A biosystematic study of the rare plant <i>Paronychia virginica</i> Sprengel (Caryophyllaceae) employing morphometric and allozyme analyses

Rohrer, Wendy L.

30 October 1997

Paronychia virginica Spreng. (Caryophyllaceae) is a perennial evergreen herb of exposed, relatively xeric habitats. Approximately 10 mid-Appalachian populations remain in Virginia, West Virginia, and Maryland and are disjunct from populations located primarily in Texas, Oklahoma, and Arkansas. A study was conducted to test the hypothesis that eastern and western populations differ significantly and, therefore, represent at least two distinct taxa. Statistical analyses of 8 qualitative and 24 quantitative morphological characters indicated very highly significant (P < 0.001) variation between eastern and western populations of P. virginica. Characters differing most significantly included sepal pubescence, awn length, awn pubescence, awn curvature, length-width ratio of leaves, and shape of leaf apices. Starch gel electrophoresis was performed and six enzyme systems/nine loci (EST-2, EST-3, LAP, MDH-1, MDH-2, PGI, PGM-1, PGM-2, and SKDH) were identified as being consistently scorable and informative. Although gene flow between populations of P. virginica was shown to be restricted (mean FST = 0.353), populations are maintaining relatively high levels of genetic diversity. Genetic variability was quantified for each population and mean values for number of alleles per locus (A), percent loci polymorphic (P), and expected heterozygosity (HEXP) were found to be 1.95, 47.22%, and 0.204, respectively, exceeding those values reported for seed plants, widespread species, and endemic species. Hierarchical F statistics suggest higher levels of genetic variability within individual populations than among populations, regardless of geographic location. All statistically significant (P < 0.05) deviations from Hardy-Weinberg equilibrium indicated a deficiency in heterozygotes at the respective loci. Considering results from both the morphometric and allozyme analyses, the current author suggests recognizing two distinct subspecies, P. virginica subsp. virginica in the eastern U.S. and P. virginica subsp. scoparia in the south-central U.S. Conservation efforts should be focused on the maintenance of existing populations in both eastern and western regions of the U.S. in order to preserve the genetic and evolutionary potential of these taxa. / Master of Science

disjunct plant populations

species concepts

population genetics

Biosystematic Studies in Crepidotus and the Crepidotaceae (Basidiomycetes, Agaricales)

Aime, Mary Catherine

07 May 2001

Fungi of the Crepidotaceae are characterized by saprotrophic habit, filamentous cuticle, and brown-pigmented basidiospores that lack either a germ pore or plage. The majority of species belong to Crepidotus, distinguished by their pleurotoid basidiomata. Because of their diverse morphology, the presence of several conflicting classifications, and lack of data regarding the biology, phenotypic plasticity, or phylogeny of these fungi, the present study sought first to determine phylogenetic relationships among the different taxonomic groups as a basis for addressing other aspects of Crepidotus biology and evolution. Sequencing analyses show the Crepidotaceae is not monophyletic, and the family concept is revised. Crepidotus and its sister genus Simocybe are found to be monophyletic. At least nine phylogenetic lineages within Crepidotus were uncovered, although relationships between them could not be resolved. However, none of the previously proposed infrageneric classifications are reflective of phylogeny. Morphological, biological, and phylogenetic species concepts were compared within a single phylogenetic unit, termed the Sphaerula group, showing an unusual amount of phenotypic plasticity exists within species, and a taxonomic revision of these species proposed. Also reported are several unique or unusual aspects of Crepidotus biology, including presence of a prolonged latent period prior to basidiospore germination; spontaneous reversion of differentiated hymenial cells to vegetative growth; and the revelation that structures previously termed pleurocystidia are actually the expression of secondary growth from basidia. Results from mating system, culture, and type studies, reassessment of morphological characters traditionally applied to agaric taxonomy, and a revised life cycle for the Crepidoti are presented. / Ph. D.

Melanomphalia

morphogenesis

Tubaria

species concepts

Pleurotellus

fungal biology

Phylogeny and taxonomy of Calonectria and its Cylindrocladium anamorphs

Lombard, Lorenzo

23 October 2010

Species in the genus Calonectria (anamorph: Cylindrocladium) are euascomycetes in the order Hypocreales and are important pathogens of a wide range of plant hosts globally. At the outset, this thesis considers the literature pertaining to species of Calonectria and especially the importance of the biological, morphological and phylogenetic species concepts on the taxonomy of this group. It is clear that DNA sequence comparisons have revolutionised the taxonomy of Calonectria and literature also highlights the importance of a polyphasic approach to species identification. Studies in this thesis treat a number of forest nursery disease problems caused by Calonectria spp. and new species are consequently described based on DNA sequence comparisons, morphological characteristics and sexual compatibility tests. As a consequence several cryptic species were also identified in the genus. Therefore, a multigene genealogy was constructed for all Calonectriaspp. for which cultures were available and shown to group together in 13 subclades also supported by morphological similarities. As a consequence all Cylindrocladium spp. were circumscribed to the genus Calonectria, regardless whether the teleomorph state was present or not, based on new nomenclature regulations stated in Article 59. / Thesis (PhD)--University of Pretoria, 2010. / Microbiology and Plant Pathology / Unrestricted

