Delimitação de espécies em Rhinebothroides Mayes, Brooks & Thorson, 1981 (Cestoda: Tetraphyllidea) com ênfase no complexo Rhinebothroides freitasi (Rego, 1979) / Species delimitation in Rhinebothroides Mayes, Brooks & Thorson, 1981 (Cestoda: Tetraphyllidea) with emphasis on the Rhinebothroides freitasi (Rego, 1979) complex

Bueno, Verônica Mantovani

20 May 2010

Membros do gênero Rhinebothroides são parasitas exclusivos de potamotrigonídeos, elasmobrânquios de água doce endêmicos da região Neotropical. Atualmente, seis espécies são reconhecidas para este gênero dentre as oito espécies nominais disponíveis. A taxonomia de Rhinebothroides é convoluta, pois a maioria de suas espécies são diagnosticadas por caracteres morfométricos e merísticos definidos por estudos que desconsideram a variabilidade intraespecífica destas linhagens. A ampla distribuição de algumas espécies, bem como seus padrões generalistas de especificidade padrão este discrepante em relação à tetrafilídeos marinhos sugere a existência de complexos de espécies que requerem melhor refinamento taxonômico. Este estudo visa refinar a taxonomia de um destes complexos Rhinebothroides freitasi, no qual estão inseridas outras 3 especies nominais (R. campbelli, R. circularisi, R. venezuelensis) cujas circunscrições são ambíguas. Neste estudo, partiuse da premissa de que a conjunção de dados moleculares e morfológicos pode elucidar a taxonomia deste complexo. Com este objetivo, dados moleculares para os genes 28S, ITS1 e COI foram compilados para 57 haplótipos de Rhinebothroides representando todas as espécies válidas para o gênero e a ampla distribuição biogeográfica no gênero nas bacias hidrográficas brasileiras. A otimização direta das sequências nucleotídicas destes haplótipos concatenadas com outros 26 terminais que incluem linhagens de tetrafilídeos marinhos e de água doce, resultou em cinco clados de Rhinebothroides que possuem morfologia congruente com a série tipo de cinco espécies nominais. Desta forma, este estudo reconhece cinco espécies de Rhinebothroides como válidas: R. glandularis, R. freitasi, R. moralarai, R. scorzai e R. venezuelensis. Dentre as espécies do complexo R. freitasi, os dados morfológicos compilados para ~ 400 indivíduos permitiu delimitar os níveis de variabilidade morfológica de R. freitasi e R. venezuelensis. A representatividade biogeográfica e de hospedeiros contemplada neste estudo revela que, ao contrário das linhagens de tetrafilídeos marinhos, membros de Rhinebothroides possuem baixa especificidade aos seus hospedeiros. / Members of Rhinebothroides are parasites of the Neotropical freshwater stingrays of the family Potamotrygonidae. To date, six species are recognized for the genus within which there are eight nominal species available. The taxonomy of Rhinebothroides is confusing, since most of its species are currently diagnosed by morphometric and meristic characters that have been defined by studies that disregarded the intraspecific variability of its lineages. The widespread distribution of some species, as well as their relaxed host specificity pattern which differs from what has been documented for marine tetraphyllideans suggests the existence of species complexes that require taxonomic refinement. This study aims at refining the taxonomy of one of these complexes Rhinebothroides freitasi, in which are included other three nominal species (R. campbelli, R. circularisi, R. venezuelensis) circumscribed ambiguously. In this study, it has been assumed that the combination of molecular and morphological data can shed some light on the taxonomic status of this complex. Within this framework, molecular data were compiled for 28S, ITS1, and COI for 57 haplotypes of Rhinebothroides representing all currently valid species within the genus and their biogeographical distribution along the major Brazilian river basins. The direct optimization of nucleotide sequences from these haplotypes, simultaneously analised with 26 terminals which included marine and freshwater lineages of tetraphyllideans, generated a phylogenetic hypothesis that recognized five major clades within Rhinebothroides. Each of these clades are morphologically congruent with the type series of five nominal species. Therefore, this study recognizes five valid species within Rhinebothroides: R. glandularis, R. freitasi, R. moralarai, R. scorzai, and R. venezuelensis. Within the R. freitasi complex, the compiled morphological data for ~ 400 specimens provided a robust assessment of intraspecific variability for R. freitasi and R. venezuelensis. The biogeographic and host extensive sampling available for this study reveals that members of Rhinebothroides show low host specificity, as opposed to the marine tetraphyllidean lineages.

