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Biogeografia de bactérias da filosfera de Maytenus robusta na Mata Atlântica / Biogeography of bacteria from the phyllosphere of Maytenus robusta in the Atlantic ForestWinston Franz Rios Ruiz 21 December 2010 (has links)
A biogeografia estuda a distribuição dos organismos em relação ao espaço e ao tempo, favorecendo a compreensão dos mecanismos que geram e mantém a diversidade, especiação, extinção e dispersão das espécies. Dentre as florestas tropicais, a Mata Atlântica constitui um mosaico vegetal de grande diversidade, onde a filosfera representa um dos habitats mais comuns para os microrganismos. O objetivo do presente trabalho foi avaliar a estrutura e diversidade da comunidade bacteriana da filosfera de Maytenus robusta no Parque Estadual Carlos Botelho, Parque Estadual Ilha do Cardoso e Estação Ecológica de Assis, no estado de São Paulo, Brasil. As folhas foram coletadas em duas épocas do ano, seca e chuvosa. A estrutura da comunidade bacteriana foi avaliada através de PCR-DGGE da região V3 do gene rRNA 16S e a diversidade por sequenciamento da região V1-V3 do mesmo gene. A similaridade entre a estrutura de comunidades de Bacteria foi determinada com base na presença ou ausência das bandas detectadas no gel após PCR-DGGE. O agrupamento hierárquico gerado com o coeficiente de Jaccard e o método UPGMA mostrou a existência de comunidades bacterianas distintas na filosfera de M. robusta nas áreas amostradas. A existência de padrões biogeográficos foi determinada através de análises de regressão, usando os dados de similaridade da estrutura das comunidades bacterianas e os de distância geográfica entre as árvores amostradas. A correlação negativa observada nas avaliações fornece evidências para suportar a hipótese de que a similaridade entre as comunidades bacterianas da filosfera de plantas da mesma espécie diminui com o aumento da distância entre as árvores, dentro de um mesmo bioma. A avaliação espaço temporal da composição da comunidade bacteriana, realizada pela análise NMDS, demonstrou que houve efeito espacial mas no temporal na estrutura das comunidades bacterianas da filosfera de M. robusta. A afiliação taxonômica de 1.470 sequências de clones do gene rRNA 16S de Bacteria, obtidas da filosfera de M. Robusta, nas diferentes áreas e épocas, e a comparação múltipla das bibliotecas, mostraram que as comunidades bacterianas na filosfera foram distintas umas das outras, sendo os filos Proteobacteria e Acidobacteria os mais frequentes. Somente 1% das Unidades Taxonômicas Operacionais foram comuns entre os indivíduos avaliados. Com base nos resultados obtidos, pode-se inferir que, em cada bioma, plantas da mesma espécie possuem comunidades bacterianas únicas, sugerindo a existência de endemismo, altos níveis de especiação e baixa dispersão das comunidades bacterianas nas áreas avaliadas. / Biogeography studies the distribution of organisms in relation to space and time, favoring the understanding of the mechanisms that generate and keep the diversity, speciation, extinction and dispersion of species. Among the tropical forests, the Atlantic Forest constitutes a highly diverse vegetation mosaic, in which the phyllosphere represents one of the most common habitats for microorganisms. The goal of this work was to evaluate the structure and diversity of the bacterial community from the phyllosphere of Maytenus robusta in the Carlos Botelho State Park, Ilha do Cardoso State Park and Assis Ecologic Station, São Paulo state, Brazil. The leaves were collected in two different seasons of the year, dry season and rainy season. The structure of the bacterial community was evaluated through PCR-DGGE of the 16S rRNA gene V3 region, and the diversity by sequencing of the V1-V3 region of the same gene. The similarities between the structures of the bacterial community were determined based on the presence or absence of bands detected in the gels after PCR-DGGE. The hierarchical clustering generated using the Jaccard coefficient and the UPGMA method showed the existence of distinct bacterial communities in the M. robusta phyllosphere of the sampled areas. The existence of biogeographic patterns was determined through regression analyses, using the community structure similarity data geographic distance among the sampled trees. The negative correlation observed in most of the cases provides evidence to support the hypothesis that the similarity between the bacterial communities from phyllosphere of plants of the same species decreases as the distance among trees increased, within the same biome. The spacial-temporal evaluation of the structure of the bacterial communities, performed by the NMDS analyses, showed the occurrence of spacial but not temporal effects on the structure of the bacterial communities of M. robusta phyllosphere. The taxonomic affiliation of 1,470 bacterial 16S rRNA gene clones obtained from the M. robusta phyllosphere, in different areas and seasons, as well as the multiple comparisons of libraries showed that the bacterial communities in the phyllosphere were distinct from each other, and that Proteobacteria and Acidobacteria phyla were the most frequent. Only 1% of the bacterial Operational Taxonomic Units were common among the individuals evaluated. Based on the results obtained it is possible to conclude that, in each biome, plants of same species have unique bacterial communities, suggesting the existence of endemism, high levels of speciation and low dispersal of bacterial communities in the evaluated areas.
