Dissertationen zum Thema „Bryozoa“
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Tsyganov-Bodounov, Anton. „Molecular systematics of Bryozoa“. Thesis, Swansea University, 2008. https://cronfa.swan.ac.uk/Record/cronfa43148.
Der volle Inhalt der QuelleMarkham, J. B. „Studies on feeding in Bryozoa“. Thesis, Swansea University, 1988. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.638002.
Der volle Inhalt der QuelleFisher, E. M. „Competition for food in the Bryozoa“. Thesis, University of Liverpool, 1989. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.279719.
Der volle Inhalt der QuelleVieira, Leandro Manzoni. „Sistemática e distribuição dos briozoários marinhos do litoral de Maceió, Alagoas“. Universidade de São Paulo, 2008. http://www.teses.usp.br/teses/disponiveis/41/41133/tde-12122008-103654/.
Der volle Inhalt der QuelleTischler, Mark. „Secondary metabolites from selected British Columbian marine organisms“. Thesis, University of British Columbia, 1987. http://hdl.handle.net/2429/26650.
Der volle Inhalt der QuelleScience, Faculty of
Chemistry, Department of
Graduate
Boonzaaier, Melissa Kay. „Diversity and Zoogeography of South African Bryozoa“. University of the Western Cape, 2017. http://hdl.handle.net/11394/6308.
Der volle Inhalt der QuelleThe taxonomic history of South African bryozoans is fragmented and outdated, with the majority of published works in the 20th Century. Sampling gaps exist in deep-sea regions and parts of the coastline, while existing collections within museums remain undetermined due to scarcity of specialist taxonomists. This project forms part of a larger project aimed at updating marine invertebrate biodiversity in South Africa. Outcomes of this project include updating bryozoan biodiversity by identifying species from existing collections housed in natural history museums (e.g., Iziko South African Museum, Cape Town and Natural History Museum, London), and analysing current regional bryozoan biogeographical and depth-related species richness patterns. The biogeography and richness of bryozoan species around South Africa was investigated using published distribution records from the literature and museum catalogues as well as examining un-worked bryozoan material from Iziko South African Museum. A total of 368 species of bryozoans were recorded, including twelve new species (Favosipora epiphyta sp. nov., Chaperiopsis (Chaperiopsis) yinca sp. nov., Aspidostoma staghornea sp. nov., Micropora erecta sp. nov., Trypostega infantaensis sp. nov., Khulisa ukhololo sp. nov., Adeonella assegai sp. nov., Celleporaria umuzi sp. nov., Hippomonavella lingulatus sp. nov., Microporella lezinyosi sp. nov., Phidolopora cyclops sp. nov. and Reteporella ilala sp. nov.) and 70 unidentified species. Distribution data for 286 valid species were separated by depth zones (shallow waters, subphotic zone, shelf edge, bathyal zone and abyss) and four biogeographic regions are recognised a priori around South Africa, namely the west, south, southeast and east coasts. This study revealed that there is a clear biogeographic structure to regional bryozoan fauna of South Africa. Species richness and endemism appear lowest on the west coast (104 species) and highest on the south coast (174 species), while local peaks are observed in the Cape Peninsula/False Bay area, East London, Durban and St. Lucia, which coincide with distinct genetic lineages for some marine taxa (e.g. octocorals, chitons, echinoderms, fishes, seaweeds). Although, the faunal break in Durban does not represent a peak in species richness in this study, but rather very low bryozoan richness, highlighting the undersampled areas north of Durban. The northward-flowing Benguela Current and strong upwelling centres may influence the low diversity on the west coast. On the south coast, the high diversity may be attributed to the Agulhas Current that can carry larvae southwards and eastward-flowing counter currents produce great variability in bryozoan communities in this region. Within any biogeographic region, bryozoan diversity was higher in shallower (< 500 m) than deeper waters, which may be attributed to sampling effort and heterogeneity (e.g. variable substrate and wave action) in shallower waters. Keywords: Bryozoa, distribution patterns, gradients, species richness, South Africa
Bayer, Micha. „Genetic determinism, inducible morphology and phenotypic plasticity in the marine bryozoan Electra pilosa (L.)“. Thesis, University of St Andrews, 1998. http://hdl.handle.net/10023/14623.
Der volle Inhalt der QuelleNascimento, Karine Bianca. „Investigação do padrão de distribuição do briozoário cosmopolita Zoobotryon verticillatum (Ctenostomata, Vesiculariidae), através de dados moleculares“. Universidade de São Paulo, 2015. http://www.teses.usp.br/teses/disponiveis/41/41133/tde-24092015-103445/.
Der volle Inhalt der QuelleZoobotryon verticillatum (delle Chiaje, 1822) is a cosmopolitan bryozoan largely distributed in tropical and temperate waters of all oceans. With limited natural dispersal capabilities, it is reasonable to suppose that the taxon is a complex of cryptic species or a widespread species due to anthropogenic activity. In order to elucidate this question, analyses of two mitochondrial genes, cytochrome c oxidase subunit 1 (COI) and ribosomal RNA subunit (16S) were conducted. Phylogenetic data supported the monophyletism of Z. verticillatum and, together with the population analysis, indicated that it is one species with worldwide distribution. The absence of geographical structure in the haplotype networks, the majority absence of dichotomous relationships, and highly supported clades (pp >= 5%) in phylogenetic trees, the lack of significance in the D test and Fs statistics, the low genetic diversity at the population level and the lack of genetic differentiation between most of the population comparison are consistent with anthropogenic introduction process for Z. verticillatum. However, based on the results obtained during this study, it is not yet possible to infer the center of dispersion for the species.