Helminthology

Helmintologia

Molecular Systematics

Neotropical

Neotropical

Parasitologia

Parasitology

Sistemática Molecular

Taxonomia

Taxonomy

Diferenciação molecular e variação morfológica em lagartos da tribo Iphisini (Squamata, Gymnophthalmidae) / Molecular differentiation and morphological variation in lizards of the tribe Iphisini (Squamata, Gymnophthalmidae)

Recoder, Renato Sousa

13 February 2017

A delimitação de espécies é essencial para a caracterização e conservação da biodiversidade. No entanto, representa um desafio para grupos onde há pouca variação em morfologia, como no caso dos lagartos Iphisini. São conhecidas oito espécies pertencentes a seis gêneros na tribo, com base em análises moleculares e de anatomia hemipeniana foram detectadas quatro espécies candidatas para Iphisa. A tribo filogeneticamente aparentada Gymnophthalmini apresenta maior riqueza de espécies e diversidade morfológica, principalmente em espécies com adaptações para a vida fossorial. No entanto, ainda se conhece pouco sobre os mecanismos históricos e ecológicos que causam distintos padrões de especiação, apesar de historicamente o papel de isolamento geográfico ter sido enfatizado para a biota Neotropical. Em tempos recentes, foram desenvolvidos métodos quantitativos para abordar questões evolutivas como probabilidades de especiação, variações em taxas de diversificação e reconstrução de demografia histórica de populações e migração. Implementei neste estudo uma combinação de métodos quantitativos com uso de dados moleculares, morfológicos e ambientais para testar as hipóteses que: há diversidade não reconhecida em Iphisini; as diferenças em riqueza e disparidade morfológica entre Iphisini e outras tribos de Gymnophthalminae se deve a diferenças em tempo e modo de diversificação, e que a diversificação em Acratosaura ocorreu por isolamento geográfico causado por flutuações paleoclimáticas. Com base em análises moleculares, foram delimitadas quatro espécies candidatas para Iphisini, aumentando em 33% a diversidade conhecida para a tribo. Não houve variação entre as espécies candidatas de Acratosaura em morfometria. A filogenia estimada para Gymnophthalminae apresentou alto suporte para a relação entre Iphisini e Heterodactylini, e demonstra um tempo de diversificação e riqueza neste clado similar a Gymnophthalmini. As tribos apresentaram padrões de diversificação semelhantes, mas taxas distintas. Os padrões de evolução morfológica foram congruentes com a diversificação em Gymnophthalmini, porém distintas em Heterodactylini sensu lato, indicando que disparidade independe de diversificação. As análises filogeográficas indicam que as populações de Acratosaura apresentaram estabilidade demográfica e espacial ao longo do tempo, com evidências de fluxo gênico entre linhagens diferenciadas. Desta forma, os resultados sugerem que Acratosaura diversificou sem influência de variações históricas no clima, e provavelmente sem isolamento reprodutivo completo / Species delimitation is essential for characterization and conservation of biodiversity. Nevertheless, it represents a challenge for groups in which morphological variation is subtle, such as the microteiid lizards of the tribe Iphisini. Eight species from six genera are currently recognized in the tribe but recently, based on molecular analysis and hemipenial anatomy, four candidate species were inferred for Iphisa. The phylogenetically related tribe Gymnophthalmini presents higher species richness and morphological diversity, specially in forms with adaptations to fossoriality. Nevertheless, the historical and ecological mechanisms involved in the distinct speciation patterns are poorly known, although geographical isolation have been historically emphasized for neotropical biota. In recent times, quantitative methods were developed to address evolutionary questions such as speciation probabilities, variation in diversification rates and reconstruction of historical demography of populations and migration. In this study I used a combination of quantitative methods based on molecular, morphological and environmental data for testing the hypothesis that: there is unrecognized diversity within Iphisini; differences in species richness and disparity among Iphisini and related tribes are congruent with differences in time and mode of diversification; and that diversification in Acratosaura occurred with geographical isolation caused by paleoclimatic fluctuations. Based on the results of molecular analyses, four candidate species were delimited for Iphisini, rising in 33% the tribe diversity. There was no significant variation in morphometry between candidate species of Acratosaura. The phylogeny of Gymnophthalminae presented high support for the relationship between Iphisini and Heterodactylini, and showed diversification timming and species richness comparable between this clade and Gymnophthalmini. The tribes presented similar diversification patterns but distinct rates. The patterns of morphological evolution were congruent with diversification patterns in Gymnophthalmini but distinct in Heterodactylini sensu lato, indicating that disparity is independent from diversification in the group. The phylogeographic analyses indicate that populations of Acratosaura presented demographic and spatial stability through time, with evidences of gene flow among lineages after differentiation. Thus, the results suggest that diversification of Acratosaura was not influenced by variations in historical climate, and probably occurred without complete reproductive isolation

Especiação

Filogeografia

Macroevolução

Macroevolution

Microteídeos

Microteiids

Molecular Systematics

Phylogeography

Sistemática Molecular

Speciation

Análises filogenéticas e filogeográficas do complexo de espécies Hypostomus ancistroides (Siluriformes: Loricariidae) / Phylogenetic and phylogeographic analysis of the Hypostomus ancistroides (Siluriformes: Loricariidae) species complex