Phylogeny of calonectria

Taxonomy of calonectria

Taxonomy of the biological

UCTD

Diverzita a fylogeneze symbiotických partnerů červenoplodých dutohlávek a jim příbuzných druhů. / Diversity and phylogeny of symbiotic partners in zeorin-containing red-fruited Cladonia species.

Steinová, Jana

January 2018

Lichens are a classic example of mutualistic symbiotic associations, yet the views on lichen symbiosis have changed considerably during the last fifty years. Nowadays, lichens are generally understood to be microecosystems consisting of several symbiotic partners which contribute in different ways to the prosperity of the whole system and which differ by the strength of their bond to other symbiotic partners. The level of knowledge of the individual partners (mycobionts vs. photobionts vs. bacteria) varies greatly in terms of their specificity, diversity and in the forces that shape this diversity. The main aim of this work was to reveal the diversity of organisms participating in lichen symbiosis and to better understand the biological forces which shape this diversity. We worked with a relatively common lichen group, zeorin-containing red-fruited Cladonia species, and specifically, we focused on the mycobionts, photobionts and bacteria that participate in this association. During the course of the study, it became apparent that species delimitation, which is a fundamental requirement for accurate diversity estimates, is another topic that requires further research. Our analyses revealed that species circumscription of most of recently recognized Cladonia mycobionts cannot by supported by...

Assessing Traditional Morphology- and Chemistry-Based Species Circumspections in Lichenized Ascomycetes: Character Evolution and Molecular Species Delimitation in Common Western North American Lichens

Leavitt, Steven

02 July 2010

Accurate species delimitation has critical implications for ecological and conservation studies; and for understanding factors driving diversification. However, a growing body of evidence indicates that morphology-based species circumspection in lichenized ascomycetes often fails to accurately represent the number of fungal species. The use of molecular data in lichen systematics provides an important alternative to traditional morphological characters for identifying natural groups and assessing evolutionary histories in challenging lichen taxa. In this work, I examined two common lichen-forming genera in western North America, Rhizoplaca and Xanthoparmelia, as models for investigating character evolution, species delimitation in morphologically and chemically diverse species, and identification of lineages in the early stages of divergence. Phylogenetic hypotheses were reconstructed to assess character evolution using sequence data from four nuclear ribosomal markers and fragments from two nuclear loci. I applied a multifaceted approach to delimit species in Rhizoplaca and Xanthoparmelia by assembling multiple lines of evidence using DNA sequence data, and genealogical and population genetic analyses. I have found that traditionally circumscribed species are not supported by molecular data. For example, in Rhizoplaca previously unrecognized lineages were identified within what has thus far been considered a single species. In contrast, morphologically and chemically distinct species within Xanthoparmelia were not supported by molecular data. Distinct medullary chemistries, growth forms, and the production of vegetative diaspores appear to have evolved independently multiple times in Xanthoparmelia. This work clearly indicates that morphological and chemical characters do not always accurately reflect lichen species diversity within even the best known and studied genera. My study of the Rhizoplaca melanophthalma species complex demonstrates that the genus Rhizoplaca, as presently circumscribed, is more diverse in western North American than previously thought. I present these analyses as a working example of species delimitation in morphologically cryptic lichenized fungi. In Xanthoparmelia diagnostic morphological and chemical characters have evolved in a highly homoplasious manner. In contrast to other studies documenting previously undiscovered fungal lineages masked within lichen species circumscribed by traditional morphological and chemical characters, my work suggests that species diversity has been overestimated in the lichen genus Xanthoparmelia.