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Vochysiaceae na região do Planalto de Diamantina e padrões de distribuição geográfica das espécies na Cadeia do Espinhaço, Brasil / Vochysiaceae from the Diamantina Plateau and geographic distribution patterns of the species in the Espinhaço Range, BrazilGonçalves, Deise Josely Pereira, 1986- 23 August 2018 (has links)
Orientador: João Semir / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-23T08:39:18Z (GMT). No. of bitstreams: 1
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Previous issue date: 2013 / Resumo: O resumo poderá ser visualizado no texto completo da tese digital / Abstract: The abstract is available with the full electronic document / Mestrado / Biologia Vegetal / Mestra em Biologia Vegetal
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Contributions to the ecology of Maputaland, southern Africa, with emphasis on Sand ForestMatthews, Wayne Sidney 08 June 2007 (has links)
The principal hypothesis of this thesis was that the Maputaland Centre of Plant Endemism [MC] is characterised by plant communities that match a particular set of environmental variables, and their rich biodiversity with endemic and rare taxa reflecting the geomorphological history of the region. Data assembled supports the hypothesis. Vegetation studies highlighted two plant communities, endemic to the MC as being an important component of the region’s biodiversity, namely Sand Forest and Woody Grassland. A broad approach to the floristic classification of vegetation was adopted for information on the floristics patterns and diversity of the endemic/rare plants and plant communities of the MC. A hierarchical classification, description and ecological interpretation of the plant communities of the Tembe Elephant Park, Sileza Nature Reserve and surrounding areas are presented. Much of the vegetation distribution can be ascribed to the level of the water table, vegetation dynamics and historic evolution of the geomorphology of the region. The hypothesis is presented that Sand Forest may have allelopathic effects on its environment. Data of exploratory germination trials are presented to test this hypothesis. Sand Forest soil inhibits the emergence of seedlings, the inhibiting effect decreasing progressively from Sand Forest through grassland to woodland. Sand Forest was defined as a community, and its possible dynamics are described. Ideas were formulated (albeit largely hypothetical) on the likely origin of this vegetation type. It is proposed that ancient Dune Forest is the precursor of Sand Forest, but that Sand Forest has subsequently become a separate functioning plant community on its own. Sand Forest appears to be a relictual vegetation type of which the historical factors responsible for it’s original establishment and expansion are currently no longer present in the region. The use of woody species by elephant in different vegetation types in Tembe Elephant Park was investigated. A classification of species into utilization categories was produced which enabled assessment of the importance of different species to elephants, and also of the potential impact of elephants on different tree species. Management implications are highlighted. / Thesis (PhD (Botany))--University of Pretoria, 2007. / Plant Science / unrestricted
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Community-level effects of fragmentation of the afromontane grassland of the escarpment region of Mpumalanga, South AfricaKamffer, Dewald 24 November 2004 (has links)
The biological diversity of the planet is at great risk as a direct result of an ever-expanding human population and its associated activities. Landscape transformation to accommodate such activities leads to habitat loss and habitat fragmentation, often creating patches of relatively undisturbed habitat within a matrix of transformed areas that are often too small too support most species previously occupying the area and as a result loses its ecological integrity. A century ago the escarpment region of Mpumalanga consisted of large open plains covered with montane grassland dissected by montane forests and riparian vegetation alongside mountain streams. Today the grasslands and forests have almost disappeared from the area, the remaining patches mostly small fragments within a matrix of exotic tree plantations which have also dried up many of the rivers and streams in the area. The natural grassland areas persisting in the region are unique in habitat characteristics and floral species composition. It is also high in plant species richness, diversity and endemicity. The high degree of isolation experienced by these floral communities poses serious threats to both the floral and faunal species that currently exits within these isolated ‘islands’, many of which are endemic to the area and at great risk of extinction. These risks call for serious collaboration between the land owners (mostly forestry companies) and conservationists to assure the practical and necessary preservation and management of this unique and crucially valuable natural resource. This study aims to provide the first step into understanding the ecological principles associated with habitat fragmentation related specifically to the mountain grassland fragments within the afforestation matrix of the escarpment region of Mpumalanga, and to create a platform for the process of collaboration between land owners and conservation agencies to assess and manage these grassland patches. The aims of Chapter 2 included: 1 To determine if any marked human-induced disturbance to the plant communities in the grassland fragments has occurred. I do this in three ways: a) To compare the plant community composition of eighteen fragments with those of six control plots outside of the plantations where no marked disturbance to the grassland can be observed. b) To determine whether the plant assemblages in the fragments can be assigned to any of the natural and intact plant communities that Matthews (1993) described from a large-scale survey of undisturbed mountain areas. c) To determine the presence of any known intruder plant species within the fragments. 