Carvalho, Pedro Hollanda

28 June 2011

O gênero Hypostomus (Siluriformes: Loricariidae) com cerca de 130 espécies nominais, se destaca como um dos mais diversos e amplamente distribuídos gêneros de peixes de água doce neotropical. Devido a sua ampla distribuição e alta diversidade, os conhecimentos taxonômicos, filogenéticos e biogeográficos para as espécies do gênero são ainda consideravelmente incompletos. Consequentemente, pouco se sabe sobre processos naturais envolvidos em diversificação e variação morfológica para o gênero. Hypostomus ancistroides é uma espécie descrita para a bacia do Alto Paraná, uma eco-região hidrográfica tradicionalmente reconhecida por seu endemismo ictiofaunístico, ocorrendo também na bacia costeira do rio Ribeira de Iguape. Esta espécie apresenta considerável variação morfológica, cariotípica e isoenzimática em suas diferentes populações, sugerindo a existência de um complexo de espécies. Sua ampla área de distribuição, somada aos novos conhecimentos sobre padrões biogeográficos para diversas espécies de peixes do Alto Paraná, reforça essa possibilidade. Entretanto, a variação encontrada na morfologia das populações de H. ancistroides é ampla e contínua, impedindo que se defina diferentes espécies através das abordagens taxonômicas clássicas em ictiologia. Assim, este trabalho se propõe a utilizar ferramentas da sistemática molecular, genética de populações e filogeografia para responder questões fundamentais sobre a evolução desse potencial complexo de espécies. Sequências nucleotídicas completas do marcador mitocondrial ATP sintase (subunidades 6 e 8; 842 pb) foram obtidas para diversas espécies de Hypostomus, incluindo 162 exemplares de H. ancistroides provenientes de doze localidades abrangendo toda a sua área de ocorrência, além de outros gêneros da família Loricariidae, utilizados como grupos externos. Análises filogenéticas de Máxima Verossimilhança, Máxima Parcimônia e Neighbor Joining resultaram em topologias essencialmente semelhantes, sustentando a monofiletismo da espécie, e apontando como seus parentes mais próximos espécies de bacias hidrográficas adjacentes ao Alto Paraná. Esses resultados mostram ainda a existência de quatro filogrupos distintos para a espécie, com áreas de distribuição parcialmente sobrepostas. Análises populacionais e filogeográficas incluiram comparação de distância genética P, estruturação populacional baseada em distribuição de haplótipos e índices de diversidade, testes de neutralidade, índice de fixação FST, análise de variância molecular (AMOVA), análise espacial de variância molecular (SAMOVA), construção de rede haplotípica de parcimônia, e análise de clados hierarquizados (NCPA). Os resultados mostram 48 haplótipos repartidos em doze populações bem estruturadas, com baixo ou nenhum fluxo gênico entre si. Eventos de expansão geográfica podem ser identificados ao longo da história demográfica, sugerindo que a estruturação encontrada atualmente reflete não só as características ecológicas da espécie, como também uma história de mudanças nas condições ambientais, eventualmente favoráveis a migração e dispersão. Contatos entre populações de diferentes bacias podem ser mais frequentes através de capturas de cabeceiras do que ao longo do corpo dos rios principais. A hipótese mais plausível para a presença da espécie na bacia do Ribeira é a de uma captura de cabeceira do alto rio Tietê. Apesar de ser formado por quatro filogrupos distintos, algumas linhagens derivadas de H. ancistroides apresentam sobreposição de suas áreas de distribuição. Esse contato secundário revelado apenas por um marcador de herança matrilineal impossibilita a delimitação de diferentes espécies correspondentes aos filogrupos, sob os paradigmas clássicos de especiação em peixes neotropicais. / The genus Hypostomus (Siluriformes: Loricariidae), comprising ca. 130 nominal species, is one of the most species-rich and widely distributed genera of neotropical freshwater fish. Because of its wide distribution and vast diversity, knowledge on the taxonomy, phylogenetic relationships and biogeography of Hypostomus is still severely incomplete. Consequently, little is known about the processes involved in the diversification and morphological variation for the genus. Hypostomus ancistroides is a species described from the upper Rio Paraná drainage, a freshwater ecoregion known for its ichthyological endemism, also occurring in the coastal basin of Rio Ribeira de Iguape. This species shows considerable morphological, karyotypic and isoenzimatic variation among different populations, suggesting the existence of a species complex. Its wide distribution area, coupled with recent understanding on biogeographic patterns of several fish species from the Upper Parana, reinforces that possibility. However, morphological variation in populations of H. ancistroides is wide and continuous, and does not allow recognition of potential different species by means of traditional taxonomic approaches. Thus, this paper uses tools from molecular systematics, population genetics, and phylogeography in order to answer major questions about the evolution of this potential species complex. Complete sequences of the mitochondrial marker ATP synthase (subunits 6 and 8; 842 bp) were obtained for several species of Hypostomus, including 162 specimens of H. ancistroides from twelve localities covering its entire area of distribution, plus other loricariid genera as outgroups. Phylogenetic analysis using methods of Maximum Likelihood, Maximum Parsimony, Neighbor Joining and Bayesian Inference resulted in mostly similar topologies, supporting the monophyly of the species, and showing as its closest relatives other species from river basins bordering the Upper Parana. Results also reveal four distinct phylogroups for the species, with partially overlapping distribution areas. Population and phylogeographic analysis included comparisons of genetic distance P, population structure based on the haplotype distribution and diversity indices, neutrality tests, fixation index FST, analysis of molecular variance (AMOVA), spatial analysis of molecular variance (SAMOVA), construction of a parsimony haplotype network, and nested clade phylogeographical analysis (NCPA). Results show 48 haplotypes distributed into twelve well-structured populations with little or no gene flow. Geographic range expansion events can be identified along the demographic history of H. ancistroides, suggesting that the structure found today reflects not only the ecology of the species, but also a history of changing environmental conditions that on occasion weree favorable for migration and dispersal. Contact between populations from differente basins may be more intense through headwater stream capture than through the river channel. The most supported hypothesis for the presence of the species in the Rio Ribeira basin is a headwater capture from the upper Rio Tiete. Although H. ancistroides is split into four distinct phylogroups, some derived lineages of the species have overlapping distribution ranges. Such secondary contact is revealed only by a matrilineal inheritance marker and does not allow the recognition of separate species for the different phylogroups under the current paradigm of speciation and species limits in Neotropical fishes.