Vieira, Leandro Manzoni. „Revisão taxonômica do gênero Scrupocellaria van Beneden (Bryozoa, Candidae)“. Universidade de São Paulo, 2012. http://www.teses.usp.br/teses/disponiveis/41/41133/tde-01052013-152058/.
Der volle Inhalt der QuelleThe genus Scrupocellaria sensu lato (Family Candidae) comprises about 92 species, 20 fossil and 72 Recent. Many of the species are morphologically similar or have been treated taxonomically as having a high degree of morphological plasticity, with distributions of many of the species being reported to be \"worldwide\". Despite the long taxonomic history of Scrupocellaria and its occurrence in habitats ranging from intertidal to deep water, taxonomic studies of the genus are scarce. Therefore the purpose of this study was: (i) to carry out a species survey of Scrupocellaria, (ii) to delimit the intraspecific morphological variations of species, (iii) to analyze the comparative morphology of Scrupocellaria in order to propose a hypothesis of phylogenetic relationships between species of the genus. This study included both colonies collected in various localities on Brazilian coast and material of non-Brazilian species deposited at scientific collections around the world. All specimens were studied by light microscopy. Some specimens were also chosen for study with the scanning electron microscope. Specimens studied included holotypes of 32 species, syntypes of 22 species and 1 lectotype. Some morphological characters were used for the first time to distinguish taxa, e.g. rhizoidal surface, size of abfrontal vibracula, and shape of lateral and frontal avicularia. The lectotype of Scrupocellaria reptans was selected to redescribe and define the identity of the type species of Scrupocellaria from specimens described by Carolus Linnaeus, and to show its distinction from a newly described species from North Sea by means of the shape of scuta, size of zooids and, occurence of rhizoids with retroussé hooks. Scrupocellaria jolloisii is reported by first time in the Atlantic Ocean and placed in the genus Licornia, a name resurrected to acommodate 9 species formerly placed in Scrupocellaria: Licornia annectens n. comb., Licornia cervicornis n. comb., Licornia cyclostoma n. comb., Licornia diadema n. comb., Licornia ferox n. comb., Licornia gaspari n. comb., Licornia longispinosa n. comb., Licornia macropora n. comb. e Licornia prolata n. comb. A new genus, N.gen.1, is described to include Scrupocellaria bertholletii. Twenty-six species, 19 of them described as new, are assigned to N.gen.1, and a taxonomic key for species of that genus is presented. A phylogenetic study using 35 morphological characters of 84 Candidae species suggests that the genus Scrupocellaria is a polyphyletic taxa and the genus N.gen.1 is a monophyletic taxa. Scrupocellaria \'sensu stricto\' is redefined according to four morphological features: vibracular chamber with curved setal groove, ooecium with a single ectooecial fenestra, two axillary vibracula and a membranous operculum with a distinct distal rim. Thus Scrupocellaria \'sensu stricto\' includes 10 species: Scrupocellaria aegeensis, Scrupocellaria delilii, Scrupocellaria harmeri, Scrupocellaria incurvata, Scrupocellaria inermis, Scrupocellaria intermedia, Scrupocellaria jullieni, Scrupocellaria minuta, Scrupocellaria scrupea, and Scrupocellaria scruposa. Five genera are erected to include other species previously assigned to Scrupocellaria; they are distinct in the shape of scuta and oral spines, the shape of vibracular chamber and the surface of ovicells. The study revealed a high diversity in some groups of Candidae and the necessity of additional studies on taxonomy and phylogeny of the family to provide a better understanding of distributions, morphological variation, and phylogenetic relationships between the taxa
Sabri, Zakaria. „Révision systématique du genre Lichenopora Defrance, 1823 (Bryozoa, Cyclostomata)“. Lyon 1, 1988. http://www.theses.fr/1988LYO11763.
Der volle Inhalt der QuelleSnell, Joanna Frances. „Palaeobiology of Bryozoa from the Much Wenlock limestone formation“. Thesis, University of Birmingham, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.246486.
Der volle Inhalt der QuelleSabri, Zakaria. „Révision systématique du genre Lichenopora, Defrance, 1823, Bryozoa, Cyclostomata“. Grenoble 2 : ANRT, 1988. http://catalogue.bnf.fr/ark:/12148/cb37618334n.
Der volle Inhalt der QuelleWatts, Phillip Charles. „Population-genetic and biogeographic consequences of dispersal in cheilostome Bryozoa“. Thesis, University of Liverpool, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.364350.
Der volle Inhalt der QuellePaquette, Lance. „Phylogenetic analysis of the bryozoan Suborder Rhabdomesina“. Diss., Connect to online resource - MSU authorized users, 2008.
Den vollen Inhalt der Quelle findenGruhl, Alexander [Verfasser]. „Phylogenetic significance of mesodermal and neural structures in Bryozoa / Alexander Gruhl“. Berlin : Freie Universität Berlin, 2008. http://d-nb.info/1023095785/34.
