our study relies on the development of a new single-cell DNA extraction protocol that retains the shell, allowing direct morpho-genetic comparisons. Shape or porosity variations within each genotype have been quantified. It appears that the high degree of morphological plasticity widely documented in planktonic foraminifera and classically seen as ecophenotypy, is at least partly the spurious consequence of lumping several genotypes that display morphological and environmental preferences. Based on these observations, we developed several population-scale models, which allow recognition of the cryptic species based on their shell morphology. Finally, in order to quantify the impact of integrating cryptic diversity in assemblage-based aleoceanographic reconstructions, we have re-calibrated transfer functions based on the ecological ranges of the genotypes of O. universa, T. truncatulinoides, G. inflata and G. bulloides in the southern oceans. Such recalibrations led to a great, previously never reached improvement in the accuracy of the assemblage-based paleoceanographic reconstructions.
|
5 |
Application of PCR-DGGE method for identification of nematode communities in pepper growing soil / Ứng dụng phương pháp PCR-DGGE để định danh cộng đồng tuyến trùng trong đất trồng hồ tiêuNguyen, Thi Phuong, Ha, Duy Ngo, Nguyen, Huu Hung, Duong, Duc Hieu 17 August 2017 (has links) (PDF)
Soil nematodes play an important role in indication for assessing soil environments and ecosystems. Previous studies of nematode community analyses based on molecular identification have shown to be useful for assessing soil environments. Here we applied PCR-DGGE method for molecular analysis of five soil nematode communities (designed as S1 to S5) collected from four provinces in Southeastern Vietnam (Binh Duong, Ba Ria Vung Tau, Binh Phuoc and Dong Nai) based on SSU gene. By sequencing DNA bands derived from S5 community sample, our data show 15 species containing soil nematode, other nematode and non-nematode (fungi) species. Genus Meloidogyne was found as abundant one. The genetic relationship of soil nematode species in S5 community were determined by Maximum Likelihood tree re-construction based on SSU gene.
This molecular approach is applied for the first time in Vietnam for identification of soil nematode communities. / Tuyến trùng đất đóng vai trò chỉ thị quan trọng trong công tác đánh giá môi trường và hệ sinh thái đất. Các nghiên cứu trước đây đã cho thấy lợi ích của việc phân tích cộng đồng tuyến trùng đất bằng định danh sinh học phân tử đối với việc đánh giá môi trường đất. Ở đây, chúng tôi ứng dụng phương pháp PCR-DGGE dựa trên gene SSU để phân tích năm (ký hiệu từ S1 đến S5) cộng đồng tuyến trùng đất thuộc các vùng trồng chuyên canh cây hồ tiêu ở miền nam Việt Nam (Bình Dương, Bà Rịa Vũng Tàu, Bình Phước và Đồng Nai). Bằng cách giải trình tự các vạch của mẫu tuyến trùng S5, kết quả cho thấy cộng đồng tuyến trùng này có 15 loài gồm nhóm tuyến trùng đất, nhóm các loại tuyến trùng khác và nhóm không phải tuyến trùng (nấm) và trong đó Meloidogyne là giống ưu thế. Mối quan hệ di truyền của các các loài tuyến trùng đất thuộc cộng đồng S5 được xác định bằng việc thiết lập cây phát sinh loài Maximum Likelihood dựa trên gene SSU. Đây là nghiên cứu đầu tiên ở Việt Nam sử dụng kỹ thuật PCR-DGGE để phân tích các cộng đồng tuyến trùng đất trồng hồ tiêu.