2 To assign conservation priorities to the remaining grassland fragments. The results obtained from the TWINSPAN analysis revealed six alliances of plant communities grouped hierarchically into four orders and two major classes of montane grassland. The DECORANA supported these results, indicating clear differences between communities 1.1 (Eriosema salignum – Loudetia simplex grassland of the wetter North region), 1.2 (Lobelia erinus – Panicum natalense grassland of the Transitional region), 2.1 (Parinari capensis – Eragrostis racemosa grassland) and 2.2 (Helichrysum rugulosum – Eragrostis racemosa grassland). Different plant communities revealed different combinations of geological characteristics, slope, aspect and elevation. The sample plots of isolated grassland fragments and those of large unfragmented areas compare well with each other - the species richness of experimental and control plots do not differ significantly. Also, the species composition of plots from the Wetter North, Transitional and Drier South regions show more variation than is evident between experimental and control plots. There was also good qualitative comparisons (quantitative comparisons were not possible as a results of sampling and analytic discrepancies) between the sample plots used in this study and the plant communities described by Graham Deall and Wayne Matthews. Some evidence of exotic invader plants was found within the sample plots, notably Pteridium aquilinum. Fortunately such species were localized in their distribution and restricted to community 1.1.2.2. The aims of Chapter 3 included the following: 1. To compare the faunal biodiversity in grassland fragments within afforested areas to that of control plots in large, relatively undisturbed grassland areas. 2. To determine to which degree the Coleoptera, Orthoptera, Lepidoptera and bird communities reflect recognized plant communities, and are restricted to specific plant communities. 3. To compare the habitat specificity (degree of stenotopy) of the different taxonomic groups and trophic levels of animals. 4. To make recommendations for the conservation of the Afromontane grassland fauna in the remaining grassland fragments in afforested areas. The sampling of 15602 beetles, grasshoppers and crickets were collected, with an average of 3900 per sampling period, revealed unique combinations of animal species linked to the different plant communities mentioned above. Significant differences were evident from the one-way analyses of similarity (ANOSIM) used to compare the faunal community structures of sample plots of the Wetter North, Transitional and Dryer South regions. The faunal community structures of the experimental and control plots of the Wetter North and Transitional regions did not differ significantly. The indexes of habitat specificity (fractions of species constricted to certain plant communities) indicated that the plants and butterflies were more habitat-specific than the Coleoptera, Orthoptera and Birds. The carnivorous insects showed a surprisingly high level of habitat specificity compared to the relatively low level of the phytophagous insects. This surprising trend was also evident in various insect families – Acrididae, Scarabaeidae and Nymphalidae had relatively high levels of habitat specificity compared to that of the Curculionidae and the Chrysomelidae. Chapter 4 has the following aims: 1. To quantify the effect of several environmental characteristics (slope, rainfall, geology, etc) on the faunal community structure of the grassland fragments. 2. To quantify the effects of degree of isolation on species richness, species diversity and assemblage structure of plants, insects and birds in grassland remnants. 3. To test for the effects of edges on the extant insect biodiversity in the grassland fragments inside plantations. 4. To quantify the effects of fragment size on species richness, species diversity and assemblage structure of plants, insects and birds. 5. To rank the grassland fragments in an order of conservation importance using factors such as biodiversity and uniqueness of the floral community. No clear relationship between fragment size and area sampled and species richness and/or – diversity was evident from the results. Indeed, the smallest area sampled had the fourth highest species richness and the largest area sampled had the fourth lowest species richness and species diversity. Regressions results did not show any significant effects of the geographical area sampled on the biodiversity estimates of the fragments. Therefore I assume that the estimates arrived at for the area sampled within each fragment is representative of that of the complete fragment. The Detrended correspondence analysis (DCA - using square root transformed abundance data) used, indicated the need to perform a gradient analysis using a redundancy analysis (RDA). The permutation test resulting from this analysis revealed a non-significant value for the first canonical axis, but a significant value for the first four canonical axes together. The ten species contributing the most to above-mentioned result include two Scarabs (Scarabaeidae – Aphodius sp 1 and Melolonthinae sp 2), two weevils (Curculionidae – Eudraces sp 1 and Curculionidae sp 42), one leaf beetle (Chrysomelidae – Asbecesta near capensis), one darkling beetle (Tenebrionidae – Lagria sp 1), one longhorn beetle (Cerambycidae – Anubis scalaris), one jewel beetle (Buprestidae – Buprestidae sp 1), one ladybird (Coccinellidae – Coccinellidae sp 4) and one Dor beetle (Bolboceratidae – Mimobolbus maculicollis). Of these ten beetles only three are not restricted to the Drier South Region (Anubis scalaris – Wetter North and Drier South, Lagria sp 1 – throughout and Eudraces sp 1 – throughout). The associated stepwise multivariate regression showed distance to the nearest grassland to be the only environmental characteristic to significantly influence the faunal community structure of the fragments. Slope was the environmental characteristic with the smallest effect. In contrast with the results from redundancy analysis, the analysis of similarity (ANOSIM) and t-tests did not reveal significant differences in the faunal community structure of fragments closer to – and further than one kilometre from the nearest grassland neighbour. This trend was the most evident for fragments of the Transitional region and the least obvious for the fragments of the study area as a whole. The SIMPER analysis showed