Diversity and phylogeography of eastern Guiana Shield frogs

Fouquet, Antoine

January 2008

The Guiana Shield is a sub-region of Amazonia, one of the richest areas on earth in terms of species number. It is also one of the most pristine areas and is still largely unexplored. Species number, distribution, boundaries and their evolutionary histories remain at least unclear but most of the time largely unknown. This is the case for most Anurans, a group which is recognized as threatened globally and is disappearing even from pristine tropical forests. Given the pace of forest destruction and the growing concerns about climate change it is urgently necessary to obtain a better estimate of regional biodiversity in Amazonian frogs as well as a better understanding of the origin and distribution of Anuran diversity. Furthermore, given their sensitivity to climatic conditions, amphibians are a good model to investigate the influence of paleoclimatic events on Neotropical diversification which was supposedly the driving force on biotic evolution during Pleistocene in the Guiana Shield. I first test species boundaries in two species Scinax ruber and Rhinella margaritifera. These species are widely distributed, abundant and largely recognized as species complexes. I used an original species delineation method based on the combined use of mitochondrial and nuclear DNA in phylogenetic and phylogeographic analyses. Phylogenetic analyses demonstrated the polyphyly of Scinax ruber and Rhinella margaritifera. These species consist of multiple lineages that may all merit species status. Conflicting signals of mitochondrial and nuclear markers indicated the possibility of ongoing hybridization processes. Phylogeographic analyses added further information in support of the specific status of these lineages. Our results highlight the utility of combining phylogenetic and phylogeographic methods, as well as the use of both mitochondrial and nuclear markers within one study. This approach helped to better understand the evolutionary history of taxonomically complex groups of species. The assessment of the geographic distribution of genetic diversity in tropical amphibian communities can lead to conclusions that differ strongly from prior analyses based on the occurrence of currently recognized species alone. Such studies, therefore, hold the potential to contribute to a more objective assessment of amphibian conservation priorities in tropical areas. Subsequently, I tested if these first results on cryptic species are generalisable, questioning what would potentially be a minimum estimate of the number of cryptic frog species in Amazonia and the Guiana Shield, using mtDNA with multiple complementary approaches. I also combined isolation by distance, phylogenetic analyses, and comparison of molecular distances to evaluate threshold values for the identification of candidate species among these frogs. In most cases, geographically distant populations belong to genetically highly distinct lineages that could be considered as candidate new species. This was not universal among the taxa studied and thus widespread species of Neotropical frogs really do exist, contra to previous assumptions. Moreover, the many instances of paraphyly and the wide overlap between distributions of inter- and intra-specific distances reinforce the hypothesis that many cryptic species remain to be described. In our data set, pairwise genetic distances below 0.02 are strongly correlated with geographical distances. This correlation remains statistically significant until genetic distance is 0.05, with no such relation thereafter. This suggests that for higher genetic distances allopatric and sympatric cryptic species prevail. Based on our analyses, we propose a more inclusive pairwise genetic distance of 0.03 between taxa to target lineages that could correspond to candidate species. Using this approach, we identify 129 candidate species, two-fold greater than the 60 species included in the current study. This leads to estimates of around 170 to 460 frog taxa unrecognized in Amazonia-Guianas. As a consequence the global amphibian decline detected especially in the Neotropics may be worse than realised. The Rhinella margaritifera complex is characterisized by the presence of many cryptic species throughout its wide distribution, ranging from Panama to Bolivia and almost entire Amazonia. French Guiana has long been thought to harbor two species of this group, though molecular data analysed in previous chapters indicated as many as five lineages. I tested whether morphological measurements are correlated or not with genetic data using discriminant analysis and if diagnostic characteristics among the previously determined lineages can be used to describe these new species. This is a novel integrative method which can lead to a facilitation of the description of cryptic species that have been detected by phylogenetic and/or phylogeographic studies. These analyses, combined with published data of other Rhinella species, indicated that two of these lineages represent previously unnamed species. Two of the remaining are allocable to R. margaritifera while the status of the fifth is still unclear because so far it is morphologically indistinguishable from R. castaneotica. Determining if codistributed species responded to climate change in an independent or concerted manner is a basic objective of comparative phylogeography. Species boundaries, histories, ecologies and their geographical ranges are still to be explored in the Guiana Shield. According to the refugia hypothesis this region was supposed to host a forest refugium during climatic oscillations of the Pleistocene but the causes and timing for this have been criticized. We investigated patterns of genetic structure within 18 frog species in the eastern Guiana Shield to explore species boundaries and their evolutionary history. We used mtDNA and nuclear DNA and complementary methods to compare the genetic diversity spatially and temporally. With one exception all the species studied diversified repeatedly within the eastern Guiana Shield during the last 4 million years. Instead of one Pleistocene forest refugium the Guiana Shield has probably hosted multiple refugia during late Pliocene and Pleistocene. Most of these Pleistocene refugia were probably situated on the coast of French Guiana, Amapà, Suriname and Guyana. This diversification likely resulted from forest fragmentation. Many species deserve taxonomic revisions and their ranges to be reconsidered. The local endemism of the Anuran fauna of the Guiana Shield is likely to be much higher and some areas consequently deserve more conservation efforts. Specifically I questioned whether major intraspecific diversification started before the Pleistocene and occurred within the Guiana Shield or ex situ. According to ecological characteristics of the species involved I will test different diversification hypotheses. The consequences on the diversity and the endemism of the Guiana Shield will be explored. My results demonstrate that we have been grossly underestimating local biological diversity in the Guiana Shield but also in Amazonia in general. The order of magnitude for potential species richness means that the eastern Guiana Shield hosts one of the richest frog fauna on earth. In most of the species studied high levels of mtDNA differentiation between populations call for a reassessment of the taxonomic status of what is being recognised as single species. Most species display deep divergence between eastern Guiana Shield populations and Amazonian ones. This emphasizes that the local endemism in the Guiana Shield of these zones is higher than previously recognized and must be prioritised elements taken into account in conservation planning. Nevertheless, a few other species appear widely distributed showing that widespread species do exist. This underlines the fact that some species have efficient dispersal abilities and that the frog fauna of the eastern Guiana Shield is a mixture of old Guianan endemic lineages that diversified in situ mostly during late Pliocene and Pleistocene and more recently exchanged lineages with the rest of Amazonia. Recognizing this strong historical component is necessary and timely for local conservation as these zones are likely to be irremediably modified in the near future.