ATP sintase

ATP synthase

Filogeografia

Hypostomus

Hypostomus

Hypostomus ancistroides

Hypostomus ancistroides

Molecular systematics

Phylogeography

Sistemática molecular

Diversification Of Muroid Rodents Driven By The Late Miocene Global Cooling

Pradhan, Nelish

01 January 2018

Late Miocene, 8 to 6 million years ago (Ma), climatic changes brought about dramatic floral and faunal changes. Cooler and drier climates that prevailed in the Late Miocene led to expansion of grasslands and retreat of forests at a global scale. Palaeogeographic studies suggest a global vegetation change causing an abrupt increase in C4 plant biomass while C3 biomass decreased between 8 and 6 Ma. Subsequent cycles of cooler and drier climatic conditions during the Mid-Pliocene (3.5–3 Ma) and Pleistocene (2.8–2.5; 1.8–1.6; 1.0–0.8 Ma) also caused forests to retreat into isolated refugia which played an important role in events that led speciation and radiation of Muroid (Order Rodentia, Superfamily Muroidea) rodents. Muroid rodents are comprised of 6 families (Placanthomyidae, Spalacidae, Calomyscidae, Nesomyidae, Cricetidae, and Muridae) and make up close to one-third of named mammal species. Family Cricetidae and Muridae are especially speciose (containing ~1600 species altogether) and much of the diversity within these families arose during or after the Late Miocene. My dissertation deals with the systematics and historical biogeography of these fast-evolving groups of rodents with an emphasis on the genera Apodemus and Hybomys (Subfamily Murinae, Family Muridae), and Neodon (Subfamily Arvicolinae, Family Cricetidae). Habitat specialists such as Apodemus that occupy broadleaf forests, and Hybomys that occupy rainforests were likely isolated in forest refugia after the retreat of forests facilitating allopatric speciation. While voles in the subfamily Arvicolinae, that are associated with grasslands, expanded their range when forests retreated and speciated when grasslands retreated. In addition, field work carried out for this project in Nepal included several localities previously not sampled for small mammals. Most of Nepal is poorly surveyed and the first chapter focuses on the history of mammalogical surveys in Nepal and adds new localities for small mammal species, expanding the known range of the Nepalese endemic Himalayan wood mouse (Apodemus gurkha).

Apodemus

Historical Biogeography

Hybomys

Molecular Systematics

Muroid Rodents

Neodon

Evolution

Zoology

Phylogenetic systematics and taxonomic review of the snakes of the tribe Philodryadini Cope, 1886 (Dipsadidae: Xenodontinae) / Sistemática filogenética e revisão taxonômica das serpentes da tribo Philodryadini Cope, 1886 (Dipsadidae: Xenodontinae)

