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Análise citogenética de espécies dos gêneros Osteocephalus e Trachycephalus (Anura, Hylidae) / Cytogenetic analysis of species of the genera Osteocephalus and Trachycephalus (Anura, Hylidae)Rodrigues, Maria Madalena, 1981- 27 August 2018 (has links)
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Previous issue date: 2015 / Resumo: Os anuros dos gêneros Osteocephalus e Trachycephalus pertencem à subfamília Hylinae e os estudos revelam variações morfológicas para os espécimes desses gêneros, sugerindo a existência de espécies não descritas no grupo e dificultando sua taxonomia. Embora existam vários estudos envolvendo a família Hylidae, análises citogenéticas que envolvam os gêneros Osteocephalus e Trachycephalus são escassas. No presente trabalho foram analisados 43 espécimes das espécies Osteocephalus taurinus, Osteocephalus cf. taurinus, Osteocephalus sp. (aff. taurinus), O. oophagus, Osteocephalus sp., T. typhonius e Trachycephalus sp., de diversas localidades do Brasil. Os cariótipos foram analisados por coloração com Giemsa, bandamendo C, impregnação por prata, DAPI e FISH com sondas de DNA satélite (PcP190), telomérica e de DNAr 28S. Todos os exemplares apresentaram 2n=24 cromossomos caracterizados como metacêntricos, submetacêntricos e subtelocêntricos. A região organizadora do nucléolo (NOR) foi localizada próxima ao centrômero no braço curto do par 10 em todos os Osteocephalus, exceto em Osteocephalus sp. que se encontra no braço longo do par 7, coincidentes com as constrições secundárias. Nos quatro espécimes fêmeas da população de O. cf. taurinus coletados em Laranjal do Jari/AP, foi observado um heteromorfismo na localização da NOR , no qual pode ter ocorrido uma inversão paracêntrica. Em Trachycephalus sp. e T. typhonius, a NOR foi detectada no telômero do braço longo do par 10. A distribuição de blocos heterocromáticos detectados por bandamento C variou entre as populações de Osteocephalus taurinus, contudo, foi observado uma banda constante nos pares 4, 10 e 12, e, adicionalmente, uma banda foi visualizada no braço curto do par 2 nas populações de Ferreira Gomes e Laranjal do Jari /AP. Na população de O. oophagus, o bandamento C foi semelhante a O. taurinus, O. cf. taurinus e O. sp. (aff. taurinus), entretanto uma banda adicional foi visualizada no braço curto do par 7. Em Osteocephalus sp. as bandas C foram detectadas nos pares 7, 8 e 12. Os experimentos de FISH com sonda do DNA satélite PcP190 mostraram sinal de hibridação na região terminal do par 12 de O. taurinus e O. oophagus, sinal mais fraco na região intersticial do braço longo do par 9 em O. oophagus e nas populações de Porto Velho/RO e de Pontes e Lacerda/MT de O. taurinus e na região terminal do braço curto do par 2 em Osteocephalus sp.. Em Trachycephalus sp. foi detectado sinal de hibridação na região pericentromérica do par 2 e em T. typhonius nenhum sinal foi visualizado. Os marcadores utilizados não diferenciaram os cariótipos de O. taurinus e O. oophagus, pois apresentaram cariótipos conservados, mas permitiram diferenciar Osteocephalus sp. das demais espécies analisadas, sugerindo que essa espécie deva ser caracterizada taxonomicamente. Nossos dados revelaram que a sonda de DNA satélite PcP190 pode ser um bom marcador para diferenciação cromossômica das espécies dos gêneros Osteocephalus e Trachycephalus / Abstract: The frogs of the genera Osteocephalus and Trachycephalus belong to the subfamily Hylinae present considerable morphological variation that suggests the existence of a number of as yet undescribed species, hampering taxonomic analyses. While a number of studies have focused on the Hylidae family, few cytogenetic data are available on Osteocephalus or Trachycephalus. In the present study, 43 specimens were examined, representing the species Osteocephalus taurinus, Osteocephalus cf. taurinus, Osteocephalus sp. (aff. taurinus), O. oophagus, Osteocephalus sp., T. typhonius, and Trachycephalus sp., from a variety of Brazilian localities. The karyotypes were analyzed using Giemsa staining, C banding, silver impregnation, and DAPI. Fluorescent in situ hybridization (FISH) was conducted using satellite DNA (PcP190) probes, and telomeric and DNAr 28S sequences. All the specimens presented 2n = 24 chromosomes, including metacentric, submetacentric, and subtelocentric types. The Nucleolus Organizing Region (NOR) was located near the centromere of the short arm in pair 10 in all Osteocephalus specimens, except those of Osteocephalus sp., in which the NOR was found on the long arm of pair 7, coinciding with the secondary constrictions. The location of the NOR in the four female O. cf. taurinus specimens from Laranjal do Jari, in the Brazilian state of Amapá, was heteromorphic, indicating the possible occurrence of a paracentric inversion. In Trachycephalus sp. and T. typhonius, NOR was detected in the telomere of the long arm of pair 10. The distribution of the blocks of heterochromatin detected by C banding varied