character evolution

convergence

lichens

morphology

Parmeliaceae

Rhizoplaca

secondary metabolites

speciation

species concepts

species delimitation

vagrant lichens

Xanthoparmelia

Biology

Species Limits and Systematics in Some Passerine Birds

Alström, Per

January 2002

<p>I use morphological, vocal, molecular, behavioural, ecological and distributional data to re-evaluate the systematics of three passerine bird groups, the <i>Mirafraassamica </i>complex (bush-larks), the genus <i>Seicercus</i> ("spectacled-warblers"; with emphasis on the the <i>S. burkii</i> complex) and the genus <i>Motacilla</i> (wagtails). Two new species are described: <i>Seicercus soror</i> and <i>Motacilla samveasnae</i>. I propose that the polytypic species <i>M. assamica</i> should be treated as four separate species: <i>M. assamica</i>, <i>M. affinis</i>, <i>M. microptera</i> and <i>M. marionae</i> (it is also remarked that the proper name of the latter is <i>M. erythrocephala</i>). That is primarily supported by vocalisations and mitochondrial DNA. The latter data set also suggests that <i>M. assamica</i> sensu lato is paraphyletic, since <i>M. erythroptera</i>, which is always treated as a separate species, is nested within the <i>M. assamica</i> complex. I propose that the polytypic species <i>S. burkii</i> comprises six sibling species. Some of these are found to breed sympatrically, although mainly or entirely segregated altitudinally. Mitochondrial DNA suggests that the <i>S. burkii</i> complex is non-monophyletic, and also that the divergence of the different taxa is much older than indicated by morphological and vocal data. According to the molecular phylogeny, both the genera <i>Seicercus</i> and its assumed sister genus <i>Phylloscopus</i> are paraphyletic. That is corroborated by independent data. The phylogenetic study of the genus <i>Motacilla</i> reveals incongruence between mitochondrial DNA, nuclear DNA and non-molecular data. I conclude that the nuclear gene tree reflects the organismal phylogeny more faithfully than the mitochondrial gene tree. The latter is likely to have been affected by introgressive hybridisation, possibly also stochastic lineage sorting. The most remarkable result that is strongly supported by both mitochondrial and nuclear DNA is that <i>M. flava</i> is non-monophyletic.</p>

Organismic biology

Mirafra

Seicercus

Phylloscopus

Motacilla

species concepts

species limits

phylogeny

morphology

vocalisations

mitochondrial DNA

nuclear DNA

incongruence

Organismbiologi

Organism biology

Organismbiologi

Species Limits and Systematics in Some Passerine Birds

Alström, Per

January 2002

I use morphological, vocal, molecular, behavioural, ecological and distributional data to re-evaluate the systematics of three passerine bird groups, the Mirafraassamica complex (bush-larks), the genus Seicercus ("spectacled-warblers"; with emphasis on the the S. burkii complex) and the genus Motacilla (wagtails). Two new species are described: Seicercus soror and Motacilla samveasnae. I propose that the polytypic species M. assamica should be treated as four separate species: M. assamica, M. affinis, M. microptera and M. marionae (it is also remarked that the proper name of the latter is M. erythrocephala). That is primarily supported by vocalisations and mitochondrial DNA. The latter data set also suggests that M. assamica sensu lato is paraphyletic, since M. erythroptera, which is always treated as a separate species, is nested within the M. assamica complex. I propose that the polytypic species S. burkii comprises six sibling species. Some of these are found to breed sympatrically, although mainly or entirely segregated altitudinally. Mitochondrial DNA suggests that the S. burkii complex is non-monophyletic, and also that the divergence of the different taxa is much older than indicated by morphological and vocal data. According to the molecular phylogeny, both the genera Seicercus and its assumed sister genus Phylloscopus are paraphyletic. That is corroborated by independent data. The phylogenetic study of the genus Motacilla reveals incongruence between mitochondrial DNA, nuclear DNA and non-molecular data. I conclude that the nuclear gene tree reflects the organismal phylogeny more faithfully than the mitochondrial gene tree. The latter is likely to have been affected by introgressive hybridisation, possibly also stochastic lineage sorting. The most remarkable result that is strongly supported by both mitochondrial and nuclear DNA is that M. flava is non-monophyletic.

Organismic biology

Mirafra

Seicercus

Phylloscopus

Motacilla

species concepts

species limits

phylogeny

morphology

vocalisations

mitochondrial DNA

nuclear DNA

incongruence

Organismbiologi

Organism biology

Organismbiologi

Conservation Biology in Poorly Studied Freshwater Ecosystems: From Accelerated Identification of Water Quality Bioindicators to Conservation Planning

Al-Saffar, Mohammed Abdullah

08 March 2016

No description available.

Animal Sciences

Aquatic Sciences

Biology

Conservation

Ecology

Environmental Studies

Wildlife Conservation

Zoology

Ephemeroptera

Plecoptera

Trichoptera

Dichotomous Key

Taxonomic Impediment

Species Concepts

Integrative Taxonomy

DNA Barcoding

Genetic-Based Analyses

Prioritization

Distribution Modeling

West Palaearctic

Middle East

Iraq

Kurdistan Region