Der volle Inhalt der QuelleCarter, Michelle Clare. „The functional morphology of avicularia in cheilostome bryozoans : a thesis submitted to the Victoria University of Wellington in fulfilment of the requirements for the degree of Doctor of Philosophy in Marine Biology /“. ResearchArchive@Victoria e-Thesis, 2008. http://hdl.handle.net/10063/747.
Der volle Inhalt der QuelleSchmidt, Rolf. „Eocene bryozoa of the St Vincent Basin, South Australia - taxonomy, biogeography and palaeoenvironments /“. Title page, abstract and contents only, 2003. http://web4.library.adelaide.edu.au/theses/09PH/09phs3491.pdf.
Der volle Inhalt der QuelleIncludes Publication list by the author as appendix A. "July 2003." Includes bibliographical references (leaves 308-324).
Best, M. A. „Some aspects of the ecology and physiology of feeding in marine bryozoa“. Thesis, University of Liverpool, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.354539.
Der volle Inhalt der QuelleHatton-Ellis, Tristan Willmott. „The molecular ecology of Cristatella mucedo (Bryozoa: phylactolaemata) in space and time“. Thesis, University of Bristol, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.388021.
Der volle Inhalt der QuelleFairall, Victor Roger. „A study of the colonial organisation of two species of arborescent cellularine Bryozoa“. Thesis, Swansea University, 2004. https://cronfa.swan.ac.uk/Record/cronfa43194.
Der volle Inhalt der QuelleRicciardi, Anthony. „Taxonomy, distribution and ecology of the freshwater sponges (Porifera:Spongillidae) and bryozoans (Ectoprocta) of eastern Canada“. Thesis, McGill University, 1992. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=61081.
Der volle Inhalt der QuelleDavidson, Seana Kelyn. „Biology of the bryostatins in the marine bryozoan Bugula neritina : symbiosis, cryptic speciation and chemical defense /“. Diss., Connect to a 24 p. preview or request complete full text in PDF format. Access restricted to UC campuses, 1999. http://wwwlib.umi.com/cr/ucsd/fullcit?p3035405.
Der volle Inhalt der QuelleSouthwood, David Ashley. „The taxonomy and palaeoecology of Bryozoa from the Upper Permian Zechstein Reef of N.E. Eng1and“. Thesis, Durham University, 1985. http://etheses.dur.ac.uk/6816/.
Der volle Inhalt der QuelleSogot, Caroline Elizabeth. „Hard substrate communities across the K-Pg boundary“. Thesis, University of Cambridge, 2013. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.648377.
Der volle Inhalt der QuelleSanderson, William Guy. „Studies of influences on feeding in Antarctic and temperate Bryozoa : conducted in the British Isles“. Thesis, University of Liverpool, 1993. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.386963.
Der volle Inhalt der QuelleKnowles, Tanya. „Fossil cheilostome Bryozoa of the mid-Pliocene North Atlantic and the interference of environmental regimes“. Thesis, University of Reading, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.501324.
Der volle Inhalt der QuelleSwezey, Daniel Sergio. „Ocean Acidification on the California Coast| Responses of Marine Bryozoa to a High CO2 Future“. Thesis, University of California, Davis, 2016. http://pqdtopen.proquest.com/#viewpdf?dispub=10036209.
Der volle Inhalt der QuelleAs a result of human activities, the level of CO2 in the Earth’s atmosphere has increased by nearly 40% since the industrial revolution. The rate of green house gas emission is accelerating, with current trends exceeding those predicted by “worst case” global climate change scenarios. The chemistry of the ocean is fundamentally changing as a result of increasing atmospheric CO2, which dissolves in seawater, making it more acidic, a process referred to as ocean acidification (OA). A rapidly expanding body of science is now being generated to understand the impact of this global environmental change. To date, most studies evaluating OA effects have centered on simplified laboratory analyses that expose single populations to short-term treatments in order to quantify responses of individuals. These designs offer a limited assessment of the degree to which phenotypic plasticity and local adaptation might influence the response of populations to OA.
To address these questions, I carried out studies on members of Phylum Bryozoa, a species-rich clade of calcified colonial marine invertebrates distributed throughout the global ocean. Bryozoans were selected as a model system for this work because the clade exhibits a broad array of growth and calcification strategies, and because of the relative paucity of data regarding their expected response to future acidification. In addition, bryozoans can be subdivided into genetically identical replicate clones, which can then be assigned to separate treatments, allowing variation across treatments to be uniquely partitioned into the variance components of statistical models. In order to culture bryozoans for comparative experiments, I designed and constructed a new flow-through OA system at the Bodega Marine Laboratory, capable of finely manipulating both the temperature and carbonate chemistry of seawater, allowing for controlled laboratory experiments of long duration.
In Chapter 1, I performed a comparative 9-month laboratory experiment examining the effects of ocean acidification on the native Californian bryozoan Celleporella cornuta. C. cornuta was sampled from two regions of coastline that experience different oceanographic conditions associated with variation in the intensity of coastal upwelling. Under different CO2 treatments, the biology of this bryozoan was observed to be remarkably plastic. Colonies raised under high CO2 grew more quickly, invested less in reproduction, and produced skeletons that were lighter compared to genetically identical clones raised under current atmospheric values. Bryozoans held in high CO2 conditions reduced their investment in skeletal carbonate, changed the Mg/Ca ratio of skeletal walls and increased the expression of organic coverings that may serve a protective function. Differences between populations in growth, reproductive investment, and the frequency of organic covering production were consistent with adaptive responses to persistent variation in local oceanographic conditions.