Salgar, Juan Camilo Arredondo

01 July 2019

The tribe Philodryadini is constituted by a rich group of neotropical snakes that are highly diverse ecologically and morphologically. Currently, 24 species compose the tribe, and are recognized as common components of the ophidian diversity in several regions of South America. The species of Philodryadini exhibit two great geographical distribution patterns, with most species occurring in the lowlands of the cis-Andean region of the American continent, while another not so diverse group is distributed in the trans-Andean region of the central and southern Andes, in Ecuador, Peru and Chile. The richness of the tribe and its evolutionary relationships has varied greatly in recent years, mainly due to the recent formulation of diverse phylogenetic hypotheses based on molecular evidence. In the same way, in recent years many taxonomic complexes have been studied and the taxonomic status of several species has been clarified. However, many questions about the status of some complexes and phylogenetic relationships within the tribe are still unknown. To understand the evolutionary relationships between Philodryadini and the other Xenodontinae tribes we performed a phylogenetic analysis including molecular evidence of a representative sample of all tribes of the subfamily. Simultaneously, we evaluated the relationships within Philodryadini using DNA sequences from the vast majority of the species of the tribe described so far. Likewise, we performed a taxonomic revision of the tribe species, using a combination of morphological and molecular evidence. Our phylogenetic analyzes revealed that the tribe Philodryadini is a non-monophyletic group, and is currently composed of two different lineages of unrelated xenodontine snakes. To provide a phylogenetic structure that reflected the relations of the tribes in the interior of the subfamily, we erected a new tribe and a new genus to accommodate the group of species that constituted a completely different radiation of xenodontine snakes from the Andes. Within Philodryadini (sensu stricto), we recognize a particular pattern of diversification, with a first clade, composed of two groups , closely related to the clade that contains the type species of Philodryadini. To best represent the pattern of evolutionary diversification within the tribe, we restructured its generic composition by resurrecting the genera Chlorosoma and Xenoxybelis. Additionally, with our taxonomic revision we resolve the taxonomic status of three species complexes and recognize four taxa previously located in the synonymy of Philodryas. With our study, the relationships within Philodryadini are now better understood and their diversity is currently consisted of three genera and 24 species. / A tribo Philodryadini é composta por um rico grupo de serpentes neotropicais altamente diversas ecológica e morfologicamente. Na atualidade, 24 espécies fazem parte da tribo, sendo amplamente reconhecidas como um dos componentes comuns da diversidade de ofídio-fauna de América do Sul. As espécies que fazem parte de Philodryadini apresentam dois grandes padrões de distribuição geográfica, sendo que a grande maioria das espécies ocorrem nas terras baixas da região cis-Andina do continente americano, enquanto que um outro grupo não tão diverso distribui-se na região trans-Andina dos Andes centrais e do Sul, no Equador, Peru e Chile. O conhecimento da diversidade da tribo e das suas relações evolutivas tem variado muito nos últimos anos, principalmente pela recente formulação de diversas hipóteses filogenéticas baseadas em evidência de biologia molecular. Do mesmo jeito, muitos complexos taxonômicos têm sido abordados recentemente e o status taxonômico de várias espécies esclarecido. No entanto, ainda se desconhecem muitas questões sobre o status de alguns complexos e as relações filogenéticas do interior da tribo. Para entender as relações evolutivas entre Philodryadini e as demais tribos de Xenodontinae realizamos uma análise filogenética incluindo evidência molecular de uma amostra representativa de todas as tribos da subfamília. Simultaneamente, avaliamos as relações ao interior de Philodryadini empregando sequências de ADN da grande maioria das espécies da tribo descritas até o momento. De igual forma, realizamos uma revisão taxonômica das espécies da tribo, empregando uma combinação de variáveis morfológicas e moleculares. As nossas análises filogenéticas mostraram que a tribo Philodryadini é um grupo não monofilético, estando na atualidade composto por duas linhagens diferentes de serpentes xenodontineas não relacionadas. Para fornecer uma estrutura filogenética que refletisse as relações das tribos no interior da subfamília, erigimos uma nova tribo e um gênero novo para acomodar o grupo de espécies que constituem uma radiação completamente diferente de serpentes xenodontineas dos Andes. Já no interior de Philodryadini (sensu stricto), reconhecemos um padrão de diversificação particular, com um primeiro clado, composto por dois grupos (as cobras cipó e as cobras de focinho afiado da Amazônia), estreitamente relacionado com o clado que contem a espécie tipo de Philodryadini. Pra melhor representar o padrão de diversificação evolutivo no interior da tribo, reestruturamos a sua composição genérica ao ressuscitar os gêneros Chlorosoma e Xenoxybelis. Adicionalmente, com a nossa revisão taxonômica reconhecemos o status taxonômico de três complexos de espécies e reconhecemos a validade de quatro táxons previamente localizadas na sinonímia de Philodryas. Com o nosso estudo, as relações no interior da tribo Philodryadini ficaram melhor resolvidas e a sua diversidade ficou constituída por três gêneros e 24 espécies.

Complexo de Especies

Hemipenes

Hemipenis

Molecular Systematics

Morfologia

Morphology

Philodryas

Philodryas

Sistemática Molecular

Species Complex

Molecular systematics and conservation genetics of gliding petaurids (Marsupialia: petauridae).

