Taxonomy of selected groups of the genus \kur{Caloplaca} / Taxonomy of selected groups of the genus \kur{Caloplaca}

ŠOUN, Jaroslav

January 2011

The thesis deals with phylogeny, taxonomy and nomenclature of selected groups of the lichen genus Caloplaca. Particularly, the C. cerina group was closely investigated using molecular methods (ITS sequences), morphology and chemistry, based on material from Europe, and to some extent also from North America and western Asia. This approach resulted in the description of three new species (C. sterilis, C. subalpina, C. thracopontica), and detected an unexpected richness of lineages. Nomenclature, taxonomy, morphology and ecology of C. aurantia and C. flavescens from the C. aurantia group were studied in detail, including selection of the neotype of the former species. Their distribution was reviewed for the territory of the Czech Republic. Poorly known taxon C. aurantiomurorum from Algeria was lectotypified and synonymized with C. aurantia. Apart from the two groups, C. phlogina and C. scythica, differing partly in thallus colour and distinctly in distribution, were examined using both molecular (ITS sequences) and phenotypic data and found to be conspecific.

Systématique du genre Essigella (Hemiptera : Sternorrhyncha) au moyen de données moléculaires

Théry, Thomas

01 1900

No description available.

Eulachnini

plante hôte

espèce cryptique

phylogénie

délimitation d’espèces

taxonomie

spéciation

barcode

populations

Eulachnini

host plant

cryptic species

phylogeny

species delimitation

taxonomy

speciation

barcoding

populations

Infer?ncias carioevolutivas sobre grupos cr?pticos de peixes marinhos e estuarinos

Ara?jo, Washington Candeia de

26 February 2009

Made available in DSpace on 2014-12-17T15:18:10Z (GMT). No. of bitstreams: 1 WashingtonCA.pdf: 849606 bytes, checksum: 5c75635780aa8bf93fa4262b0cf3a552 (MD5) Previous issue date: 2009-02-26 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / Cytogenetic studies have been revealing a great diversity not detected, until then, in several families of fishes. Many of these groups, especially those that exhibit great diversity, like Perciformes and Siluriformes, possess species with difficult morphologic characterization, called cryptic species, commonly detected through karyotypic analyses, which reveals outstanding interespecific variations with relationship to the number and its chromosomal structures. Thus, the present work intends to contribute for the cytogenetic knowledge of marine and brackish fish species, because they peculiar life habits and by lack of cytogenetic data of your genetic aspects. Therefore, cytogenetic studies were developed in a species of Apogonidae (Perciformes), two species of sea catfishes of the family Ariidae (Siluriformes) and brackish fish Paurachenipterus galeatus (Siluriformes, Auchenipteridae), through C banding, Ag-NOR, use of base-specific flourochromes (DAPI and CMA3), as well as FISH (Fluorescent in situ hybridization) using ribosomal DNA probes 5S and 18S. The present results contribute to a better understanding of the processes of differentiation patterns and chromosome evolution in these groups. The use of other approaches (the morphology and molecular tools) will allow a larger understanding of the genetic and biological diversity of the Brazilian ichthyofauna. / Estudos citogen?ticos t?m revelado uma grande diversidade at? ent?o n?o detectada em diversas fam?lias de peixes. Muitos destes grupos, sobretudo os que exibem grande diversidade, como Perciformes e Siluriformes, possuem esp?cies de dif?cil caracteriza??o morfol?gica, chamadas de esp?cies cr?pticas, muitas vezes s? detectadas atrav?s de an?lises cariot?picas, as quais revelam varia??es interespec?ficas marcantes quanto ao n?mero e estrutura cromoss?mica. Desta forma, o presente trabalho pretende contribuir para o conhecimento citogen?tico de esp?cies marinhos e estuarinos, que, por n?o serem exploradas comercialmente ou terem h?bitos de vida peculiares s?o pouco estudadas quanto aos seus aspectos gen?ticos. Assim, an?lises cariot?picas foram desenvolvidas em uma esp?cie da fam?lia Apogonidae (Perciformes), em duas esp?cies de bagres marinhos da fam?lia Ariidae (Siluriformes), al?m de uma esp?cie de siluriforme estuarino, Paurachenipterus galeatus (Auchenipteridae) atrav?s de bandamento C, Ag-RONs, colora??o com DAPI e CMA3, bem como pela FISH (Fluorescent in situ hibridization), utilizando sondas ribossomais 5S e 18S. Os resultados aqui apresentados indicam grande diversidade inerente a estes grupos. Outras abordagens (an?lises morfol?gicas e ferramentas moleculares) permitir?o obter maior entendimento acerca da diversidade biol?gica da ictiofauna brasileira

Bandas de replica??o

Evolu??o cromoss?mica

Esp?cies cr?pticas

Especia??o alop?trica

Cit?tipos

Replication banding

Karyotipic evolution

Cryptic species

Allopatric speciation

Cytotypes

Histoire évolutive, structures génétique, morphologique et écologique comparées dans un complexe d'espèces jumelles : Echinocardium cordatum (Echinoidea, Irregularia)