Guiana Shield

Anura

comparative phylogeography

refugia

Pleistocene

Amphibia

Tyrosinase

18S rDNA

Mitochondrial genes; Hylidae; Scinax

Bufonidae

Rhinella

Neotropics

16S rDNA

DNA barcoding

Systematics

morphology

vocalisation

Diversidade de cupins (insecta, isoptera) em brejos de altitude: variação espacial, influência de fatores ambientais e similaridade com domínios morfoclimáticos brasileiros.

Moura, Flávia Maria da Silva

30 August 2012

Made available in DSpace on 2015-04-17T14:55:21Z (GMT). No. of bitstreams: 1 Arquivototal.pdf: 7359456 bytes, checksum: 16477438042d951ea0467f36a2a1005e (MD5) Previous issue date: 2012-08-30 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The taxonomic and trophic structures of termite assemblages were studied in 10 areas of altitudinal forests ( Brejo de Altitude ) in the Caatinga dryland biome and their patterns of species richness and distribution were analyzed. A standardized sampling protocol (30 hours x person) was performed in five 5 x 2 m plots distributed along each of six 65 x 2 m transects; the densities of termite nests were also estimated in each of the 10 forest areas in six 65 m x 20 m plots, and climatic, vegetation, and soil parameters were evaluated. Faunal similarity analyses were made between the 10 altitudinal forest areas and 36 other sites distributed among the major Brazilian morphoclimatic domains. Seventy-one morpho species of termites were identified among 799 specimens encountered. In general, the Apicotermitinae were represented by the largest numbers of species and relative abundance, with the humivorous group being dominant. A total of 13 species constructing conspicuous nests were recorded, with an average of 13.1 to 71.8 active nests/ha. Phosphorus was the best predictor variable of termite richness and abundance in all of the areas, with trunk perimeter being the second best predictor. Grouping analysis of the altitudinal forests formed group I (SOR+RFB+RSN) composed of areas at higher altitudes located in the western region of the Borborema Plateau that showed relatively low richness and abundance, and group II [(SJB+RPF+RMM+PVS)+(PRM+PUB)] composed of areas closest to the coastal Atlantic Forest + areas in Ceará State that showed greater richness and relative abundance; the Triunfo/PE site demonstrated the least faunal similarity with the other areas. These results corroborated the hypothesis that Brejos de Altitude forests do not constitute a distinct biogeographical unit. These Brejos de Altitude forests demonstrate greater faunal similarity with Atlantic Forest and Caatinga areas but less similarity with Amazon and Cerrado sites. These patterns of termite distributions appear to reflect Quaternary period cycles of expansion and retraction of Tropical Rainforests during glacial and interglacial periods as well as current climatic and geomorphological factors. / As estruturas taxonômica e trófica das taxocenoses de cupins foram estudadas em dez áreas de Brejo de Altitude, estabelecidos nos domínios da Caatinga, buscando analisar os padrões de riqueza e distribuição das espécies. Para cada área, foi aplicado um protocolo padronizado de amostragem (30 horas x pessoa), consistindo de cinco parcelas de 5 x 2 m distribuídas ao longo de seis transectos de 65 x 2 m. Para cada área, a densidade de ninhos foi estimada em seis parcelas de 65 m x 20 m, e parâmetros climáticos, da vegetação e do solo foram avaliados. Análises de similaridade faunística foram realizadas entre os Brejos de Altitude e 36 áreas distribuídas entre os maiores Domínios Morfoclimáticos brasileiros. Setenta e uma morfoespécies foram registradas nos Brejos, pertencentes a 36 gêneros e três famílias, com 799 encontros. De forma geral, os Apicotermitinae apresentaram os maiores números de espécies e abundância relativa, e o grupo alimentar dos humívoros foi dominante. Um total de 13 espécies construtoras de ninhos conspícuos foi registrado, e a densidade média variou de 1,3 a 71,8 ninhos ativos/ha. O fósforo foi a melhor variável preditora da riqueza e da abundância de cupins para todas as áreas, sendo o perímetro do tronco a segunda melhor variável preditora. A análise de agrupamento entre as áreas de Brejo formou o grupo I (SOR+RFB+RSN): áreas com riqueza e abundância relativa baixa, maiores altitudes e localizadas a oeste no Planalto da Borborema; e o grupo II [(SJB+RPF+RMM+PVS)+(PRM+PUB)]: áreas com maiores riqueza e abundância relativa, incluindo áreas mais próximas da Floresta Atlântica costeira + áreas no Ceará, enquanto Triunfo/PE apresentou menor similaridade faunística com as demais áreas. Tais resultados corroboram a hipótese de que os Brejos de Altitude não constituem uma unidade biogeográfica. Os Brejos de Altitude apresentaram maior similaridade faunística com a Floresta Atlântica e a Caatinga, respectivamente, e menor similaridade com a Amazônia e o Cerrado. Tais padrões de distribuição podem refletir, além dos fatores climáticos e geomorfológicos atuais, os ciclos de expansão e retração das Florestas Tropicais Úmidas durante os períodos interglaciais e glaciais do Quaternário.