that of the ten species contributing most to the dissimilarity between insect communities of fragments closer/further than one kilometre from the nearest grassland neighbour, eight were also in the group of ten species characterizing the faunal communities of either/both groups (contributing towards similarity). The insect communities found at 10, 20 and 50 metres from the edge of the grassland fragments did not differ significantly, nor did an ANOSIM performed separately for each of the three major plant communities reveal any significant edge-related differences. The ANOVA results for the individual species revealed only one (of 57 - in the Transitional region) having a distribution that differs significantly with respect to distance from the habitat edge:Eremnus sp. 2 was only found at 10 metres from the edge of the fragment, close to the plantations. Of all the groups, only bird diversity, bird richness and general faunal diversity showed significant relationships with fragment size. There was a non-significant trend for insects to biodiversity to be reduced in very small fragments. Most of the botanical data exhibited no significant relationship with fragment size. The species composition of control sites were not found to be significantly different from that of experimental fragments for all the faunal groups pooled together or for the fragments of the Transitional Region and the Wetter North Region. Using the four separate scores for birds, butterflies, beetles and grasshoppers, each fragment was assigned a total conservation score. The twenty-four fragments were then ranked in order of conservation importance. Fragments of the Wetter North had an average score of 65.3, fragments of The Transitional Region 66.6 and fragments of the Drier South 52.3. The results relating to this study has lead to the following conclusions: o It is concluded that afforestation and habitat fragmentation have not significantly impacted on the flora of the montane grassland of the study area since many of the grassland fragments surrounded by plantations are still easily identifiable as natural communities, described by Matthews and Deall in broader-scale surveys in the past. Also, no obvious invader – or disturbed plant communities are discernible even though some of them have been isolated for as long as 40 years. o The plant communities of conservation importance described by Matthews coincide with the important communities recognized in this study. Rare and endangered plant species, as well as species endemic to the region, are more often than not found on the scarce Black Reef quartzite of the region, which is more evident to the Northern part of the study area. Communities 1.1 and 1.2.2 are therefore of particular conservation importance, not only as a result of their scare geological base, but also because of the high risk associated with the few grassland examples left of these communities. o The high levels of habitat specificity of many of the taxonomic and trophic faunal groups indicate that many of the invertebrate taxa are probably endemic to the region, and that the plant endemicity encountered in the Afromontane grasslands is reflected by a similar degree of animal endemicity. o The similarity in faunal assemblages and diversity between isolated fragments and large areas of grassland emphasizes the conservation importance of the fragments, even when smaller than 5 Ha in extent. o Appropriate management of the grassland fragments within the plantations is therefore important for the conservation of the plant and animal taxa encountered there. Experimental management involving grazing, mechanical cutting, grazing and burning is needed to decide on an efficient management regime, so that the grassland biodiversity can be conserved in a planned way. Such work will also allow empirical testing the efficiency of the indicator species suggested above. o Isolated grassland fragments in this study represent largely unaffected natural plant and insect communities, differing little from large unfragmented grasslands in the study area. o Fragments found within afforested areas therefore have a high conservation importance, since they represent ‘natural’ grassland areas and are often the only representative of a particular plant community left in the area. o No significant edge effects on the faunal communities 10, 20 and 50 metres from the fragments’ edges exist as a result of afforestation in the area. o Birds (and probably other vertebrates in these grasslands) are affected by fragment size, while invertebrates are much less affected and plants do not show any measurable effect of fragment size. o Fragments in the wetter northern part of the study area, characterized by high levels of plant endemicity, have a higher conservation importance as judged by faunal biodiversity. / Dissertation (MSc (Zoology and Entomology))--University of Pretoria, 2005. / Zoology and Entomology / unrestricted
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Warming Overcomes Dispersal-Limitation to Promote Non-native Expansion in Lake BaikalBowman, Larry L., Jr., Wieczynski, Daniel J., Yampolsky, Lev Y., Post, David M. 12 August 2022 (has links) (PDF)
Non-native species and climate change pose serious threats to global biodiversity. However, the roles of climate, dispersal, and competition are difficult to disentangle in heterogeneous landscapes. We combine empirical data and theory to examine how these forces influence the spread of non-native species in Lake Baikal. We analyze the potential for Daphnia longispina to establish in Lake Baikal, potentially threatening an endemic, cryophillic copepod Epischurella baikalensis. We collected field samples to establish current community composition and compared them to model predictions informed by flow rates, present-day temperatures, and temperature projections. Our data and model agree that expansion is currently limited by dispersal. However, projected increases in temperature reverse this effect, allowing D. longispina to establish in Lake Baikal’s main basin. A strong negative impact emerges from the interaction between climate change and dispersal, outweighing their independent effects. Climate, dispersal, and competition have complex, interactive effects on expansion with important implications for global biodiversity.