among the different Osteocephalus taurinus populations, although bands were invariably found in pairs 4,10, and 12, with an additional band being observed in pair 2 in the populations from Ferreira Gomes and Laranjal do Jari, both in Amapá. In the O. oophagus population, the C banding was similar to that found in O. taurinus, O. cf. taurinus, and O. sp. (aff. taurinus), although an additional band was observed in pair 7. In Osteocephalus sp., C bands were detected in pairs 7, 8, and 12. The FISH experiments using the PcP190 satellite DNA probe identified a hybridization signal in the terminal region of pair 12 in O. taurinus and O. oophagus, a weaker signal in the interstitial region of the long arm of pair 9 in O. oophagus and in the O. taurinus populations from Porto Velho (Rondônia) and Pontes and Lacerda, in Mato Grosso, and in the terminal region of the short arm of pair 2 in Osteocephalus sp. A hybridization signal was detected in the pericentromeric region of pair 2 in Trachycephalus sp., while in T. typhonius, no signal was found. The markers used in the present study did not differentiate O. taurinus from O. oophagus, which have conserved karyotypes, but did distinguish Osteocephalus sp. from all the other species, indicating that it is a new taxon, which requires formal identification. Overall, the results supported the use of the PcP190 satellite DNA probe as a marker for the differentiation of the chromosomes of the species of the genera Osteocephalus and Trachycephalus / Mestrado / Biologia Celular / Mestra em Biologia Celular e Estrutural
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Estrutura populacional intraespecífica e diversidade genética de Osteocephalus taurinus (Anura: Hylidae) no interflúvio Purus-Madeira, Amazônia CentralYépez, Diego Armando Ortiz 23 May 2016 (has links)
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Previous issue date: 2016-05-23 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Fundação de Amparo à Pesquisa do Estado do Amazonas - FAPEAM / The Amazon rainforest is the most biodiverse biome in the world, where amphibians are one of the biological groups with the highest levels of cryptic diversity reported across taxa. Despite noticeable efforts, processes driving differentiation among populations and speciation remains largely unknown in this biome, especially based on dense sampling over refined scales. We studied the population structure and genetic diversity of the Manaus slender ledged tree frog, Osteocephalus taurinus, along a geographic gradient of approximately 900 km. Using molecular markers including mitochondrial and nuclear genes, and microsatellites, we estimate the phylogenetic relationships, population structure, and patterns of intraspecific genetic variation and geographic differentiation through the study area. Our data recovered six genetic groups: two corresponding to O. taurinus and O. oophagus from its type locality, Reserva Ducke, at northern of Amazonas River. The third group corresponds to an O. taurinus population isolated at right bank of upper Madeira River. However, evidence for restricted gene flow was detected along the upper Madeira River. Within Purus-Madeira interfluve, the remaining three O. taurinus populations replace each other latitudinally along geographical and environmental gradients, with two contact zones identified. One contact zone is concordant between mitochondrial and nuclear DNA and corresponds to an ecotone region between closed- open rainforests. Following the riverine barrier hypothesis, natural selection by means of genetic drift is expected to cause differentiation among populations by large Amazonian rivers as vicariant barriers. Within continuous forested regions, abrupt transitions on gene frequencies are suggestive of narrow contact or tension zones. In those areas, selection is expected to be favored by local adaptation to different environmental conditions, given selection against dispersing migrants from immediate but environmentally distinct regions and against hybrids. / A Amazônia é o bioma mais biodiverso da terra, e os anfíbios são um dos grupos com as maiores
taxas de diversidade críptica registradas nessa região. No entanto, os mecanismos causantes de
diferenciação entre populações e especiação mantem-se pouco conhecidos nesse bioma,
especialmente com base em amostragens densas em escalas refinadas. Estudei a estrutura
populacional e diversidade genética da rã hylídea Osteocephalus taurinus, ao longo de um
gradiente geográfico de aproximadamente 900 km na Amazônia central, Brasil. Usando
marcadores moleculares que incluíram DNA mitocondrial, nuclear e microssatélites, estudei as
relações filogenéticas, estrutura populacional, e padrões de variação genética intraespecífica e
diferenciação geográfica na área de estudo. Seis grupos genéticos foram recuperados pelas
análises: dois correspondem ao O. taurinus e O. oophagus de sua localidade tipo, Reserva
Ducke, ao norte do Rio Amazonas. O terceiro grupo corresponde a uma população de O.