|
6 |
Fylogeneze archaméb / Phylogeny of ArchamoebaePtáčková, Eliška January 2010 (has links)
Archamoebae is a small group of anaerobic protists belonging to the eukaryotic supergroup Amoebozoa. Historically, they were regarded as primitively amitochondriate. However, a mitochondrial remnant has been found in some archamoebae. Phylogenetic analyses showed that Archamoebae are closely related to the aerobic slime moulds (Mycetozoa). Trophozoites of archamoebae are amoeboflagellates or aflagellated amoebae. The group includes both parasitic (Entamoeba, Endolimax and, possibly, Endamoeba and Iodamoeba) and free-living (Mastigamoeba, Mastigella, Pelomyxa) genera. The genus Mastigina comprises both endozoic and free-living representatives. Flagellated genera Mastigina, Mastigamoeba, Mastigella and Pelomyxa possess a single basal body associated with a microtubular cone which may or may not be associated with nucleus. The cone is a common feature for Archamoebae and mycetozoan slime moulds. The phylogeny of Archamoebae has not been fully elucidated yet and the taxonomy of free-living representatives is confusing. In the present study, we obtained 42 stable isolates of free-living Archamoebae. We sequenced and analyzed SSU rDNA of 15 of them. The Archamoebae split into five lineages. Based on TEM, we were able to recognize genera Mastigamoeba and Mastigella. The isolate IND8 probably represents a new...
|
7 |
Evoluce genetického kódu a taxonomie oxymonád / Evolution of the genetic code and classification of oxymonadsŠrámová, Eliška January 2012 (has links)
Oxymonads are a group of heterotrophic flagellates living in low oxygen environment. These protists inhabit mainly the gut of xylophagous insects (cockroaches, termites), with an exception of the genus Monocercomonoides, which was described from the intestinal contents of many vertebrates. On the basis of molecular data, Oxymonadida are classified into the supergroup Excavata (Cavalier-Smith, 2002; Simpson et al., 2006, Hampl et al. 2009). This thesis was focused on the diversity of genus Monocecomonoides from the morphologically simplest family Polymastigidae. The main goal of our work was to gather sequence data from strains isolated from a wide spectrum of hosts. We have obtained 26 partial sequences of the gene for the SSU rDNA in total, of which two belonged to another oxymonad, apparently genus Oxymonas. Our phylogenetic analysis indicated that the representatives of the genus Monocercomonoides form one group, however with a low bootstrap support. On the basis of published data about the presence of non-canonical genetic code in some oxymonads (Keeling and Leander, 2003; de Koning et al., 2008), we decided to explore this rare phenomenon in representatives of the genus Monocercomonoides. For this part of the study we gathered 9 partial sequences of α-tubulin gene. In these sequences we have not...
|
8 |
Relatedness, host specificity and richness of the genus Ceratomyxa (Myxozoa: Myxosporea) in teleost fishesNicole Gunter Unknown Date (has links)
The genus Ceratomyxa Thélohan, 1892 is one of the largest myxozoan genera, the species of which almost always infect the gall bladder of marine teleosts. Although there are over 180 species known globally, prior to this study only three had been described from Australia. This study explores the systematics, host specificity and species richness of Ceratomyxa species from a diverse range of Queensland marine fishes. The first part of this thesis deals with the issues associated with spore based taxonomy and incorporates the first molecular studies to investigate host specificity and radiation in three common families of Great Barrier Reef (GBR) fishes. Twenty-two new species were described in these chapters, and although they were superficially similar in morphology all were genetically distinct. A focus on Ceratomyxa spp. infecting labrid, pomacentrid and serranid fish revealed tight host specificity of parasite species, confirmed the presence of multiple parasite species in a single host and revealed that no parasite radiation had occurred that could be associated with co-evolution with host families. Exploration of intra- and inter-specific variation by sequencing of multiple replicates from host/parasite combinations allowed interpretation of species boundaries within the system. Ten additional species described in Chapter 5 supported the findings from the labrid, pomacentrid and serranid studies but broadened the host range studied. In total 32 Ceratomyxa species were described from Queensland fishes increasing the number of described species in the genus by 15%. This study also reports on undescribed species collected from a further 70 host species and broadens the known host range to seven families of fishes. A checklist of bivalvulidans from marine teleosts in Australia is compiled of described and undescribed species and highlights the abundance of Ceratomyxa relative to other gall bladder dwelling myxosporeans. A phylogeny of the Ceratomyxa based on SSU rDNA analyses explored the taxonomic integrity of the genus. In general, the morphological diagnostic characters that divide the Myxozoa into genera are not well supported by molecular phylogenetic analyses. The relationship between 42 Ceratomyxa spp. and 