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Evoluční vztahy tetraploidních zástupců skupiny Galium pusillum (sekce Leptogalium) na území střední Evropy. Alopatrická diferenciace českého endemického druhu G. sudeticum. / Evolutionary history of tetraploid representatives Galium pusillum group (sect. Leptogalium) in central Europe. Allopatric differentiation of Czech endemic species G. sudeticumKnotek, Adam January 2014 (has links)
The presented study tries to reveal the evolutionary history of polyploid complex Galium pusillum aiming on a rare czech endemic species G. sudeticum, an ideal model to study allopatric speciation in the context of Central European (post)glacial development. The species G. sudeticum grows in Krkonose Mts. and on serpentines in western Bohemia (Slavkovský les) more than 200 kilometers away. Our morphological and molecular data suggest a clearly different history of its two isolated areas. The populations in Krkonose Mts. are probable relics of mountainous species G. anisophyllon which was there on its northern border of occurence and hybridized with lowland species G. valdepilosum during postglacial vegetations shifts. This fact is well supported by intermediate position of Krkonose Mts. populations in both morphological and molecular AFLP analyses and by sharing the same chloroplast haplotype with geographically close lowland populations. On the other hand the serpentine lowland populations in western Bohemia are both morphologicaly and genetically indistinguishable from G. valdepilosum. Distinct genetic lineage of few populations belonging to G. valdepilosum (incl. one traditionaly referred as G. sudeticum) was found in western Bohemia and Bavaria, located on relic stands (calcareous and serpentine...
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Využití Biologické olympiády ve školách a zařazení vybraných úloh do výuky na gymnáziích. / Utilization of Biology Olympiad in schools and implementation of selected tasks into highschool teaching.Dvořáková, Darina January 2012 (has links)
This thesis deals with the Biology Olympiad and remaking of selected tasks of region round. The remaked tasks can be used in highschool education. The thesis includes theoretical and practical part. The theoretical part provides general information about the Biology Olympiad (BiO), charts the achievements of Czech students in International Biology Olympiad (IBO), includes literary review of selected topics. The practical part encompass four remaked tasks of different topics: Eucaryotic cell as a mosaic, Water in life of animals, Animals' areas and their distribution, History of the flora in Czech Republic. The tasks are processed in the form of worksheets. The worksheets were tested at schools. Knowledge of students was tested by using of created pretests and posttests. The practical part also presents the result of research based on a questionnaire survey focused on the involvement of school in BiO and teachers' opinions on these topics.
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Eficiência dos métodos de codificação em análises de endemismo: um exemplo do Oceano Atlântico Sul-Ocidental / Efficiency of coding methods in endemicity analyses: an example of the South-Western Atlantic OceanGuerrero, Adriana Marcela Morales 09 March 2016 (has links)
Área de endemismo ou elemento biótico é uma região geográfica que apresenta congruência distribucional entre táxons. Não há um padrão aceito universalmente para delimitação de áreas de endemismo e, portanto, várias metodologias são usadas para sua identificação. Nesta dissertação, propomos uma comparação integrada de alguns métodos de análises de endemismo, com base em dados de distribuição hipotéticos e reais. Desta forma, este estudo tem como objetivos: (1) comparar a Análise de Parcimônia de endemicidade (PAE), a Análise de endemicidade (EA) e um novo método de codificação que propomos a Análise de Distribuições de Três-Itens (3ID), avaliando sua performance com base na capacidade de identificar padrões hipotéticos predefinidos de áreas de endemismo, representando áreas não conflitantes, aninhadas e sobrepostas; (2) analisar os padrões de distribuição de 214 espécies de hidrozoários bentônicos, pelágicos e benthopelágicos não-sifonóforos do Oceano Atlântico Sul Ocidental (OASO), usando três métodos biogeográficos para testar hipóteses anteriores de regionalização biogeográfica e avaliar o performance da PAE, a EA e a 3ID com conjuntos de dados reais. No capítulo 2, intitulado “Comparison of analysis of endemism procedures based on hypothetical distributions”, nós comparamos a PAE, EA e 3ID e encontramos que a 3ID tem o maior percentual de sucesso na recuperação de áreas de endemismo predefinidas. Adicionalmente, a EA é o único método capaz de recuperar padrões sobrepostos, porém também encontra padrões espúrios. Nós sugerimos, portanto, que a melhor opção para identificação de áreas de endemismo é o uso de 3ID e EA em conjunto. No capítulo 3, intitulado “Biogeographic patterns of benthic and planktonic hydrozoans from the southwestern Atlantic Ocean”, nós utilizamos dados distribucionais de 214 espécies de hidrozoários bentônicos, pelágicos e bentopelágicos não-sifonóforos do OASO (20°-60°S, 33°-75°W), os quais foram organizados em diferentes matrizes (concatenada, bentônica, pelágica, e bentopelágica) de acordo com as diferentes estratégias de ciclo de vida em Hydrozoa. Todas as matrizes foram analisadas por meio da PAE, EA e 3ID. Os resultados mostram três padrões biogeográficos gerais: (1) Tropical (2) Temperado-Quente, e (3) Temperado-Frio. Os padrões obtidos variam de acordo com o tipo de ciclo de vida em Hydrozoa, demonstrando a importância de analisar-se separadamente conjuntos de dados de espécies com diferentes estratégias de reprodução. Cada método teve um desempenho diferente e, portanto, concluímos que o uso de 3ID e EA em conjunto é a melhor opção para inferir padrões biogeográficos marinhos / Areas of endemism or biotic elements comprise regions delimited by more than one taxon with coincident patterns of distribution. There is not an accepted universal protocol for delimitation of areas of endemism, and therefore, they are identified by several different methods. In this study, we propose an integrative comparison of