Biodiversidade

Grupos Alimentares

Densidade de Ninhos

Biogeografia

Semiárido

Região Neotropical

Biodiversity

Feeding Groups

Density of Nests

Biogeography

Semiarid

Neotropics

CNPQ::CIENCIAS BIOLOGICAS::ZOOLOGIA

Evolução morfológica na radiação dos roedores sigmodontíneos : ecologia e história evolutiva

Maestri, Renan

January 2017

Radiações evolutivas estão entre os eventos mais fascinantes da evolução. Grande parte da diversidade da vida, tanto de espécies como ecológica, surgiu nos breves intervalos temporais de rápida especiação que configuram as radiações. As causas ecológicas e não-ecológicas do surgimento da diversidade em radiações evolutivas, em especial nas radiações adaptativas, são tema de pesquisa há muito tempo, pelo menos desde que Darwin observou a imensa diversidade de um grupo de pássaros nas ilhas Galápagos. Desde então, as ilhas têm sido os ambientes ideais para o estudo desse fenômeno, e foi a partir das observações e experimentos em ilhas que toda a teoria ecológica das radiações evolutivas surgiu. Contudo, as causas ecológicas das radiações explosivas ocorridas em amplas escalas continentais permanecem tema de constante debate. Nesta tese, foram investigados os determinantes ecológicos e não-ecológicos (e.g., geografia, contingências históricas, efeitos filogenéticos) da evolução morfológica dos roedores sigmodontíneos durante sua radiação na região Neotropical, em especial no continente sul-americano. Para isso, foi quantificada a morfologia do crânio e mandíbula de mais de dois mil exemplares do grupo, e foram investigadas variações ecomorfológicas nos níveis interespecífico (I), intraespecífico (II), e entre assembleias de sigmodontíneos (III). Na Parte I da tese, foram investigadas duas predições da teoria da radiação adaptativa, a correlação-fenótipo ambiente (capítulo 1) e a funcionalidade do fenótipo através da força da mordida (capítulo 2), permitindo determinar o papel da divergência ecológica na evolução morfológica das espécies. Na Parte II (capítulo 3), foram investigadas as contribuições relativas de processos determinísticos e neutros sobre a variação morfológica entre populações de uma espécie de roedor sigmodontíneo amplamente distribuída, Akodon cursor. Na Parte III, a influência da variação ambiental e da distribuição espacial das linhagens filogenéticas de sigmodontíneos sobre o tamanho corporal (capítulo 4) e forma do crânio e mandíbula (capítulo 5), foram investigados no contexto biogeográfico da variação no tamanho e forma média entre assembleias de sigmodontíneos. As contribuições originais desta tese foram: (i) mostrar que a radiação evolutiva dos roedores sigmodontíneos foi guiada principalmente por fatores históricos e geográficos ao invés de fatores ecológicos; (ii) sugerir que radiações evolutivas ocorridas em escalas continentais, especialmente de roedores, têm um componente geográfico e histórico mais determinante do que o componente ecológico; (iii) revelar que a força da mordida varia pouco entre roedores sigmodontíneos herbívoros e granívoros, o que provavelmente é resultado do fenótipo generalista desses roedores; (iv) apontar que sigmodontíneos com dieta insetívora têm uma taxa de evolução mais rápida, e parecem estar evoluindo sua forma do crânio/mandíbula e sua força da mordida em uma direção diferente das demais espécies; (v) demonstrar que, dentro de uma espécie de sigmodontíneo (Akodon cursor), fluxo gênico e deriva genética explicam melhor a forma do crânio entre populações, enquanto a variação ambiental explica melhor o tamanho do crânio, indicando que o tamanho é uma característica mais lábil e mais sujeita a pressões ambientais do que a forma do crânio; (vi) mostrar que a variação biogeográfica, tanto do tamanho quanto da forma média do crânio/mandíbula entre assembleias de sigmodontíneos, está sob influência da distribuição diferencial das linhagens filogenéticas ao longo do espaço geográfico, bem como de variáveis ambientais; o que indica conservação filogenética de nicho à nível de metacomunidades. De modo geral, ao investigar as contribuições relativas dos componentes adaptativo e não-adaptativo da evolução morfológica, foram obtidas informações importantes para conhecer as causas da diversificação morfológica em Sigmodontinae, aumentando nosso conhecimento sobre as origens de toda a diversidade biológica. / Evolutionary radiations are among the most fascinating phenomena of evolution. Most of the biological diversity on the planet, both in terms of species and ecological diversity, appeared during these brief intervals of rapid speciation. The ecological and non-ecological causes of the emergence of diversity in evolutionary radiations, especially in adaptive radiations, have long been the subject of research, beginning with Darwin and his notice of the astonishing diversity of bird forms in the Galapagos Islands. Islands have since been ideal environments in which to study evolutionary and adaptive radiations, and indeed it was from observations and experiments on islands that all ecological theory of evolutionary radiations arose. However, the ecological causes of explosive radiations occurring on large continental scales are still a matter of debate. In this dissertation, I investigated the ecological and non-ecological (e.g., geography, historical contingencies, phylogenetic effects) determinants of morphological evolution in sigmodontine rodents during their radiation in the Neotropical region, particularly on the South-American continent. The skull and mandible morphology of more than two thousand specimens was quantified, and ecomorphological variation was investigated on three levels: interspecific (I), intraspecific (II), and among sigmodontine assemblages (III). In part I, two predictions from the ecological theory of adaptive radiation were investigated: the phenotype-environment correlation (chapter 1), and the trait utility through the bite force (chapter 2). This approach enabled determination of the role of ecological divergence in species morphological evolution. In part II (chapter 3), I investigated the relative contributions of deterministic and neutral processes to morphological variation among populations of one widely distributed sigmodontine species, Akodon cursor. In part III, I investigated the influence of environmental variation and spatial distribution of phylogenetic lineages on body size (chapter 4) and on shape of the skull and mandible (chapter 5), in the context of biogeographical variation of mean size and shape in sigmodontine assemblages. The original contributions of this dissertation are as follows: (i) to demonstrate that the evolutionary radiation of sigmodontines was driven mainly by historical and geographical factors instead of ecological factors; (ii) to suggest that evolutionary radiations on continental scales, especially rodent radiations, have a more determinant historical and geographical component than an ecological one; (iii) to show small variation in bite force between sigmodontine herbivores and granivores, which is likely a consequence of the generalist phenotype of these rodents; (iv) to highlight that insectivorous sigmodontines have a faster rate of morphological evolution than other diet groups, and that skull and mandible morphology and bite force are evolving in different directions than in other species; (v) to demonstrate that within a sigmodontine species (Akodon cursor), gene flow and genetic drift better explain variation in skull shape among populations, while environmental variation better explains variation in skull size, which suggests that size is more labile feature than shape and thus more prone to change with environmental pressures; and (vi) to show that biogeographical variation in mean body size, mean skull shape, and mean mandible shape across sigmodontine assemblages is influenced by the different distributions of phylogenetic lineages over geographical space, as well by environmental variables, which indicates phylogenetic niche conservatism at the metacommunity level. These results shed light on some of the factors driving morphological diversification in Sigmodontinae. Further, the analytical approach(es) utilized may be useful for general investigations of the relative contributions of adaptive and non-adaptive components of morphological evolution, thereby potentially increasing our knowledge of the origins of all biological diversity.

