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Morphological Hypothesis (morphological + hypothesis)
Selected Abstracts1 Taxon sampling and inferences about diatom phylogenyJOURNAL OF PHYCOLOGY, Issue 2003A. J. Alverson Proper taxon sampling is one of the greatest challenges to understanding phylogenetic relationships, perhaps as important as choice of optimality criterion or data type. This has been demonstrated in diatoms where centric diatoms may either be strongly supported as monophyletic or paraphyletic when analyzing SSU rDNA sequences using the same optimality criterion. The effect of ingroup and outgroup taxon sampling on relationships of diatoms is explored for diatoms as a whole and for the order Thalassiosirales. In the latter case, SSU rDNA and rbcL sequence data result in phylogenetic relationships that appear to be strongly incongruent with morphology and broadly incongruent with the fossil record. For example, Cyclotella stelligera Cleve & Grunow behaves like a rogue taxon, jumping from place to place throughout the tree. Morphological data place C. stelligera near the base of the freshwater group as sister to the extinct genus Mesodictyon Theriot and Bradbury, suggesting that it is an old, long branch that might be expected to "misbehave" in poorly sampled trees. Cyclotella stelligera and C. bodanica Grunow delimit the diameter of morphological diversity in Cyclotella, so increased sampling of intermediate taxa will be critical to resolving this part of the tree. Morphology is sampled for a much greater number of taxa and many transitional states of putative synapomorphies seem to suggest a robust morphological hypothesis. The Thalassiosirales are unstable with regards to taxon sampling in the genetic data, suggesting that perhaps the morphological hypothesis is (for now) preferable. [source] Origin and Evolution of the Lichenized Ascomycete Order Lichinales: Monophyly and Systematic Relationships Inferred from Ascus, Fruiting Body and SSU rDNA EvolutionPLANT BIOLOGY, Issue 2 2001M. Schultz Abstract: The Lichinales are a group of lichenized ascomycetes that almost exclusively possess cyanobacteria as their primary photobiont and are hitherto separated from the Lecanorales, the major group of lichenized ascomycetes, by thallus structure, ascoma ontogeny, ascus structure and ascus function. The relationship of the two families Peltulaceae and Lichinaceae, both placed within the Lichinales, with the Heppiaceae, placed within the Lecanorales, was investigated, as well as a possible sister group relationship of the Lichinales to the Lecanorales. Phylogenetic analyses included non-molecular data as well as 18S rDNA sequence data. The monophyly of the Lichinales including the family Heppiaceae and a sister group relationship of Lichinales and Lecanorales, based on the shared presence of lecanoralean asci, are proposed in a morphological hypothesis. Parsimony and distance analyses of 18S rDNA sequence data strongly support the monophyly of the Lichinales, including all three families. Therefore, the presence of rostrate, lecanoralean asci in Peltula and part of the Lichinaceae suggests that this ascus type is an autapomorphy of the monophyletic Lichinales. Furthermore, the occurrence of prototunicate asci in the Heppiaceae and most of the Lichinaceae is autapomorphic and was gained independently by reduction of the rostrate ascus. The 18S rDNA analysis did not reject the non-molecular hypothesis of a sister group relationship of the Lichinales and the Lecanorales as based on ascus characters. The alternative placement of the Lichinales as the sister group of all inoperculate euascomycetes excluding the Sordariomycetes and most of the Leotiales in the gene tree received unsufficient bootstrap support and no support from any non-molecular data and consequently was rejected. [source] Molecular identification of the extinct mountain goat, Oreamnos harringtoni (Bovidae)BOREAS, Issue 1 2010PAULA F. CAMPOS Campos, P. F., Willerslev, E., Mead, J. I., Hofreiter, M. & Gilbert, M. T. P. 2009: Molecular identification of the extinct mountain goat, Oreamnos harringtoni (Bovidae). Boreas, 10.1111/j.1502-3885.2009.00111.x. ISSN 0300-9483. Harrington's mountain goat (Oreamnos harringtoni), an extinct North American herbivore, is one of the least known mammals of the Pleistocene. Fossil specimens are predominantly known from dry cave localities throughout the arid American west , the Grand Canyon, Colorado Plateau, Nevada and Mexico. Morphological analysis of the recovered fossils suggests a close phylogenetic relationship between Harrington's mountain goat and the extant mountain goats from the American northwest (Oreamnos americanus). However, the degree of genetic similarity between the two species, and their overall placement within the Caprinae, is not clear. In this study, we recovered and sequenced the first DNA fragments from O. harringtoni in order to investigate these relationships. Genetic analysis further supports the morphological hypothesis that O. harringtoni and O. americanus are two distinct species. [source] | ||||||||||