In Chapter 2, I tested whether skeletal mineralogy can vary plastically in some invertebrates using the cosmopolitan bryozoan Membranipora tuberculata as a model. In a 6-month laboratory experiment, I cultured genetic clones of M. tuberculata under a factorial design with varying food availability, temperature, and dissolved CO2 concentrations. Elevated food availability increased growth in colonies while cold temperatures and high CO2 induced degeneration of colony zooids. However, colonies were able to maintain equivalent growth efficiencies under cold, high CO2 conditions, suggesting a compensatory tradeoff whereby colonies increase the degeneration of older zooids under adverse conditions, redirecting this energy to the maintenance of growth. Elevated food and cold temperatures also decreased Mg concentrations in skeletal material, and this skeletal material dissolved less readily under high CO2 conditions. This suggests that these factors interact synergistically to affect dissolution potential in this and other species.
Finally, in Chapter 3, I explore stable isotope values for δ 18O and δ13C in the calcium carbonate structures of the bryozoan Membranipora tuberculata. I tested whether this species accurately records both temperature and pH variability during periods of coastal upwelling by analyzing δ18O and δ 13C in colonies grown in the field and in controlled laboratory cultures. Field-grown colonies were out planted next to a Durafet® pH sensor, which provided a high-resolution record of the temperature and pH conditions these colonies experienced. δ13C was found to negatively co-vary with pH in both laboratory and field growth, and calculated field temperatures derived from laboratory δ18O temperature calibrations aligned with the records from the pH sensor. δ18 Oc values were more depleted under low pH in laboratory trials, which stands in contrast to patterns observed in other taxa. This may indicate that Membranipora utilizes bicarbonate ion (HCO 3-) in its calcification pathway, and could help explain why many bryozoan species appear to exhibit enhanced growth under high CO 2 conditions. (Abstract shortened by ProQuest.)
Eisenbarth, Sophie. „Isolierung, Strukturaufklärung und Untersuchungen zur Biosynthese von Sekundärmetaboliten aus Physarum polycephalum (Myxomycetes) und Pentapora fascialis (Bryozoa)“. Diss., lmu, 2003. http://nbn-resolving.de/urn:nbn:de:bvb:19-7626.
Der volle Inhalt der QuelleDutra, Felipe de Souza. „Influência da heterogeneidade ambiental na aptidão e plasticidade fenotípica do briozoário marinho Schizoporella errata (Bryozoa, Cheilostomata)“. reponame:Repositório Institucional da UFABC, 2015.
Den vollen Inhalt der Quelle findenDissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Evolução e Diversidade, 2015.
Em ambientes heterogêneos, a evolução pode favorecer a plasticidade fenotípica como forma de aumentar a gama de condições nas quais os organismos podem sobreviver e reproduzir. Essa heterogeneidade pode ser o resultado da variação das condições naturais, mas atividades antrópicas também podem aumentar a heterogeneidade mesmo em pequenas escalas. Para saber como um organismo responde a essa heterogeneidade em pequena escala, investigamos a manifestação de diferentes fenótipos e as consequências da plasticidade fenotípica na aptidão do briozoário marinho Schizoporella errata frente a duas condições ambientais distintas ocasionadas por uma marina de recreação: no quebra-mar (maior hidrodinâmica) e no interior da marina (mais impactado). Realizamos dois experimentos: 1) no primeiro verificamos como as condições distintas dos dois locais influenciam os atributos relativos à aptidão de colônias de S. errata com duas idades (3 meses e 5 meses) e em dois momentos do ano. 2) No segundo, testamos se estes atributos são plásticos, através de um experimento de translocação recíproca utilizando clones de S. errata. Quando observamos diferenças no crescimento assexuado das colônias entre locais (períodos mais quentes), estas cresceram mais e apresentaram maior densidade de autozooides no quebra-mar. Já no interior da marina, as colônias investiram mais em reprodução sexuada. O investimento em defesa foi maior no segundo momento de experimentação, quando o percentual de colônias consumidas foi maior. As colônias apresentaram plasticidade em todos os atributos relativos à aptidão, com muita variação entre os genótipos. De modo geral, no quebra-mar os clones cresceram mais e tiveram maiores densidades de autozooides do que os do interior da marina corroborando o padrão descrito no primeiro experimento. Enquanto o investimento reprodutivo não variou entre os clones e locais de origem e destino, clones investiram mais em defesa no quebra-mar. As diferenças das condições ambientais entre os locais geraram efeitos variados na aptidão de S. errata, dependendo do momento do ano, da idade, do genótipo, mas principalmente da interação entre estes fatores. O hidrodinamismo no quebra-mar pode ter contribuído para o maior investimento em crescimento e densidade de autozooides, enquanto que no interior da marina o menor crescimento foi compensado pelo maior investimento reprodutivo, indicando uma possível demanda conflitante entre reprodução sexuada e assexuada. De forma geral, as alterações nas condições físicas e biológicas causadas pela construção da marina afetou a manifestação do fenótipo em S. errata, entretanto toda essa plasticidade diferiu entre indivíduos, indicando que dentro da população há uma grande variação na forma como o fenótipo é manifestado, o que explica porque Schizoporella errata é uma espécie invasora comum em muitos locais do mundo