36 other marine myxosporeans was examined using Bayesian inference, maximum likelihood and maximum parsimony. Results indicate Ceratomyxa is one of the most cohesive lineages within the Myxozoa and that the freshwater fish parasite, C. shasta, does not represent an independent lineage as suggested in previous studies. The strict host specificity of Ceratomyxa species prompted the investigation of species richness on the GBR. Species accumulation curves were used to explore species richness by using Choa2 and Jackknife1 estimators. The estimates suggested Ceratomyxa is almost as rich as their teleost hosts and that 1,600 species could be present on the GBR and as many as 15,000 species may exist globally. As an unexpected result, Ceratomyxa may be the richest metazoan genus in the sea. In light of what the study revealed, a revision of a second genus within the family Ceratomyxidae, Leptotheca, is presented. The boundaries between Ceratomyxa and Leptotheca were unclear. The diagnostic characters that separate these genera (length to thickness ratios) were found to be plastic and the type species of Leptotheca ultimately fitted the diagnosis for Ceratomyxa. To eliminate confusion between these genera and also between Sphaerospora and Leptotheca, the genus Leptotheca was considered invalid, with all species appropriately assigned to other genera based on morphological and biological characters and supported by genetic evidence.
|
9 |
Relatedness, host specificity and richness of the genus Ceratomyxa (Myxozoa: Myxosporea) in teleost fishesNicole Gunter Unknown Date (has links)
The genus Ceratomyxa Thélohan, 1892 is one of the largest myxozoan genera, the species of which almost always infect the gall bladder of marine teleosts. Although there are over 180 species known globally, prior to this study only three had been described from Australia. This study explores the systematics, host specificity and species richness of Ceratomyxa species from a diverse range of Queensland marine fishes. The first part of this thesis deals with the issues associated with spore based taxonomy and incorporates the first molecular studies to investigate host specificity and radiation in three common families of Great Barrier Reef (GBR) fishes. Twenty-two new species were described in these chapters, and although they were superficially similar in morphology all were genetically distinct. A focus on Ceratomyxa spp. infecting labrid, pomacentrid and serranid fish revealed tight host specificity of parasite species, confirmed the presence of multiple parasite species in a single host and revealed that no parasite radiation had occurred that could be associated with co-evolution with host families. Exploration of intra- and inter-specific variation by sequencing of multiple replicates from host/parasite combinations allowed interpretation of species boundaries within the system. Ten additional species described in Chapter 5 supported the findings from the labrid, pomacentrid and serranid studies but broadened the host range studied. In total 32 Ceratomyxa species were described from Queensland fishes increasing the number of described species in the genus by 15%. This study also reports on undescribed species collected from a further 70 host species and broadens the known host range to seven families of fishes. A checklist of bivalvulidans from marine teleosts in Australia is compiled of described and undescribed species and highlights the abundance of Ceratomyxa relative to other gall bladder dwelling myxosporeans. A phylogeny of the Ceratomyxa based on SSU rDNA analyses explored the taxonomic integrity of the genus. In general, the morphological diagnostic characters that divide the Myxozoa into genera are not well supported by molecular phylogenetic analyses. The relationship between 42 Ceratomyxa spp. and 36 other marine myxosporeans was examined using Bayesian inference, maximum likelihood and maximum parsimony. Results indicate Ceratomyxa is one of the most cohesive lineages within the Myxozoa and that the freshwater fish parasite, C. shasta, does not represent an independent lineage as suggested in previous studies. The strict host specificity of Ceratomyxa species prompted the investigation of species richness on the GBR. Species accumulation curves were used to explore species richness by using Choa2 and Jackknife1 estimators. The estimates suggested Ceratomyxa is almost as rich as their teleost hosts and that 1,600 species could be present on the GBR and as many as 15,000 species may exist globally. As an unexpected result, Ceratomyxa may be the richest metazoan genus in the sea. In light of what the study revealed, a revision of a second genus within the family Ceratomyxidae, Leptotheca, is presented. The boundaries between Ceratomyxa and Leptotheca were unclear. The diagnostic characters that separate these genera (length to thickness ratios) were found to be plastic and the type species of Leptotheca ultimately fitted the diagnosis for Ceratomyxa. To eliminate confusion between these genera and also between Sphaerospora and Leptotheca, the genus Leptotheca was considered invalid, with all species appropriately assigned to other genera based on morphological and biological characters and supported by genetic evidence.