different methods for identification of areas of endemism based on data of hypothetical and real distributions. Therefore, the general aims of this study are: (1) to compare the Parsimony Analysis of Endemicity (PAE), the Endemicity Analysis (EA) and a new coding method that we propose, the Three-Item Analysis of Distributions (3ID) to contrast their performance based on their ability to identify hypothetical predefined areas of endemism representing non-conflicting, nested and overlapping patterns; (2) to analyze the patterns of distribution of benthic, pelagic and benthopelagic non-siphonophore hydrozoans of the Southwestern Atlantic Ocean (SWAO), to test previous biogeographic hypotheses of regionalization for the area and to evaluate the performance of the endemicity methods based on real datasets. In chapter 2, entitled “Comparison of analysis of endemism procedures based on hypothetical distributions”, we compared the performance of PAE, EA and 3ID, and we found that 3ID has the greatest percentage of success in retrieving predefined areas of endemism. EA is the only method that recovers overlapping patterns, but it can also find spurious patterns. We recommend the use of 3ID together with EA as the best available option for hypothesizing areas of endemism. In chapter 3, entitled “Biogeographic patterns of benthic and planktonic hydrozoans from the southwestern Atlantic Ocean”, we used the distribution 214 hydrozoan species from the SWAO (20°-60°S, 33°-75°W), which were organized in different data matrices (concatenated, benthic, pelagic, and benthopelagic) according to the different life cycle strategies in Hydrozoa. All matrices were analyzed through PAE, EA and 3ID. The resulting areas showed three broad biogeographic patterns: (1) Tropical, (2) Warm-Temperate and (3) Cold-Temperate. The output patterns varied according to the life cycle of hydrozoan species, demonstrating the importance in analyzing separately data of species with different strategies of life cycle. Each method performed differently, and we concluded that the use of 3ID and EA together is the best approach to infer strong biogeographic patterns for the marine realm
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Diversidade florística, dendrologia e dendroecologia em florestas estacionais decíduas do Centro e Norte do Peru / Floristic diversity, dendrology and dendroecology of seasonally deciduous forests of Central and Northern PeruPeña, José Luis Marcelo 15 May 2017 (has links)
Neste estudo analisamos a diversidade e endemismos da flora lenhosa das florestas estacionais decíduas (FEDs) do norte e centro do Perú. Caracterizamos a diversidade das plantas lenhosas ao longo dos vales, para definir os valores de conservação da área a nível nacional. Os resultados indicam que as FEDs do vale do Marañón apresentam valores significativamente altos em endemias em relação às outras FEDs do Perú e FEDs vizinhas e o padrão de endemismos e estrutura populacional das espécies variam no gradiente geográfico e altitudinal. Em constraste, as FEDs do vale do rio Tambo, centro do Perú, são moderadamente ricas em espécies do que a média das FEDs neotropicais e apresentam escassos endemismos. Esta região necessita de mais esforços de pesquisas para conhecer mais profundamente os elementos da biodiversidade. Neste estudo, também realizamos a caracterização dendro-anatômica do lenho das árvores de 87 espécies, sendo o primeiro registro da anatomia da madeira das árvores dos dois vales. Das análises do lenho das 183 espécies registradas nas florestas do norte e centro do Perú, só 157 apresentam anéis de crescimento e precisam ser analisadas em detalhe com outras pesquisas de desenvolvimento cambial e técnicas tradicionais de análises dendrocronológicas. A derivação desta informação pode alcançar alto impacto em estudos de variabilidade climática e aplicações na conservação. Assim mesmo, a análise preliminar dendrocronológica das taxas de crescimento do tronco revelam que as árvores de Cedrela kuelapensis apresentam as taxas de crescimento mais altas e ressaltam como um excelente recurso para programas de reflorestamento nos vales interandinos, além, das populações endêmicas de Cordia iguaguana e Esenbeckia cornuta são principalmente de exemplares jovens. Esperamos que as informações dos cinco capítulos constituam-se uma eficiente e importante ferramenta para melhorar a gestão dos recursos florestais dos vales estudados. / In this study we analyzed the diversity and endemism of the woody flora of Seazonally dry tropical forests (SDTF) in northern and central Peru. We characterized the diversity of woody plants along the valleys to define the conservation values of the area at the national and international levels. The results indicate that the SDTF s of the Marañón Valley show surprisingly high values in endemics in relation to other SDTF s in Peru and neighboring SDTFs, and the pattern of endemism and population structure of the species varies in geographic and altitudinal grades. In contrast, the SDTFs of the Tambo River Valley, central Peru, are moderately rich in species that average the neotropical SDTFs and have scarce endemism. This region needs more efforts to get to know the elements of biodiversity more deeply. In this study, we also performed the dendroanatomic characterization of 87 species and is the first report of the anatomy of the wood for the two valleys. From the analysis of the wood of the 183 species recorded in the forests of northern and central Peru, only 157 have growth rings and need to be analyzed in detail with other studies of exchange rate development and traditional techniques of dendrochronological analysis. The derivation of this information can reach high impact in studies of climatic variability and conservation applications. Likewise, the preliminary dendrochronological analysis of growth rates reveals that Cedrela kuelapensis showed the highest growth rates and stands out as an excellent resource for reforestation programs in the inter-Andean valleys, in addition, Cordia iguaguana and Esenbeckia cornuta endemic populations are mainly from young individuals. We hope that the information in the five chapters constitutes in efficient and important tool to improve the management of forest resources in the valleys studied.