In heterogeneous environments, evolution can promote phenotypic plasticity in order to increase the range of conditions in which the organisms can survive and reproduce. This heterogeneity can be caused by variation in the natural conditions, but human activities may also increase the heterogeneity even at small scales. To learn how the heterogeneity of environmental conditions affects the expression of different phenotypes and the consequences of phenotypic plasticity to the organisms fitness, we growth the marine bryozoan Schizoporella errata under two different environmental conditions caused by a recreational marina: on the breakwater, a more natural and hydrodynamic local and inside the marina, a more calm but disturbed place. We conducted two experiments: 1) on first we described how the different conditions of the two sites influence the attributes related to the fitness of S. errata with two different ages (3 months and 5 months) and two moments of the year. 2) On second we tested whether these attributes are induced by the environment, through reciprocal translocation of clones of S. errata. When the local affected clonal growth of colonies (warm periods), colonies reached larger size and zooid densities at the breakwater. However, inside the marina the colonies invested more in sexual reproduction. Investment in defense was higher in the second time trial, when the percentage of colonies consumed was higher. During the second experiment, the colonies showed plasticity in all studied traits, with large variation among genotypes. In general, clones in the breakwater grew more and had higher autozooids densities than those of the inside of marina, corroborating the pattern described in the first experiment. While the reproductive investment was not affected by the genotype, origin or destination, the clones invested more in defense in the breakwater. The differences of the environmental conditions between the sites, generated various effects on S. errata fitness, depending on the moment, age, genotype, but mainly on the interaction between these factors. The hydrodynamics on the breakwater may have contributed to the increased investment in growth and autozooids density, while inside the marina the lowest growth was offset by higher reproductive investment, indicating a possible trade-off between sexual and asexual reproduction. In general, changes in physical and biological conditions caused by marina construction affected the expression of phenotype in S. errata, however this plasticity differ between individuals, indicating that within the population there is great variation in how the phenotype is expressed, which explains why Schizoporella errata is a common invasive species in many parts of the world.
Bone, Elisa K. „Colonial integration and the maintenance of colony form in encrusting bryozoans /“. Connect to thesis, 2006. http://eprints.unimelb.edu.au/archive/00003224.
Der volle Inhalt der QuelleCAVALCANTI, Thaynã Ewerlin Ribeiro. „Briozoofauna associada às esponjas em ambientes recifais (Pernambuco, Brasil)“. Universidade Federal de Pernambuco, 2016. https://repositorio.ufpe.br/handle/123456789/17960.
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Briozoários são organismos sésseis e coloniais, que dependem de uma superfície firme para assentamento larval e crescimento da colônia. Entre os diferentes substratos disponíveis para briozoários, as esponjas podem oferecer uma superfície favorável, trazendo muitas vantagens como a presença de compostos químicos que inibem a predação. Este estudo verificou a presença de briozoários em seis espécies de esponjas, com finalidade de avaliar a abundância e riqueza desses briozoários em diferentes esponjas. Três espécimes das esponjas, Amphimedon compressa Duchassaing & Michelotti, 1864, Amphimedon viridis Duchassaing & Michelotti, 1864, Desmapsamma anchorata (Carter, 1882), Dysidea etheria de Laubenfels, 1936, Haliclona implexiformis (Hechtel, 1965) e Tedania ignis (Duchassaing & Michelotti, 1864) foram coletadas mensalmente entre setembro de 2014 e fevereiro de 2016, em Pontas de Pedra, Pernambuco, Brasil. Os briozoários encontrados foram identificados até o menor nível taxonômico possível e quantificados. Um total de 324 espécimes de esponjas foi analisado, no qual destas 88 apresentavam briozoários em sua superfície (27%). Onze espécies de briozoários pertencentes à Classe Gymnolaemata foram encontrados nas esponjas, sendo quatro pertencentes à Ordem Ctenostomata, Amathia distans Busk, 1886, Amathia verticillata (delle Chiaje, 1822), Amathia vidovici Heller,1867 e Nolella stipata Gosse, 1855, sete da Ordem Cheilostomata, Beania klugei Cook, 1968, Catenicella uberrima (Harmer, 1957), Caulibugula dendograpta (Waters, 1913), Licornia sp., Savignyella lafontii (Audoin, 1826), Synnotum aegyptiacum Canu & Bassler, 1928 e Thalamoporella floridana Osburn, 1940. Briozoários foram abundantes nas esponjas Te. ignis e De. anchorata e pouco frequentes em Ap. compressa e Ap. viridis. Desmapsamma anchorata e Te. ignis apresentaram a maior riqueza de espécies (nove espécies em cada esponja), seguida por Dy. etheria (sete espécies). Uma baixa riqueza de espécies foi observada em Ap. compressa, com apenas três espécies de briozoários, Ap. viridis com quatro espécies, e H. implexiformis com cinco espécies. Apenas o briozoário N. stipata foi encontrado em todas as espécies de esponjas, enquanto que At. distans e At. vidovici não foram encontradas apenas em Ap. compressa. Uma maior riqueza e abundancia de briozoários foram encontradas em De. anchorata e Te. ignis, que apresentam superfície lisa e aveludada, e lisa e vilosa, respectivamente. Por outro lado, superfície lisa também é característica das espécies Ap. compressa e Ap. viridis, que apresentaram a menor frequência e diversidade de briozoários. Adicionalmente, as esponjas De. anchorata e Dy. etheria que apresentam superfície lisa e conulosa, respectivamente, compartilharam grande parte das espécies encontradas. A presença de metabólitos secundários nas esponjas do gênero Amphimedon que apresentam toxicidade já descrita na literatura, pode ter influenciado na ocorrência dos briozoários. Enquanto que as esponjas Te. Ignis, De. anchorata e Dy. Etheria, que apresentaram uma grande abundância de briozoários, podem ter provido um microhabitat adequado para os briozoários da região. O padrão temporal de ocorrência dos briozoários nas esponjas durante os 18 meses de coleta foi aleatório. O presente trabalho permite identificar alguns padrões da ocorrência dos briozoários, relacionado a composição química das esponjas e sua posição no substrato.