Egea, Emilie

17 March 2011

Echinocardium cordatum (Pennant 1777) oursin irrégulier abondant des zones côtières tempérées a longtemps été considéré comme une espèce cosmopolite dont la vaste aire de distribution était la conséquence directe des capacités de dispersion de sa larve planctotrophe. L’étude couplée des caractéristiques génétiques [génomes mitochondrial et nucléaire (introns+microsatellites)], morphologiques (étude basée sur 20 indices morphométriques) et écologiques (distribution géographique à petite ou grande échelle, et cycle de maturation gonadique) a révélé la présence d’un complexe d’espèces jumelles dont la différenciation génétique est accompagnée d’une différenciation morphologique statistique ainsi que de différenciations écologiques plus ou moins fines. Ces espèces occupent des aires de distribution limitées (clade A : Atlantique, clade SP : Pacifique Sud, clade NP : Pacifique Nord, clade B2 : Méditerranée, et clade B1 : Méditerranée et côtes atlantiques de l’Ibérie). D’après la reconstruction de l’histoire évolutive de ce complexe, à partir des données paléontologiques et moléculaires, ces espèces auraient divergé il y a 3 (B1-B2) à 10 (A-reste) millions d’années sous l’effet de perturbations géologiques et paléoclimatiques (fermeture de la Téthys, crise messinienne de salinité et glaciations Plio-Pléistocène). Le polymorphisme morphologique et moléculaire apparaît réduit chez B1 suggérant un effectif efficace historique de cette espèce réduit. L’analyse des flux géniques contemporains révèle que les clades A et B1 échangent toujours des gènes, alors que les clades B1 et B2, ont mis en place un isolement reproducteur efficace empêchant l’hybridation. Par ailleurs, les capacités de dispersion des espèces de ce complexe sont importantes (plus de 3000 km), mais moindres comparées à d’autres espèces du genre, notamment E. mediterraneum, qui bien qu’ayant subi les mêmes évènements géologiques n’a pas formé d’espèce depuis son apparition il y aurait 28 millions d’années. D’un point de vue évolutif, les taxons à forte capacité de dispersion présenteraient des tailles efficaces de populations importantes, ainsi qu’une aire de répartition étendue et peu de différentiation génétique entre localités ; autant de caractéristiques qui devraient ralentir la vitesse de spéciation dans ces taxons. Si cette hypothèse semble se vérifier chez E. mediterraneum, il n’en est pas de même chez E. cordatum qui malgré des effectifs efficaces apparemment importants et une différenciation des populations à l’échelle régionale faible, présente une dynamique se spéciation plus rapide. Il faut envisager que d’autres caractéristiques soient à l’origine de cette différence de dynamique de spéciation, et la comparaison des exigences écologiques des deux taxons ainsi que l’isolement de la molécule responsable de la réaction acrosomique, la bindine, pourraient apporter des éléments de réponse aux nouvelles questions soulevées. / Echinocardium cordatum (Pennant 1777) an abundant irregular sea urchin from the coastal temperate zones has long been considered as a cosmopolitan species which wide distribution area was the direct consequence of its planktotrophic larvae high dispersal abilities. A combined study of the genetic [mitochondrial and nuclear genomes (introns+microsatellites)], morphologic (based on 20 morphometric indices) and ecologic (geographic distribution at fine or large scale, and gonad maturation cycle) characteristics reveals that this taxon is a complex of cryptic species for which genetic differentiations concurred with morphological and ecological ones. The different species each occupy a limited geographic areas (clade A : Atlantic, clade SP : South Pacific, clade NP : North Pacific, clade B2 : Mediterranean sea, et clade B1 : Mediterranean sea and Atlantic coasts of Iberia). According to the complex species evolutionary history reconstruction, based on fossils and molecular data, the different species diverged between 3 (B1-B2) and 10 (A-rest) million years ago, driven by geologic and paleoclimatic perturbations (Tethys closure, messinian salinity crisis, Plio-Pleistocene glaciations). Molecular and morphologic polymorphisms appear reduced in B1, suggesting a reduced historical effective size. The contemporaneous genetic flux analysis reveals that clades A and B1 exchange genes whereas clades B1 and B2 developed an efficient reproductive isolation preventing hybridization. Though dispersal abilities of the complex species are high (more than 3000 km), they appear to be smaller than those of other species of the same genera, particularly E. mediterraneum which undergone the same geological perturbations without splitting into several species since its appearance some 28 million years ago. From an evolutionary point of view, taxa with high dispersal abilities should exhibit important population effective sizes, wide distribution areas and weak genetic differentiation between localities, properties that should slow species formation within these taxa. If this hypothesis seems verified in E. mediterraneum, it is not the case in E. cordatum for which the apparent high effective size and weak regional structure contrast with the fast speciation dynamics. It seems that other characteristics might be responsible for the speciation dynamic differences, and the comparison of the two taxa ecological requirements, as well as the isolation of the gene coding for the protein responsible of the sperm specific attachment, the bindin, should bring elements to answer these questions.

Complexe d’espèces jumelles

Spéciation

Dispersion larvaire

Marqueurs moléculaires

Connectivité des populations

Cycle de reproduction

Morphométrie

Étude pluridisciplinaire

Cryptic species complex

Speciation

Larval dispersion

Molecular markers

Population connectivity

Reproductive cycle

Morphometry

Multidisciplinary study

Molecular, morphological, and biogeographic resolution of cryptic taxa in the Greenside Darter <i>Etheostoma blennioides</i>complex

Haponski, Amanda E.

January 2007

No description available.

Biology, Genetics

biogeography

control region

cryptic species

cytochrome <i>b</i>

Greenside Darter

nuclear S7 intron 1