Morfologia animal

Akodon cursor

Sigmodontinae

Radiação

Adaptation

Evolutionary history

Evolutionary radiation

Functional biogeography

Geometric morphometrics

Macroecology

Macroevolution

Morphological evolution

Natural selection

Neotropics

Phylogenetic community ecology

Phylogenetic comparative methods

Variação geográfica, filogenia e sistemática de Gracilinanus microtarsus (Mammalia: Didelphimorphia)

Freitas, Simone Lóss de

27 March 2007

Made available in DSpace on 2016-12-23T13:47:35Z (GMT). No. of bitstreams: 1 Dissertacao de Simone Loss de Freitas.pdf: 2778831 bytes, checksum: f273846469d08eec6a2e5aafffe5602f (MD5) Previous issue date: 2007-03-27 / A catita Gracilinanus microtarsus ocorre principalmente ao longo da Mata Atlântica do leste e sul do Brasil. Estudos prévios relevaram altos níveis de divergência genética entre amostras ao longo de sua distribuição. Nesse trabalho nós analisamos a congruência da variação geográfica entre caracteres moleculares e morfológicos para avaliar se populações identificadas como Gracilinanus microtarsus representam mais de uma espécie, como sugerido anteriormente. Nós examinamos 195 espécimes de G. microtarsus, 94 de G. agilis e 12 de Cryptonanus sp., e inferimos a filogenia com base em 25 caracteres morfológicos discretos. Nós comparamos os resultados com uma filogenia baseada em seqüências parciais de citocromo b de 27 espécimes. A monofilia do gênero e das duas espécies G. microtarsus e G. agilis foram corroboradas pelas análises de dados morfológicos e moleculares. A filogenia molecular mostrou três clados e a filogenia com base em dados morfológicos apresentou três linhagens em G. microtarsus, as quais também se segregaram no espaço morfométrico, indicando a possibilidade de existirem três espécies em G. microtarsus. No entanto, as filogenias morfológicas e moleculares não se apresentaram completamente congruentes ao serem comparadas e a análise morfológica resultou como parafilética na filogenia molecular. Portanto, nossos resultados sugerem que G. microtarsus representa apenas uma espécie, diagnosticável por caracteres morfológicos e moleculares, mostrando forte variação morfológica ao longo de sua distribuição / The gracile mouse opossum Gracilinanus microtarsus occurs mainly along the Atlantic forest of eastern and southern Brazil. Earlier studies revealed high levels of genetic divergence among samples across its range. Here, we analyzed the congruence of geographic variation between molecular and morphological characters to evaluate whether the populations that have been segregated by molecular divergence represent more than one species, as previously suggested. We examined 195 specimens of G. microtarsus, 94 of G. agilis, and 12 of Cryptonanus sp., and inferred a phylogeny based on 25 discrete morphological characters. We compared this result with a phylogeny based on partial cytochrome b sequences of 27 specimens. The monophyly of the genus, and of both G. microtarsus and G. agilis were corroborated by morphological and molecular analyses. The molecular phylogeny recovered three clades, and the morphological data indicated three distinct lineages, which also segregated in morphometric space, indicating the possibility of occurrence of three cryptic species within what is currently identified as G. microtarsus. However, morphological and molecular phylogenies were not completely congruent, and the morphological classification of the specimens included in the molecular analysis resulted in a paraphyletic group in the molecular phylogeny. Hence, our results suggest that G. microtarsus represents one species, diagnosable by morphological and molecular characters, showing strong morphological and molecular variation throughout its distributional range

Mata Atlântica - Brasil

Citocromo b

Variação intra-específica

Mamíferos marsupiais

Neotrópico

Atlantic forest - Brazil

Ctochrome b

Intraspecific variation

Mammal - marsupials

Neotropics

CNPQ::CIENCIAS BIOLOGICAS

Evolução morfológica na radiação dos roedores sigmodontíneos : ecologia e história evolutiva