Bryozoans comprise sessile, colonial organisms that require a hard surface for settlement and growth. Among different substrata for bryozoans, sponges may provide suitable substrata, with advantages such as presence of compounds against predators. This study analyses the bryozoan community on six sponges species throughout 18 months, to evaluate the presence of bryozoans on its surface. Three specimens of each sponges, Amphimedon compressa Duchassaing & Michelotti, 1864, Amphimedon viridis Duchassaing & Michelotti, 1864, Desmapsamma anchorata (Carter, 1882), Dysidea etheria de Laubenfels, 1936, Haliclona implexiformis (Hechtel, 1965) and Tedania ignis (Duchassaing & Michelotti, 1864), were taken monthly betweem September 2014 to February 2016, in Pontas de Pedra, Pernambuco State, Brazil. Bryozoans were identified to the lowest taxonomic level, and quantified. Total of 324 specimens of sponges were analysed, 88 from those were found bryozoans on its surface (27%). Eleven gymnolaemate bryozoans were found on sponges being four of the Order Ctenostomata, Amathia distans Busk, 1886, Amathia verticillata (delle Chiaje, 1822), Amathia vidovici Heller,1867 and Nolella stipata Gosse, 1855, and seven species Cheilostomata, Beania klugei Cook, 1968, Catenicella uberrima (Harmer, 1957), Caulibugula dendograpta (Waters, 1913), Licornia sp., Savignyella lafontii (Audoin, 1826), Synnotum aegyptiacum Canu & Bassler, 1928 and Thalamoporella floridana Osburn, 1940. Bryozoans were considered abundant on the sponges Te. ignis and De. anchorata, but few frequents on Ap. compressa and Ap. viridis. On De. anchorata and Te. ignis were found the highest bryozoan richness (9 species of bryozoan per sponge species), followed by Dy. etheria (7 bryozoan species). A low species richness was observed in Ap. compressa, Ap. viridis and H. implexiformis with respectively three, four and five species of bryozoans on their surface. Only N. stipata was found on the six sponge species, while At. distans and At. vidovici were not found only on Ap. compressa. Higher richness and abundance of bryozoans were found in De. anchorata and Te. ignis, with smooth and velvety surface, smooth and villous surface, respectively. Smooth surface is also characteristic of Ap. compressa and Ap. viridis, with the lowest frequency and diversity of bryozoans. Additionally, on sponges De. anchorata and Dy. etheria, with smooth and conulose surface respectively, were shared the majority of bryozoan species. We suggest the presence of secondary metabolites may have interfered the bryozoans on sponges of Amphimedon genus. Sponges Te. ignis, De. anchorata and Dy. etheria, have an abundance of bryozoans; thus, we suggest these sponges may allow a suitable substratum for the bryozoans. The temporal variation of bryozoans on sponges was random. In present work some patterns of occurrence of bryozoans are presented, with relation to the chemical composition and position of sponge.
Rapson, Trevor Douglas. „Bioactive 4-methoxypyrrolic natural products from two South African marine invertebrates“. Thesis, Rhodes University, 2005. http://hdl.handle.net/10962/d1006766.
Der volle Inhalt der QuelleScholz, Joachim, Kiyonori Nakajima, Teruaki Nishikawa, Jürgen Kaselowsky und F. Shunsuke Mawatari. „First discovery of Bugula stolonifera Ryland, 1960 (Phylum Bryozoa) in Japanese waters, as an alien species to the Port of Nagoya“. 名古屋大学博物館, 2003. http://hdl.handle.net/2237/7285.
Der volle Inhalt der QuelleNytch, Christopher J. „Bad-Boy Bryozoan Biomarkers : Cheilostome Distribution Patterns Along a Bahamian Depth Gradient“. Oberlin College Honors Theses / OhioLINK, 2000. http://rave.ohiolink.edu/etdc/view?acc_num=oberlin1415358481.
Der volle Inhalt der QuelleGeraldine, Winzar. „Bryozoa of Antarctica : a first appraisal of the samples collected from 1929 to 1931 during the B.A.N.Z. Antarctic Research Expedition under the leadership of Sir Douglas Mawson /“. Title page, contents and abstract only, 1998. http://web4.library.adelaide.edu.au/theses/09SB/09sbw795.pdf.