taurinus isolada na margem direita do Rio Madeira superior. No entanto, evidência de fluxo
gênico restrito foi detectada no Rio Madeira superior. Dentro do interflúvio Purus-Madeira, as
três populações de O. taurinus substituíram-se ao longo de gradientes geográficos e ambientais,
com duas zonas de contato identificadas. Uma zona de contato é concordante entre o DNA
mitocondrial e nuclear, e corresponde a uma região no ecótono entre as florestas fechadas e
abertas. Segundo a hipótese de barreiras riverinas, espera-se que seleção natural causada por
deriva gênica cause diferenciação entre populações separadas por grandes rios Amazônicos
como barreiras vicariantes. Dentro de regiões contínuas de floresta, transições abruptas nas
frequências gênicas sugerem zonas estreitas de contato ou tensão ecológica. Nessas áreas,
espera-se que seleção seja favorecida por adaptação local às diferentes condições ambientais,
por meio de seleção contra migrantes de outras regiões imediatas, mas ambientalmente
distintas, e contra híbridos.
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Predation, Palatability and the Distribution of Tadpoles in the Amazon RainforestHero, Jean-Marc, n/a January 1991 (has links)
A variety of aquatic habitats with different levels of potential predators are available to larval amphibians in Central Amazon rainforest. The anuran community at Reserva Florestal Adolfo Ducke, 25 km east of Manaus, Amazonas, Brasil, was studied to determine which species have eggs and/or larvae in water and how those larvae are distributed in time and space. The temporal and spatial distribution of potential predators as well as abiotic characteristics of these waterbodies were determined simultaneously to test for correlations with the distribution of tadpoles. The distribution of tadpoles was strongly related to fish predation pressure. Several tadpole species were found only in waterbodies with high fish abundance and thus have the ability to survive with fish. Most of these tadpoles were found to be unpalatable in controlled experiments. Unpalatability is the major adaptation allowing the coexistence of tadpoles and fish and is thus a major factor affecting tadpole community composition in this system. Controlled experiments showed that fish do not eat anuran eggs while the tadpoles of Leptodacrylus knudseni and Osteocephalus taurinus ate all types of eggs offered. The percentage of anurans with aquatic oviposition was positively related to fish abundance and negatively related to the occurrence of species of tadpole that ate eggs in experiments. These findings suggest that the present patterns of anuran distribution represent an evolutionary response to predation on the eggs and larvae. Contrary to the models of Heyer et al. (1975) and Wilbur (1984), desiccation and predation-pressure were not the major factors affecting species richness within waterbodies of the RFAD rainforest. In support of the model of Heyer et al. (1975), anuran species richness was correlated with the size of the waterbody. This could be because the size of the waterbody is related to increased complexity and availability of microhabitats. The range of volumes of waterbodies was also found to directly affect species richness of the RFAD community. While predation appeared to have a limited effect on species richness of individual ponds, predation-pressure was found to have a major influence on species composition. Anuran eggs and larvae survived with specific predators by possessing particular survival-traits (e.g. unpalatability and oviposition strategies). However, survival-traits were not effective against all predators in all habitats. The distribution of different predators among ponds provides a patchy environment on a local scale (i.e. within ponds). When combined with the variety of survival-traits exhibited by the anuran species, this spatial patchiness in predation contributes towards species richness within the anuran community of the RFAD rainforest.