Maestri, Renan

January 2017

Radiações evolutivas estão entre os eventos mais fascinantes da evolução. Grande parte da diversidade da vida, tanto de espécies como ecológica, surgiu nos breves intervalos temporais de rápida especiação que configuram as radiações. As causas ecológicas e não-ecológicas do surgimento da diversidade em radiações evolutivas, em especial nas radiações adaptativas, são tema de pesquisa há muito tempo, pelo menos desde que Darwin observou a imensa diversidade de um grupo de pássaros nas ilhas Galápagos. Desde então, as ilhas têm sido os ambientes ideais para o estudo desse fenômeno, e foi a partir das observações e experimentos em ilhas que toda a teoria ecológica das radiações evolutivas surgiu. Contudo, as causas ecológicas das radiações explosivas ocorridas em amplas escalas continentais permanecem tema de constante debate. Nesta tese, foram investigados os determinantes ecológicos e não-ecológicos (e.g., geografia, contingências históricas, efeitos filogenéticos) da evolução morfológica dos roedores sigmodontíneos durante sua radiação na região Neotropical, em especial no continente sul-americano. Para isso, foi quantificada a morfologia do crânio e mandíbula de mais de dois mil exemplares do grupo, e foram investigadas variações ecomorfológicas nos níveis interespecífico (I), intraespecífico (II), e entre assembleias de sigmodontíneos (III). Na Parte I da tese, foram investigadas duas predições da teoria da radiação adaptativa, a correlação-fenótipo ambiente (capítulo 1) e a funcionalidade do fenótipo através da força da mordida (capítulo 2), permitindo determinar o papel da divergência ecológica na evolução morfológica das espécies. Na Parte II (capítulo 3), foram investigadas as contribuições relativas de processos determinísticos e neutros sobre a variação morfológica entre populações de uma espécie de roedor sigmodontíneo amplamente distribuída, Akodon cursor. Na Parte III, a influência da variação ambiental e da distribuição espacial das linhagens filogenéticas de sigmodontíneos sobre o tamanho corporal (capítulo 4) e forma do crânio e mandíbula (capítulo 5), foram investigados no contexto biogeográfico da variação no tamanho e forma média entre assembleias de sigmodontíneos. As contribuições originais desta tese foram: (i) mostrar que a radiação evolutiva dos roedores sigmodontíneos foi guiada principalmente por fatores históricos e geográficos ao invés de fatores ecológicos; (ii) sugerir que radiações evolutivas ocorridas em escalas continentais, especialmente de roedores, têm um componente geográfico e histórico mais determinante do que o componente ecológico; (iii) revelar que a força da mordida varia pouco entre roedores sigmodontíneos herbívoros e granívoros, o que provavelmente é resultado do fenótipo generalista desses roedores; (iv) apontar que sigmodontíneos com dieta insetívora têm uma taxa de evolução mais rápida, e parecem estar evoluindo sua forma do crânio/mandíbula e sua força da mordida em uma direção diferente das demais espécies; (v) demonstrar que, dentro de uma espécie de sigmodontíneo (Akodon cursor), fluxo gênico e deriva genética explicam melhor a forma do crânio entre populações, enquanto a variação ambiental explica melhor o tamanho do crânio, indicando que o tamanho é uma característica mais lábil e mais sujeita a pressões ambientais do que a forma do crânio; (vi) mostrar que a variação biogeográfica, tanto do tamanho quanto da forma média do crânio/mandíbula entre assembleias de sigmodontíneos, está sob influência da distribuição diferencial das linhagens filogenéticas ao longo do espaço geográfico, bem como de variáveis ambientais; o que indica conservação filogenética de nicho à nível de metacomunidades. De modo geral, ao investigar as contribuições relativas dos componentes adaptativo e não-adaptativo da evolução morfológica, foram obtidas informações importantes para conhecer as causas da diversificação morfológica em Sigmodontinae, aumentando nosso conhecimento sobre as origens de toda a diversidade biológica. / Evolutionary radiations are among the most fascinating phenomena of evolution. Most of the biological diversity on the planet, both in terms of species and ecological diversity, appeared during these brief intervals of rapid speciation. The ecological and non-ecological causes of the emergence of diversity in evolutionary radiations, especially in adaptive radiations, have long been the subject of research, beginning with Darwin and his notice of the astonishing diversity of bird forms in the Galapagos Islands. Islands have since been ideal environments in which to study evolutionary and adaptive radiations, and indeed it was from observations and experiments on islands that all ecological theory of evolutionary radiations arose. However, the ecological causes of explosive radiations occurring on large continental scales are still a matter of debate. In this dissertation, I investigated the ecological and non-ecological (e.g., geography, historical contingencies, phylogenetic effects) determinants of morphological evolution in sigmodontine rodents during their radiation in the Neotropical region, particularly on the South-American continent. The skull and mandible morphology of more than two thousand specimens was quantified, and ecomorphological variation was investigated on three levels: interspecific (I), intraspecific (II), and among sigmodontine assemblages (III). In part I, two predictions from the ecological theory of adaptive radiation were investigated: the phenotype-environment correlation (chapter 1), and the trait utility through the bite force (chapter 2). This approach enabled determination of the role of ecological divergence in species morphological evolution. In part II (chapter 3), I investigated the relative contributions of deterministic and neutral processes to morphological variation among populations of one widely distributed sigmodontine species, Akodon cursor. In part III, I investigated the influence of environmental variation and spatial distribution of phylogenetic lineages on body size (chapter 4) and on shape of the skull and mandible (chapter 5), in the context of biogeographical variation of mean size and shape in sigmodontine assemblages. The original contributions of this dissertation are as follows: (i) to demonstrate that the evolutionary radiation of sigmodontines was driven mainly by historical and geographical factors instead of ecological factors; (ii) to suggest that evolutionary radiations on continental scales, especially rodent radiations, have a more determinant historical and geographical component than an ecological one; (iii) to show small variation in bite force between sigmodontine herbivores and granivores, which is likely a consequence of the generalist phenotype of these rodents; (iv) to highlight that insectivorous sigmodontines have a faster rate of morphological evolution than other diet groups, and that skull and mandible morphology and bite force are evolving in different directions than in other species; (v) to demonstrate that within a sigmodontine species (Akodon cursor), gene flow and genetic drift better explain variation in skull shape among populations, while environmental variation better explains variation in skull size, which suggests that size is more labile feature than shape and thus more prone to change with environmental pressures; and (vi) to show that biogeographical variation in mean body size, mean skull shape, and mean mandible shape across sigmodontine assemblages is influenced by the different distributions of phylogenetic lineages over geographical space, as well by environmental variables, which indicates phylogenetic niche conservatism at the metacommunity level. These results shed light on some of the factors driving morphological diversification in Sigmodontinae. Further, the analytical approach(es) utilized may be useful for general investigations of the relative contributions of adaptive and non-adaptive components of morphological evolution, thereby potentially increasing our knowledge of the origins of all biological diversity.