Der volle Inhalt der QuelleLocation of stations off Antarctica stn. 30: Lat. 66 48's; Long. 71 24'E Stn. 41:Lat. 65 48's; Long. 53 16'E Stn. 107: Lat 66 45's; Long. 62 03'E. Bibliography leaves 163-164.
Aguiar, Bruno Sayão de. „Avaliação de identidade taxonômica de Amathia cf. crispa e Amathia cf. vidovici (Bryozoa: Ctenostomata) com ocorrência ao longo da costa brasileira, a partir de dados morfológicos e moleculares“. Universidade de São Paulo, 2015. http://www.teses.usp.br/teses/disponiveis/41/41133/tde-19052015-092454/.
Der volle Inhalt der QuelleThis work aims to clarify the taxonomic identity of two species of bryozoans reported on the Brazilian coast as Amathia cf. vidovici and Amathia cf. crispa based on morphological and molecular analysis using the mitochondrial genes 16S rRNA and COI, which had proved useful in the genetic differentiation at the species level of other species of genus Amathia. Colonies were collected in different localities along the Brazilian coast, from Fortaleza, Ceará state, up to Palhoça, Santa Catarina state, including 107 samples of A. cf. vidovici and 18 of A. cf. crispa. A new species was detected for each evaluated group: Amathia sp. nov.1 e Amathia sp. nov.2. Amathia sp. nov.1 was found only on sites situated in Cabo Frio, state of Rio de Janeiro, and Vitória, state of Espírito Santo, being distinct of A. cf. vidovici by having: 1) longer clusters of zooids, 2) longer stolon internodes, and 3) spiral of zooid clusters describing a greater angle. Amathia sp. nov.2 was exclusively found in Ilha do Mel, state of Paraná; it is distinct from A. cf. crispa by the following: 1) spiral of zooid clusters describing a smaller angle, 2) fewer pairs of zooids per cluster, 3) shorter clusters of zooids, and 4) shorter stolon internodes. The molecular analyses corroborate the morphological results, both also revealing a geographical structure for A. vidovici. This specie was found throughout the coast of Brazil (CE, PB, PE, AL, BA, RJ, SP, PR, SC), the ones from the Northeast Ecoregion with the lower values of all measured characteristics when compared with those from other ecoregions. Amathia vidovici was reported previously to localities in the states of Paraná, São Paulo, and Alagoas, and Amathia crispa was reported only to São Paulo
Billing, Ian Michael. „British carboniferous Bryozoan biogeography“. Thesis, Durham University, 1991. http://etheses.dur.ac.uk/6289/.
Der volle Inhalt der QuelleFiguerola, Balañá Blanca. „Biodiversity and Chemical ecology in Antarctic bryozoans = Biodiversitat i ecologia química de briozous antàrtics“. Doctoral thesis, Universitat de Barcelona, 2013. http://hdl.handle.net/10803/129165.
Der volle Inhalt der QuelleAquesta tesi cobreix dos aspectes importants i poc coneguts dels briozous antàrtics: la biodiversitat i l'ecologia química. L'anàlisi comparatiu de diversitat realitzat aquí (Capítol 1 i 2) entre l'Antàrtida i altres zones geogràficament properes recolzen la hipòtesi de la separació seqüencial de Gondwana. Es discuteix que l'elevat nombre d'espècies de la regió de la Patagònia argentina (PA) compartides amb l'Antàrtida qüestiona el grau real d'aïllament de l'Antàrtida en briozous queilostòmats. Els nostres estudis (Capítols 1 i 2) són també una de les primeres caracteritzacions de les comunitats de briozous, principalment del talús, de la regió de la PA, i de l' Oceà Austral, especialment el Mar de Weddell. Els nostres resultats remarquen la importància dels estudis taxonòmics en aquestes regions escassament explorades, incloent un gran nombre de nous gèneres i espècies, i noves cites. Entre les noves espècies trobades en el nostre estudi, es descriu un briozou del gènere Reteporella caracteritzat per una rara aviculària esfèrica i gegant, portant-nos a reconsiderar quines són les possibles funcions de l'aviculària (Capítol 3). Com les comunitats estudiades de briozous, per sota de les zones afectades per pertorbacions locals (erosió per icebergs), estan subjectes principalment a factors biòtics com la competència i la depredació, l'evolució ha afavorit el desenvolupament de mecanismes químics de protecció (Capítols 4 i 5). Els nostres estudis són dels primers en ecologia química de briozous antàrtics. Els nostres resultats demostren la importància de diversos mecanismes d'ecologia química contra la competència i la depredació en briozous antàrtics. La majoria de les espècies de briozous mostraven activitat citotòxica i/o repel•lent contra l'eriçó de mar Sterechinus neumayeri i l'amfípode Cheirimedon femoratus, respectivament (Capítol 4). En el capítol 5, totes les espècies de briozous estudiats mostraven activitat de repel•lència alimentària contra almenys un dels dos depredadors abundants considerats, l'estrella de mar Odontaster validus i l'amfípode Cheirimedon femoratus. La tendència general en el nostre estudi indica la possessió d'una combinació de mecanismes físics i químics en la majoria de les espècies, fet que suggereix estratègies complementàries.