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Etude taxonomique et biogéographique des plantes endémiques d’Afrique centrale atlantique : le cas des Orchidaceae/Taxonomic and biogeographic study of plants endemic to the Atlantic Central Africa : the case of the OrchidaceaeDroissart, Vincent 16 January 2009 (has links)
L’Afrique centrale atlantique (ACA) englobe l’ensemble du domaine bas-guinéen, les îles du Golfe de Guinée et une partie de l’archipel afromontagnard. Plusieurs centres d’endémisme ont été identifiés en son sein et sont généralement considérés comme liés à la présence de refuges forestiers durant les périodes glaciaires. Cependant, l’origine de cet endémisme, sa localisation et les méthodes permettant d’identifier ces centres restent controversées. La localisation de ces zones d’endémisme et des plantes rares qu’elles abritent, est pourtant un prérequis indispensable pour la mise en place de politiques cohérentes de conservation et demeure une priorité pour les organisations privées, institutionnelles ou gouvernementales actives dans la gestion et le maintien durable de la biodiversité.
Cette étude phytogéographique porte sur la famille des Orchidaceae et est basée sur l’analyse de la distribution des taxons endémiques de l’ACA. Elle s’appuie sur un jeu de données original résultant d’un effort d’échantillonnage important au Cameroun et d’un travail d’identification et de localisation de spécimens dans les principaux herbaria européens abritant des collections d’ACA. Durant cette étude, (i) nous avons tout d’abord identifié ces taxons endémiques et documenté leur distribution au travers de plusieurs contributions taxonomiques et floristiques, (ii) nous nous sommes ensuite intéressé aux nouvelles méthodes permettant d’analyser ces données d’herbier de plantes rares et donc pauvrement documentées, testant aussi l’intérêt des Orchidaceae comme marqueurs chorologiques, et finalement, appliquant ces méthodes à notre jeu de données, (iii) nous avons délimité des centres d’endémisme et identifié les territoires phytogéographiques des Orchidaceae en ACA.
(i) Une révision taxonomique des genres Chamaeangis Schltr. et Stolzia Schltr. a été réalisée respectivement. Sept nouveaux taxons ont été décrits: Angraecum atlanticum Stévart & Droissart, Chamaeangis spiralis Stévart & Droissart, Chamaeangis lecomtei (Finet) Schltr. var. tenuicalcar Stévart & Droissart, Polystachya engogensis Stévart & Droissart, Polystachya reticulata Stévart & Droissart, Stolzia repens (Rolfe) Summerh var. cleistogama Stévart, Droissart & Simo et Stolzia grandiflora P.J.Cribb subsp. lejolyana Stévart, Droissart & Simo. Plusieurs notes taxonomiques, phytogéographiques et écologiques supplémentaires ont également été redigées. Au total, nous avons identifié 203 taxons d’Orchidaceae endémiques d’ACA parmi lesquels 193 sont pris en compte pour l’étude des patrons d’endémisme.
(ii) Au Cameroun, les patrons de distribution des Orchidaceae et des Rubiaceae endémiques d’ACA ont été étudiés conjointement. Des méthodes de rééchantillonnage des données (raréfaction) ont été appliquées pour calculer des indices de diversité et de similarité. Elles ont permis de corriger les biais liés à la variation de l’effort d’échantillonnage. Un gradient de continentalité a été observé, les parties côtières étant les plus riches en taxons endémiques d’ACA. Contrairement à la région du Mont Cameroun et aux massifs de Kupe/Bakossi qui ont connu une attention particulière des politiques et des scientifiques, la partie côtière du sud Cameroun, presque aussi riche, reste mal inventoriée pour plusieurs familles végétales.