Morfologia animal

Akodon cursor

Sigmodontinae

Radiação

Adaptation

Evolutionary history

Evolutionary radiation

Functional biogeography

Geometric morphometrics

Macroecology

Macroevolution

Morphological evolution

Natural selection

Neotropics

Phylogenetic community ecology

Phylogenetic comparative methods

Ecologia de Culex quinquefasciatus e de Culex nigripalpus no Parque Ecológico do Tietê, São Paulo, Brasil / Ecology of Culex quinquefasciatus and Culex nigripalpus at the Parque Ecológico do Tietê, São Paulo, Brasil.

Gabriel Zorello Laporta

19 October 2007

Introdução - Culex quinquefasciatus é um mosquito sinantrópico que causa incômodo à população humana e é relacionado com a transmissão de nematóides ou arbovírus em áreas endêmicas, respectivamente, do litoral brasileiro e da América Central ou do Norte. Culex nigripalpus é um mosquito hemi-sinantrópico que possui a capacidade de se dispersar para as áreas antrópicas e transmitir Saint Louis Virus e Equine Encephalitis Virus, respectivamente, na América do Norte e Venezuela. Objetivo - Caracterizar o hábito alimentar de Culex nigripalpus e a densidade, a sobrevivência e o hábito alimentar de Culex quinquefasciatus no Parque Ecológico do Tietê (PET), São Paulo. Métodos - O PET é uma Área de Preservação Ambiental com animais residentes ou migratórios. As amostras de mosquitos adultos foram coletadas, mensalmente, em quatro áreas no PET, durante um ano e por meio de aspirador à bateria. O método de ELISA indireto foi empregado para a identificação do hospedeiro que é fonte alimentar ao mosquito. A densidade da população de Cx. quinquefasciatus foi estimada pelo método de marcação, soltura e recaptura na vegetação da margem de um canal no PET. Amostras de fêmeas de Cx. quinquefasciatus desse local foram dissecadas ou acompanhadas em laboratório para estimativa da taxa de sobrevivência. Resultados – A proporção de repastos sangüíneos de Cx. quinquefasciatus e de Cx. nigripalpus foi, respectivamente, 6,5 e 8,3% em humanos, 18,8 e 27,7% em cães, 7,4 e 2,3% em galinhas, 2,8 e 9,0% em ratos, 3,2 e 8,3% em múltiplos hospedeiros e 67,7 e 60,9% em hospedeiros não identificados. Human Blood Index para Cx. quinquefasciatus e Cx. nigripalpus foi, respectivamente, 0,20 e 0,17. Feeding Index entre os hospedeiros homem/cão, homem/galinha e homem/rato foi, respectivamente, 0,35, 0,63 e 2,65 para Cx. quinquefasciatus e 0,30, 2,56 e 1,05 para Cx. nigripalpus. A distribuição de repastos sangüíneos teve associação significante estatisticamente com as fêmeas de Cx. nigripalpus em estádio de Sella 2 coletadas em todas as áreas do PET. A densidade de Cx. quinquefasciatus para uma área de 2.520 m2 foi 7.262±1.537. A proporção de paridas, a duração do ciclo gonotrófico e a taxa de sobrevivência foram, respectivamente, igual a 0,48, 4,75 (CL 95% = 4,3-5,2) e 0,86, estimados para a população de Cx. quinquefasciatus. Conclusões – Cães e galinhas foram hospedeiros importantes para Cx. quinquefasciatus, enquanto que cães foram hospedeiros importantes para Cx. nigripalpus. O repasto sangüíneo é mais bem detectado pelo ELISA indireto em fêmeas no estádio de Sella 2. A sobrevivência e a densidade de Cx. quinquefasciatus indicam que essa espécie é epidemiologicamente relevante na área do PET como espécies vetora ou peste urbana. Essa espécie deve ser objetivo do programa de controle de vetores no município de São Paulo. / Introduction - Culex quinquefasciatus has high synanthropy, infest human dwellings and is vector of nematoids and arbovirus from endemic areas, respectively, in Brazilian coast and in Central or North America. Culex nigripalpus has average synanthropy and can disperse through the anthropic environment carrying Saint Louis Virus and Equine Encephalitis Virus, respectively, in North America and Venezuela. Objective - To characterize host-feeding habit of Culex nigripalpus and density, survival and host-feeding habit of Culex quinquefasciatus in the Parque Ecológico do Tietê (PET), São Paulo. Methods - The PET is an Area of Environmental Protection with resident or migratory animals. The samples of adult mosquitoes were collected, monthly, in four areas in the PET, during one year and by means of a backpack battery aspirator. An indirect ELISA technique was used for the identification of the host that is an alimentary source for the mosquito species. The density of Cx. quinquefasciatus population was estimated using the Mark, Release and Recapture method on the vegetation of the edge of a canal in the PET. Samples of females of Cx. quinquefasciatus from this place were dissected or followed in laboratory for estimating the survival rate. Results – Cx. quinquefasciatus and Cx. nigripalpus fed on human 6.5 and 8.3%, dog 18.8 and 27.7%, chicken 7.4 and 2.3%, rat 2.8 and 9.0%, multiple hosts 3.2 and 8.2% and unidentified hosts 67.9 and 60.9%, respectively. The unweighted human blood index (HBI) values were 0.20 for Cx. quinquefasciatus and 0.17 for Cx. nigripalpus populations. The feeding index values between the hosts human/dog, human/chicken and human/rat were, respectively, 0.35, 0.63 and 2.65 for Cx. quinquefasciatus and 0.30, 2.56 and 1.05 for Cx. nigripalpus. The distributions of blood-meals had statistically significant association on Sella 2 stage of the Cx. nigripalpus collected in all areas at the PET. The density of Cx. quinquefasciatus for an area of 2,520 m2 was 7,262±1,537. The proportion of parous, gonotrophic cycle length and survival rate were, respectively, equal to 0.48, 4.75 (CL 95% = 4.3-5.2) and 0.86, for Cx. quinquefasciatus population. Conclusions – Dogs and chickens are important hosts for Cx. quinquefasciatus, whereas dog is an important host for Cx. nigripalpus. The host-blood of females in Sella 2 stage increases sensibility of the indirect ELISA assay. The survivorship and the density of Cx. quinquefasciatus indicate that these species are epidemiologically relevant in the PET area as either a pest or vector species. Those species should be a goal of the vector control program of Sao Paulo municipality.