Malekian, Mansoureh

January 2007

The gliding petaurids are small sized arboreal and nocturnal marsupials restricted to Australia and the New Guinean region. They have suffered range contractions since European settlement, and most of the species are of conservation concern, either nationally or at a state level. This study applied molecular approaches to investigate several questions involving Petaurus species which may provide valuable insights for their conservation and management of species. The objectives of this study included an examination of phylogenetic and evolutionary relationships among Petaurus species, an assessment of phylogeographic structure within P. breviceps and an investigation of genetic diversity, social structure and mating system of P. breviceps in fragmented habitats. A broad molecular systematics study of the genus Petaurus was first undertaken. Two mitochondrial genes (ND2 and ND4) and a nuclear gene marker (ω-globin) were screened for sequence variation in samples obtained from across the distribution of petaurid species, including Australia, New Guinea and its surrounding islands. Phylogenetic analyses confirmed the monophyly of the genus Petaurus and revealed that, with the exception of P. gracilis, the currently recognised species were associated with divergent mtDNA clades. It also revealed considerable mtDNA diversity within the widely distributed species P. breviceps. The existence of at least seven distinct and divergent mtDNA lineages within P. breviceps was supported, with two lineages located in Australia and at least five lineages in New Guinea. However, the distribution of these evolutionary lineages did not correspond with current morphological subspecies boundaries. Analyses of ω-globin sequence provided support for a number of these distinct populations, suggesting the possible presence of cryptic species within P. breviceps. Molecular analyses also suggested that squirrel gliders, P. norfolcensis, may occur in both South Australia and the Northern Territory, extending the current known range of the species. The presence of P. norfolcensis in SA was further verified by examining museum skins. Population structure and current pattern of gene flow within P. breviceps in Australia was examined further to elucidate phylogeographic structure within the species, and explore potential causes of geographic variation. Evidence for significant phylogeographic structuring across the range of the species in Australia was provided from population genetic (AMOVA) and phylogenetic analyses of both mitochondrial DNA and the ω-globin gene. In particular, there was evidence for the existence of two divergent clades that were distributed over distinct geographical regions. Divergence dates calculated for the two major mtDNA clades suggested that environment and climate changes which occurred during the Pliocene may have facilitated this diversification. Habitat fragmentation is generally considered to be a major factor threatening the viability of forest dependent species such as gliders. Effects of habitat fragmentation were therefore investigated in P. breviceps in the highly disturbed landscape of southeastern South Australia. Genetic mating system and social structure of the species in these fragmented habitats was explored in 13 populations, using nine polymorphic microsatellite loci. Social groups consisted of two to seven gliders, and these were often close relatives, including parents with their offspring. Parentage analyses provided some evidence for a polygamous mating system, with a number of males found to have fathered offspring from multiple female partners. Some direct evidence of inbreeding was also found within a small isolated patch. Genetic diversity within P. breviceps populations was moderate compared to the range reported in other marsupial species. Population structure analyses indicated that gene flow between some patches was restricted. Small patches surrounded by a matrix of pine were more likely to show inbreeding and potentially suffer from inbreeding depression, although further data are required to verify this result. Overall, results suggest that, although the species is still present in these small and isolated patches, it may face threats from a lack of dispersal and inbreeding. Maintaining the size of patches and establishing corridors between isolated populations needs to be considered in conservation and management of species in these fragmented habitats. / http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1295224 / Thesis (Ph.D.) -- School of Earth and Enviromental Sciences, 2007

Marsupials Australia.

Molecular systematics and biogeography of the Holarctic smelt family Osmeridae (Pisces)

Ilves, Katriina Larissa

05 1900

Biogeographers have long searched for common processes responsible for driving diversification in the Holarctic region. Although terrestrial flora and fauna have been well studied, much of the marine biogeographic work addresses patterns and processes occurring over a relatively recent timescale. A prerequisite to comparative biogeographic analysis requires well-resolved phylogenies of similarly distributed taxa that diverged over a similar timeframe. The overall aim of my Ph.D. thesis was to address fundamental questions in the systematics and biogeography of a family of Holarctic fish (Osmeridae) and place these results in a broad comparative biogeographic framework. With eight conflicting morphological hypotheses, the northern hemisphere smelts have long been the subjects of systematic disagreement. In addition to the uncertainty in the interrelationships within this family, the relationship of the Osmeridae to several other families remains unclear. Using DNA sequence data from three mitochondrial and three nuclear genes from multiple individuals per species, I reconstructed the phylogenetic relationships among the 6 genera and 15 osmerid species. Phylogenetic reconstruction and divergence dating yielded a well-resolved phylogeny of the osmerid genera and revealed several interesting evolutionary patterns within the family: (1) Hypomesus chishimaensis and H. nipponensis individuals are not reciprocally monophyletic, suggesting that they are conspecific and H. chishimaensis is a recently evolved freshwater ecotype that invaded the Kuril Islands following the last glaciation, (2) The trans-Pacific sister relationships in Hypomesus based on lateral line scale counts are not supported, implying that this phenotype evolved in parallel on each side of the North Pacific Ocean, (3) The Plecoglossidae are the Osmeridae sister group, (4) Over half of the characters from previous studies show evidence of parallel evolution; however, 27 traits reflect ancestral relationships, (5) Multiple divergences within the Osmeridae date to both the mid-Miocene cooling period and the Pliocene Bering Seaway opening, suggesting these events were important in the evolution of these fishes, and (6) Divergences in many marine taxa for which dated phylogenies are available are also correlated with these time periods. Future research should target additional Holarctic marine taxa for further comparative analysis.

molecular systematics

comparative biogeography

Osmeridae

smelt

mitochondrial DNA

nuclear DNA

phylogenetics

biogeographic reconstruction

Holarctic

trans-Pacific

TAXONOMIC AND MOLECULAR STUDIES IN CLERIDAE AND HEMIPTERA

Leavengood, John Moeller, Jr.