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Variação geográfica de Osteocephalus taurinus Steindachner, 1862 (Amphibia : Anura : Hylidae)ESTUPIÑÁN-TRISTANCHO, Ruth Amanda 06 1900 (has links)
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Previous issue date: 2001 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / MPEG - Museu Paraense Emílio Goeldi / Osteocephalus taurinus é uma espécie nominal de ampla distribuição na Amazônia e nos llanos do Orinoco. Sua grande variação morfológica indica que se trata de um complexo de espécies. O presente estudo examina a variação geográfica de vários caracteres morfológicos e morfométricos da espécie nominal, avalia a hipótese de tratar-se de fato um complexo de espécies; e testa a teoria da atual distribuição das formas, através de padrões biogeográficos, ecológicos e de regímen de precipitação já definidos. A partir de 431 espécimes estudados foram selecionadas 16 populações, nas quais foram analisados 20 caracteres anatômicos internos, 14 caracteres morfométricos e seis caracteres morfológicos externos. Através de análises estatística e mapas de isolinhas evidenciou-se que O. taurinus não se trata de um complexo de espécies e sim possui uma grande variação intra e interpopulacional das caraterísticas morfométricas e morfológicas. Simultaneamente, foram observados caracteres anatômicos internos polimórficos. O primeiro componente obtido através de uma análise de componentes principais mostra uma variação clinal do tamanho corporal ao longo da distribuição geográfica total, mais evidente nos machos. Em outros caracteres analisados, a variação fico independente do cline. O padrão espacial do tamanho indicou que as formas maiores ocorrem nas terras baixas da Amazônia, onde a vegetação de floresta ombrofila divide as áreas de cerrado ao norte e ao sul do continente sul americano. Nestas últimas áreas, ocorrem com maior intensidade as formas menores. Esta distribuição espacial não se explicou através das divisões propostas por outros autores para Amazônia, o que pode ser devido a um mascaramento gerado pela grande variação intrapopulacional. O modelo espacial do tamanho corporal de O. taurinus não corresponde a um padrão de isolamento por distância, o que pode sugerir que a colonização da espécie em algumas áreas seja recente. Este estudo confirma a hipótese da origem do gênero no início do Plioceno, o que indica que O. taurinus teria tido tempo suficiente para se dispersar antes do surgimento dos Andes como barreira geográfica. / Osteocephalus taurinus is an Amazonian and Orinochian nominal species with a wide geographic distribution. Its great morphologic variation has suggested that O. taurinus is in fact a species complex. This study examines the geographic variation of morphometric and morphologic characters. The species complex hypothesis is tested. Simultaneously, in order to explain the present body form distribution by biogeographic, rainfall and ecological patterns previously established for Amazonia, these patterns were assessed. From total 431 specimens studied, 16 populations were selected for analysis 20 of inner anatomic structures, 14 morphometric and 6 morphologic external characteres. Statistical analyses and isoline maps indicated that O. taurinus not is a especies complex and exist a interpopulation and intrapopulation variation on the morphometry and morphology of O. taurinus. Polymorphic anatomical characters ocurrs in this species. The first axis of a principal component analysis showed a clinal variation of body size along the entire geographic distribution was most plainly evident in males. Clinal variaton in other characters studied was independent of cline. Spatial size distribution indicated the largest specimens occur in the Amazon lands low, where rainforest vegetation divides savanna areas to the north and south of South America. These two last areas more often presented the smaller forms. In this study, the distribution observed for O. taurinus was not explained by traditional divisions of Amazonia, and suggest some noise generated by high intrapopulational variation. This spatial model of O. taurhius body size did not show a pattern of isolation by distance, which may suggest a recent arca colonization by this species. Simultaneusly, the study confirms the early Pliocenic origin hypothesis for Osteocephalus, which allowed O. taurinus had time to disperse before the Andes emerged as a geographical barrier.
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