Capacidade vetora

Culex

Ecologia

ELISA indireto

Hábito alimentar

Neotropical

Saúde pública

Culex

Ecology

Host-feeding habit

Indirect ELISA

Neotropics

Public Health

Vectorial capacity

New Specimens of Sparassodonta (Mammalia, Metatheria) from Chile and Bolivia

Engelman, Russell K.

January 2018

No description available.

Paleontology

Paleoecology

Zoology

Organismal Biology

Evolution and Development

Biology

Animals

Sparassodonta

marsupial

Marsupialia

metatherian

Metatheria

South America

Oligocene

Eocene

Miocene

Bolivia

Chile

sparassodont

Borhyaenoidea

Neotropics

Effects of Ecological and Agricultural Disturbance on Forest-Grassland Ecotones and Wildlife in Beni, Bolivia: Consequences for Restoration, Conservation and Sustainable Ranching

Peacock, Joanne

16 August 2022

No description available.

Conservation

Ecology

Environmental Science

Wildlife Conservation

Range Management

Savanna

Neotropics

Beni

Llanos de Moxos

Grassland

Sustainable Land-use

Wildlife

Conservation

Birds

Mammals

Grazing

Cattle

Motacú

Restoration

Forest

Flooding

Ecotone

Filogenia molecular do gênero Dolichandra s.l. (Bignonieae, Bignoniaceae) / Molecular phylogeny of the genus Dolichandra s.l. (Bignonieae, Bignoniaceae)

Fonseca, Luiz Henrique Martins

01 November 2012

Dolichandra s.l. é um gênero de lianas com distribuição neotropical pertencente a família Bignoniaceae, tribo Bignonieae. A atual circunscrição do gênero foi estabelecida com base em uma filogenia molecular da tribo, a qual foi interpretada a luz de caracteres morfológicos. Atualmente são reconhecidas 10 espécies, duas delas propostas nesta dissertação. Espécies de Dolichandra s.l. apresentam grande variação em sua distribuição geográfica e habitats ocupados, bem como em caracteres morfológicos relacionados aos sistemas de polinização e dispersão. O presente estudo teve como objetivos: (1) reconstruir a filogenia de Dolichandra s.l. utilizando os marcadores moleculares plastidiais ndhF e rps32-trnL e o marcador nuclear PepC, e (2) utilizar a filogenia como base para inferir os processos que atuaram na especiação do gênero. Amostras de quatro grupos externos e 20 indivíduos de Dolichandra s.l. foram obtidas, totalizando nove de Dolichandra s.l. Filogenias bem resolvidas para os três marcadores amostrados revelaram que tanto o gênero, como as espécies com mais de um indvíduo amostrados são monofiléticas. Dolichandra unguiculata é a primeira linhagem à divergir dentro da família, sendo grupo-irmão das demais espécies do gênero em todas as topologias. Dolichandra acuminata e D. quadrivalvis formam um clado bem sustentado em todas as topologias. Esse clado emergiu para todos os marcadores e critérios de reconstrução como irmão do clado formado por D. dentata, D. hispida, D. uncata e D. unguis-cati. Nesse último clado, D. uncata sempre aparece como irmã das espécies restantes em todas as topologias. Por outro lado, o posicionamento de D. chodatii, D. cynanchoides, D. dentata e D. híspida não está bem sustentado na árvore combinada, refletindo diferenças na topologia entre os marcadores plastidiais e o marcador nuclear. Todos os nós da filogenia apresentam algum grau de simpatria entre suas linhagens, indicando a importância da diferenciação de nichos para a diversificação do gênero e a prevalência de especiação simpátrica no grupo. / Dolichandra s.l. is a genus of lianas found in the Neotropics. It belongs to the family Bignoniaceae, tribe Bignonieae. The actual circumscription of the genus was based on a molecular phylogeny of the tribe and morphological synanpomorphies. Currently the genus comprises ten species, two of than proposed in this dissertation. Species of Dolichandra s.l. have great variation in geographic distribution, habitats occupied, as well as, morphological characters related to pollination and dispersal events. The goals of this study are: (1) Reconstruct the phylogeny of Dolichandra s.l. using the plastid markers ndhF e rps32-trnL and the nuclear marker PepC, and (2) use the phylogeny as base to infer process that acted in genus diversification. A sample from four outgroups and 20 individuals were obtained, accounting nine species of Dolichandra s.l. Well resolved phylogenies for the three markers revealed that the genus, and the multiple sampled species are monophyletic. Dolichandra unguiculata is the first species to diverge, being sister of a clade with the rest of the genus in all topologies. Dolichandra acuminate as sister of D. quadrivalvis is a well supported clade in all topologies. This clade emerged for all markers and criteria as sister of clade with D. dentata, D. hispida, D. uncata, and D. unguis-cati. In the latter clade, D. uncata emerged as sister of the other species in all topologies. On the other hand, the phylognetic position of D. chodatii, D. cynanchoides, D. dentate and D. hispida is not well supported in the combined analysis, revealing differences in topology between plastid and nuclear markers. All the nodes of the phylogeny have some degree of sympatry between lineages, indicating the importance of niche differences for the genus diversification and the prevalence of sympatric speciation.