01 January 2015

Taxonomic changes are made based on checkered beetle (Coleoptera: Cleridae) types of the Natural History Museum, London (BMNH).Lectotypes are designated (and holotypes and paralectotypes recognized) for 44 species of Hydnocerinae, including the type species for Isolemidia, Parmius, Paupris, Allelidea, Blaesiopthalmus and Lemidia, four species of Enoclerus (Clerinae), and 14 species of Cymatodera (Tillinae). Annotations include comments on additional type material, new type locality, previous (type series) locality, and questionable or missing types. Phyllobaenus pallipes(Gorham) and P. rufithorax (Gorham) are synonymized with P. flavifemoratus(Gorham), P. chapini (Wolcott) is synonymized under P. lateralis (Gorham), and P. villosus (Schenkling) is synonymized under P. longus (LeConte), new synonymies. The first molecular phylogeny of the clerid lineage (Coleoptera: Cleridae, Thanerocleridae) is presented and compared with the two most recent phylogenetic hypotheses of the group. Phylogenetic relationships of checkered beetles wareere inferred from approximately 5,000 nucleotides amplified from four loci (28S, 16S, 12S, COI). A worldwide sample of ~70 genera is included and phylogenies are reconstructed using Bayesian Inference and Maximum Likelihood. The results are not entirely congruent with either of the current classification systems. Three major lineages are recognized. Tillinae are supported as the sister group to all other subfamilies, whereas Thaneroclerinae, Korynetinae sensu latu and a new subfamily formally described here, Epiclininae, new subfamily, form a sister group to Clerinae + Hydnocerinae. To assess the phylogeny and evolution of Hemiptera, a comprehensive mitogenomic analysis integrating mitogenome-based molecular phylogenetics, fossil-calibrated divergence dating (using BEAST), and ancestral state reconstructions are presented. The 81 sampled mitogenomes represent the most extensive mitogenomic analyses of Hemiptera to date. The putatively primitive “Homoptera” was previously rendered paraphyletic by Heteroptera, whereas the presented results support each group as monophyletic. The results from both diet and habitat ancestral state reconstructions support that 1) Heteroptera (and Homoptera) evolved from a phytophagous ancestor, contrary to the popular hypothesis that the ancestor was predaceous; and 2) family-level radiation of Heteroptera is coincident with the apically-produced labium and the novel hemelytron. It is here proposed these morphological innovations facilitated multiple independent shifts from phytophagy to predation and multiple independent colonizations of aquatic habitats.

Cleridae

molecular systematics

Hemiptera phylogeny

mitochondrial genome

evolution of true bugs

Agriculture

Entomology

Molecular systematics and biogeography of the Holarctic smelt family Osmeridae (Pisces)

Ilves, Katriina Larissa

05 1900

Biogeographers have long searched for common processes responsible for driving diversification in the Holarctic region. Although terrestrial flora and fauna have been well studied, much of the marine biogeographic work addresses patterns and processes occurring over a relatively recent timescale. A prerequisite to comparative biogeographic analysis requires well-resolved phylogenies of similarly distributed taxa that diverged over a similar timeframe. The overall aim of my Ph.D. thesis was to address fundamental questions in the systematics and biogeography of a family of Holarctic fish (Osmeridae) and place these results in a broad comparative biogeographic framework. With eight conflicting morphological hypotheses, the northern hemisphere smelts have long been the subjects of systematic disagreement. In addition to the uncertainty in the interrelationships within this family, the relationship of the Osmeridae to several other families remains unclear. Using DNA sequence data from three mitochondrial and three nuclear genes from multiple individuals per species, I reconstructed the phylogenetic relationships among the 6 genera and 15 osmerid species. Phylogenetic reconstruction and divergence dating yielded a well-resolved phylogeny of the osmerid genera and revealed several interesting evolutionary patterns within the family: (1) Hypomesus chishimaensis and H. nipponensis individuals are not reciprocally monophyletic, suggesting that they are conspecific and H. chishimaensis is a recently evolved freshwater ecotype that invaded the Kuril Islands following the last glaciation, (2) The trans-Pacific sister relationships in Hypomesus based on lateral line scale counts are not supported, implying that this phenotype evolved in parallel on each side of the North Pacific Ocean, (3) The Plecoglossidae are the Osmeridae sister group, (4) Over half of the characters from previous studies show evidence of parallel evolution; however, 27 traits reflect ancestral relationships, (5) Multiple divergences within the Osmeridae date to both the mid-Miocene cooling period and the Pliocene Bering Seaway opening, suggesting these events were important in the evolution of these fishes, and (6) Divergences in many marine taxa for which dated phylogenies are available are also correlated with these time periods. Future research should target additional Holarctic marine taxa for further comparative analysis.