McGurk, Charles. „Culture of malacosporeans (Myxozoa) and development of control strategies for proliferative kidney disease“. Thesis, University of Stirling, 2005. http://hdl.handle.net/1893/37.
Der volle Inhalt der QuelleHartikainen, Hanna-Leena. „Freshwater bryozoan abundence, eutrophication and salmonid fish disease“. Thesis, University of Reading, 2007. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.493801.
Der volle Inhalt der QuelleWard, Mark Andrew. „The ecology of subtidal encrusting bryozoans from three temperate water communities off the South of the Isle of Man“. Thesis, University of Liverpool, 1988. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.236435.
Der volle Inhalt der QuelleRobinson, Nicole. „INTERACTIONS BETWEEN THE NUDIBRANCH OKENIA ZOOBOTRYON AND ITS BRYOZOAN“. Master's thesis, University of Central Florida, 2004. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/3299.
Der volle Inhalt der QuelleM.S.
Department of Biology
Arts and Sciences
Biology
Hunter, Ewan. „Variation of growth and reproduction in a marine bryozoan“. Thesis, Bangor University, 1991. https://research.bangor.ac.uk/portal/en/theses/variation-of-growth-and-reproduction-in-a-marine-bryozoan(01c416d6-a1a4-496d-8ffc-ade56209de43).html.
Der volle Inhalt der QuellePagès, Escolà Marta. „New insights into the ecology and conservation of bryozoans: from global diversity patterns to the responses to anthropogenic stressors in the Mediterranean Sea = Noves aproximacions a l’ecologia i conservació dels briozous: des dels patrons globals de diversitat fins les respostes als impactes humans al Mar Mediterrani“. Doctoral thesis, Universitat de Barcelona, 2019. http://hdl.handle.net/10803/668538.
Der volle Inhalt der QuelleEls ecosistemes marins estan sotmesos a múltiples impactes a escales locals i globals i que a més interaccionen entre ells. Per aquesta raó, és important estudiar els patrons de biodiversitat i ecològics a través d’una aproximació multi-disciplinària, que pot anar des d’entendre els patrons de diversitat global fins a avaluar les respostes ecològiques de les espècies enfront diferents impactes, per així conservar i gestionar adequadament les comunitats marines. Fins aquest moment, la majoria d’estudis relacionat s’han centrat en grups carismàtics i populars, com ara les gorgònies, els coralls, les macroalgues o les fanerògames marines. En canvi, aquesta tesis es centra en l’estudi dels briozous, un grup abundant de invertebrats sèssils marins distribuïts per tot el món, però generalment poc estudiats. Per aquesta raó, el principal objectiu d’aquesta tesis és utilitzar diferents aproximacions per entendre els patrons de descobriment i macro-ecològics a escala global, i la resposta a diferents impactes a escala local, combinant el ús de bases de dades globals, el seguiment in situ de les poblacions, experiments en aquaris i el desenvolupament de tècniques de restauració. A més, la present tesis vol proporcionar un marc de treball per identificar, gestionar i conservar les poblacions vulnerables en el context de l’augment de les activitats humanes que afecten els ecosistemes marins. Els resultats presentats en aquesta tesis mostren la importància d’aplicar diferents aproximacions per entendre els patrons ecològics globals i locals de grups abundants però poc estudiats, com són els briozous. Els resultats obtinguts contribueixen a augmentar el coneixement dels patrons ecològics dels briozous a diferents escales, i mostren que cal més esforç per protegir les poblacions vulnerables. Així, mesures de gestió adaptativa i de restauració i són necessàries per promoure la conservació dels ecosistemes marins en un context de impactes creixents derivats de l’activitat humana tant a escales locals com globals.
Whitehead, John William. „Experimental ecology of epialgal bryozoans“. Thesis, Bangor University, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.285518.
Der volle Inhalt der QuelleHill, Samantha. „The ecology and conservation of the rare freshwater bryozoan, Lophopus crystallinus“. Thesis, University of Reading, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.434311.
Der volle Inhalt der QuellePrice, Heather Leigh. „Investigation of larval sensory systems in the marine bryozoan, Bugula neritina“. DigitalCommons@CalPoly, 2015. https://digitalcommons.calpoly.edu/theses/1410.
Der volle Inhalt der QuelleWaeschenbach, A. „Molecular evolutionary processes in ctenostome bryozoans“. Thesis, Swansea University, 2004. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.639319.
Der volle Inhalt der QuelleTompsett, Scott. „Taxonomy, morphometrics, and phylogeography of the cheilostome bryozoan genus Schizoporella in Europe“. Thesis, Aberystwyth University, 2010. http://hdl.handle.net/2160/fe2d54b9-b4c2-4bf2-bcea-e98d897d81f9.
Der volle Inhalt der QuelleManriquez, Patricio H. „Mate choice and reproductive investment in the cheilostome bryozoan Celleporella hyalina (L.)“. Thesis, Bangor University, 1999. https://research.bangor.ac.uk/portal/en/theses/mate-choice-and-reproductive-investment-in-the-cheilostome-bryozoan-celleporella-hyalina-l(213eab65-9c53-4769-869d-8fe403021006).html.
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