1.Comparative biology

2.Neotropics

3.Speciation

4.Lianas

5.Diversification

6.ndhF

7.PepC

7.PepC

8.rpl32-trnL

8.rpl32-trnL

Biologia comparada

Diversificação

Especiação

Lianas

ndhF

Neotrópicos

The role of trophic interactions in shaping tropical tree communities

Hazelwood, Kirsten

January 2018

Tropical rainforests contain exceptionally high biodiversity and account for >30% of the world's carbon fixed by photosynthesis. Consequently, there are compelling reasons to deepen our understanding of the mechanisms that maintain these highly diverse forests and of the potential long-term threats to their preservation. An important process shaping tropical plant communities is negative density dependence (NDD). NDD occurs when plant performance is negatively impacted by increased neighbourhood density. Reduced performance at high neighbourhood density is thought to arise through ecological interactions between plants and their natural enemies. Thus in a healthy ecosystem, trophic interactions play vital roles as mechanisms driving NDD and are important as dispersers facilitating escape from NDD mortality. However, interruption to ecological processes caused by human activities, such as hunting, can perturb NDD interactions and cause cascading effects throughout an ecosystem. In my thesis I investigate the role of dispersal and mortality in NDD dynamics of tropical tree communities, as well as investigating local and global impacts of removing ecological interactions in tropical rainforests. In my thesis, I begin by addressing the presence and variation in strength of NDD among tree species and ontogenetic stages, the mechanisms driving NDD, and the role of trophic interactions in this process. The Janzen-Connell hypothesis predicts that host-specific natural enemies drive NDD by selectively reducing conspecific density, and increase diversity by suppressing competitive exclusion, thus allowing heterospecifics to persist. In chapters 2 and 3 of this thesis, I show that mortality driven by conspecific NDD is prevalent at the early life stages, and this effect is considerably stronger during the year after germination. Furthermore, this process is driven exclusively by host-specific fungal pathogens, which cause mortality selectively among conspecifics and drive diversity. As seedlings age beyond their first year, NDD interactions become less impacted by conspecifics but are impacted by closely related neighbours or by general neighbourhood density, representing changes in the mechanism driving NDD as seedlings age, and a decline in host-specificity of natural enemies. Equally, relative growth rates (RGR) are reduced under high neighbourhood density irrespective of species identity. Results suggest insect herbivores are the strongest driver of reduced RGR but not mortality under increased neighbourhood density. As a consequence of stronger inter than intra-specific NDD effects on RGR, insects had no impact on seedling diversity in the short term. This study supports assertions that regionally rare species experience stronger NDD than common species, accounting for the high variability in species relative abundance in the tropics. In the second part of my thesis, I address the role of large vertebrate dispersers in shaping tropical tree communities and the consequences of defaunation for tree assemblage and carbon storage. Dispersal allows seeds to escape NDD and persist to reproductive maturity and is therefore vital for the maintenance of diversity. Vertebrates disperse the seeds of more than 70% of neo-tropical tree species. However, many large vertebrates are becoming scarce due to widespread hunting. The decline of large vertebrates and their role as dispersers is predicted to alter tree community composition. Additionally, large vertebrates are responsible for the dispersal of large-seeded species, which are linked to species with high wood density. With wood density positively associated with carbon storage, there is a potential cascading influence of defaunation on global carbon storage. We investigate the consequences of declining large vertebrate mortality agents in chapter 3, and the consequences of declining large vertebrate dispersers in chapters 4 and 5. Although community composition is altered in a defaunated forest, species dispersed by extirpated fauna do not appear to drive this. In fact we find that many species thought to be heavily reliant on extirpated fauna manage to persist. Although it is thought that the simultaneous loss of seed predation from large terrestrial vertebrates may create compensatory effects, we found little support for this, with an absence of large terrestrial vertebrates driving only temporary changes to species diversity. Neither a loss of large frugivores or large-seeded species lead to declines in species with high wood density, but we detect a worrying decline in large stemmed species, which has negative implications for carbon storage. Overall, my thesis highlights the importance of NDD and trophic interactions, particularly fungal pathogens, at the early life stages in shaping tropical tree communities and in maintaining diversity. I provide evidence that the removal of trophic interactions among larger natural enemies and dispersers does not impact community assemblage in the directional manner found in previous studies. I provide evidence for the variability in response to trophic interactions among species and ontogenetic stages. I show disproportionate relative importance among natural enemies and dispersers in the maintenance of tropical tree assemblage, with implications for conservation and for assessing the consequences for tree diversity under the influence of degradation.