|
10 |
Relatedness, host specificity and richness of the genus Ceratomyxa (Myxozoa: Myxosporea) in teleost fishesNicole Gunter Unknown Date (has links)
The genus Ceratomyxa Thélohan, 1892 is one of the largest myxozoan genera, the species of which almost always infect the gall bladder of marine teleosts. Although there are over 180 species known globally, prior to this study only three had been described from Australia. This study explores the systematics, host specificity and species richness of Ceratomyxa species from a diverse range of Queensland marine fishes. The first part of this thesis deals with the issues associated with spore based taxonomy and incorporates the first molecular studies to investigate host specificity and radiation in three common families of Great Barrier Reef (GBR) fishes. Twenty-two new species were described in these chapters, and although they were superficially similar in morphology all were genetically distinct. A focus on Ceratomyxa spp. infecting labrid, pomacentrid and serranid fish revealed tight host specificity of parasite species, confirmed the presence of multiple parasite species in a single host and revealed that no parasite radiation had occurred that could be associated with co-evolution with host families. Exploration of intra- and inter-specific variation by sequencing of multiple replicates from host/parasite combinations allowed interpretation of species boundaries within the system. Ten additional species described in Chapter 5 supported the findings from the labrid, pomacentrid and serranid studies but broadened the host range studied. In total 32 Ceratomyxa species were described from Queensland fishes increasing the number of described species in the genus by 15%. This study also reports on undescribed species collected from a further 70 host species and broadens the known host range to seven families of fishes. A checklist of bivalvulidans from marine teleosts in Australia is compiled of described and undescribed species and highlights the abundance of Ceratomyxa relative to other gall bladder dwelling myxosporeans. A phylogeny of the Ceratomyxa based on SSU rDNA analyses explored the taxonomic integrity of the genus. In general, the morphological diagnostic characters that divide the Myxozoa into genera are not well supported by molecular phylogenetic analyses. The relationship between 42 Ceratomyxa spp. and 36 other marine myxosporeans was examined using Bayesian inference, maximum likelihood and maximum parsimony. Results indicate Ceratomyxa is one of the most cohesive lineages within the Myxozoa and that the freshwater fish parasite, C. shasta, does not represent an independent lineage as suggested in previous studies. The strict host specificity of Ceratomyxa species prompted the investigation of species richness on the GBR. Species accumulation curves were used to explore species richness by using Choa2 and Jackknife1 estimators. The estimates suggested Ceratomyxa is almost as rich as their teleost hosts and that 1,600 species could be present on the GBR and as many as 15,000 species may exist globally. As an unexpected result, Ceratomyxa may be the richest metazoan genus in the sea. In light of what the study revealed, a revision of a second genus within the family Ceratomyxidae, Leptotheca, is presented. The boundaries between Ceratomyxa and Leptotheca were unclear. The diagnostic characters that separate these genera (length to thickness ratios) were found to be plastic and the type species of Leptotheca ultimately fitted the diagnosis for Ceratomyxa. To eliminate confusion between these genera and also between Sphaerospora and Leptotheca, the genus Leptotheca was considered invalid, with all species appropriately assigned to other genera based on morphological and biological characters and supported by genetic evidence.
|
Page generated in 0.0299 seconds