molecular systematics

comparative biogeography

Osmeridae

smelt

mitochondrial DNA

nuclear DNA

phylogenetics

biogeographic reconstruction

Holarctic

trans-Pacific

Delimitação de espécies em Rhinebothroides Mayes, Brooks & Thorson, 1981 (Cestoda: Tetraphyllidea) com ênfase no complexo Rhinebothroides freitasi (Rego, 1979) / Species delimitation in Rhinebothroides Mayes, Brooks & Thorson, 1981 (Cestoda: Tetraphyllidea) with emphasis on the Rhinebothroides freitasi (Rego, 1979) complex

Verônica Mantovani Bueno

20 May 2010

Membros do gênero Rhinebothroides são parasitas exclusivos de potamotrigonídeos, elasmobrânquios de água doce endêmicos da região Neotropical. Atualmente, seis espécies são reconhecidas para este gênero dentre as oito espécies nominais disponíveis. A taxonomia de Rhinebothroides é convoluta, pois a maioria de suas espécies são diagnosticadas por caracteres morfométricos e merísticos definidos por estudos que desconsideram a variabilidade intraespecífica destas linhagens. A ampla distribuição de algumas espécies, bem como seus padrões generalistas de especificidade padrão este discrepante em relação à tetrafilídeos marinhos sugere a existência de complexos de espécies que requerem melhor refinamento taxonômico. Este estudo visa refinar a taxonomia de um destes complexos Rhinebothroides freitasi, no qual estão inseridas outras 3 especies nominais (R. campbelli, R. circularisi, R. venezuelensis) cujas circunscrições são ambíguas. Neste estudo, partiuse da premissa de que a conjunção de dados moleculares e morfológicos pode elucidar a taxonomia deste complexo. Com este objetivo, dados moleculares para os genes 28S, ITS1 e COI foram compilados para 57 haplótipos de Rhinebothroides representando todas as espécies válidas para o gênero e a ampla distribuição biogeográfica no gênero nas bacias hidrográficas brasileiras. A otimização direta das sequências nucleotídicas destes haplótipos concatenadas com outros 26 terminais que incluem linhagens de tetrafilídeos marinhos e de água doce, resultou em cinco clados de Rhinebothroides que possuem morfologia congruente com a série tipo de cinco espécies nominais. Desta forma, este estudo reconhece cinco espécies de Rhinebothroides como válidas: R. glandularis, R. freitasi, R. moralarai, R. scorzai e R. venezuelensis. Dentre as espécies do complexo R. freitasi, os dados morfológicos compilados para ~ 400 indivíduos permitiu delimitar os níveis de variabilidade morfológica de R. freitasi e R. venezuelensis. A representatividade biogeográfica e de hospedeiros contemplada neste estudo revela que, ao contrário das linhagens de tetrafilídeos marinhos, membros de Rhinebothroides possuem baixa especificidade aos seus hospedeiros. / Members of Rhinebothroides are parasites of the Neotropical freshwater stingrays of the family Potamotrygonidae. To date, six species are recognized for the genus within which there are eight nominal species available. The taxonomy of Rhinebothroides is confusing, since most of its species are currently diagnosed by morphometric and meristic characters that have been defined by studies that disregarded the intraspecific variability of its lineages. The widespread distribution of some species, as well as their relaxed host specificity pattern which differs from what has been documented for marine tetraphyllideans suggests the existence of species complexes that require taxonomic refinement. This study aims at refining the taxonomy of one of these complexes Rhinebothroides freitasi, in which are included other three nominal species (R. campbelli, R. circularisi, R. venezuelensis) circumscribed ambiguously. In this study, it has been assumed that the combination of molecular and morphological data can shed some light on the taxonomic status of this complex. Within this framework, molecular data were compiled for 28S, ITS1, and COI for 57 haplotypes of Rhinebothroides representing all currently valid species within the genus and their biogeographical distribution along the major Brazilian river basins. The direct optimization of nucleotide sequences from these haplotypes, simultaneously analised with 26 terminals which included marine and freshwater lineages of tetraphyllideans, generated a phylogenetic hypothesis that recognized five major clades within Rhinebothroides. Each of these clades are morphologically congruent with the type series of five nominal species. Therefore, this study recognizes five valid species within Rhinebothroides: R. glandularis, R. freitasi, R. moralarai, R. scorzai, and R. venezuelensis. Within the R. freitasi complex, the compiled morphological data for ~ 400 specimens provided a robust assessment of intraspecific variability for R. freitasi and R. venezuelensis. The biogeographic and host extensive sampling available for this study reveals that members of Rhinebothroides show low host specificity, as opposed to the marine tetraphyllidean lineages.

Helmintologia

Neotropical

Parasitologia

Sistemática Molecular

Taxonomia

Helminthology

Molecular Systematics

Neotropical

Parasitology

Taxonomy