Cette analyse à l’échelle du Cameroun a également permis de comparer les patrons d’endémisme des Orchidaceae et des Rubiaceae. Les différences observées seraient principalement dues à la présence d’Orchidaceae terrestres dans les végétations basses et les prairies montagnardes de la dorsale camerounaise alors que les Rubiaceae sont généralement peu représentées dans ces habitats. Au sein des habitats forestiers, la concordance entre les patrons d’endémisme des Orchidaceae et des Rubiaceae remet en question l’utilisation des capacités de dispersion des espèces comme critère pour choisir les familles permettant l’identification des refuges forestiers et semble ainsi confirmer la pertinence de l’utilisation des Orchidaceae comme marqueur chorologique.
La distribution potentielle a été utilisée pour étudier en détail l’écologie, la distribution et le statut de conservation de Diceratostele gabonensis Summerh., une Orchidaceae endémique de la région guinéo-congolaise uniquement connue d’un faible nombre d’échantillons. Cette méthodologie semble appropriée pour compléter nos connaissances sur la distribution des espèces rares et guider les futurs inventaires en Afrique tropicale.
(iii) En ACA, les Orchidaceae permettent d’identifier plusieurs centres d’endémisme qui coïncident généralement avec ceux identifiés précédemment pour d’autres familles végétales. Ces constats supportent aussi l’utilisation des Orchidaceae comme marqueur chorologique. La délimitation des aires d’endémisme des Orchidaceae a ainsi permis de proposer une nouvelle carte phytogéographique de l’ACA. Les éléments phytogéographiques propres à chacune des dix phytochories décrites ont été identifiés et leurs affinités floristiques discutées. Les résultats phytogéographiques obtenus (a) soutiennent l’existence d’une barrière phytogéographique matérialisée par la rivière Sanaga entre les deux principaux centres et aires d’endémisme de l’ACA, (b) étendent l’archipel afromontagnard situé principalement au Cameroun au plateau de Jos (Nigeria) et (c) montrent l’importance de la chaîne montagneuse morcelée Ngovayang-Mayombe pour la distribution de l’endémisme en ACA. Cette chaîne de montagne, qui s’étend le long des côtes de l’océan du sud Cameroun au Congo-Brazzaville et qui correspond à plusieurs refuges forestiers identifiés par de nombreux auteurs, est ici considérée comme une seule aire d’endémisme morcelée./
Atlantic central Africa (ACA) covers the Lower Guinean Domain, the four islands of the Gulf of Guinea and a part of the afromontane archipelago. Different centres of endemism have been identified into this area and are usually considered as related to glacial forest refuges. However, the origin of this endemism, the localization of the centres and the methods employed to identify these centres are subject to debate. Yet, the localization of these centres of endemism and the identification of the rare plants they harbor is an essential prerequisite to setting up rational conservation policies, and remains a priority for private, institutional and governmental organizations which are dealing with the sustainable management of biodiversity.
This phytogeographical study focuses on Orchidaceae and analyses the distribution of the taxa endemic to ACA. We use an original dataset resulting from an important sampling efforts and the identification of specimens coming from all the principal herbaria where collections from ACA are housed. During this study, (i) we first identified the taxa endemic to ACA and documented their distribution through several taxonomic and floristic contributions, (ii) we used and developed new methods allowing to correct for sampling bias associated with the use of rare and poorly documented taxa, testing at the same time the use of Orchidaceae as chorological markers, and finally, applying these methods to our dataset, (iii) we delimited the centres of endemism and identified the phytogeographical territories of Orchidaceae in ACA.
(i) A taxonomic revision of Chamaeangis Schltr. and Stolzia Schltr. respectively was carried out. Seven new taxa were described: Angraecum atlanticum Stévart & Droissart, Chamaeangis spiralis Stévart & Droissart, Chamaeangis lecomtei (Finet) Schltr. var. tenuicalcar Stévart & Droissart, Polystachya engogensis Stévart & Droissart, Polystachya reticulata Stévart & Droissart, Stolzia repens (Rolfe) Summerh var. cleistogama Stévart, Droissart & Simo and Stolzia grandiflora P.J.Cribb subsp. lejolyana Stévart, Droissart & Simo. Several additional taxonomic, phytogeographical and ecological notes were also published. We finally identified 203 Orchidaceae taxa endemic to ACA, among which 193 were used to study the patterns of endemism.
(ii) In Cameroon, the distribution patterns of both Orchidaceae and Rubiaceae endemic to ACA were studied. Subsampling methods (rarefaction) were applied to calculate diversity and similarity indices and to correct potential bias associated with heterogeneous sampling intensity. A gradient of continentality was confirmed in Cameroon, the coastal part being the richest in taxa endemic to ACA. The Cameroon Mountain and the Kupe/Bakossi mountain massifs have received a great consideration of politics and scientists. On the contrary, the Southern coastal part of Cameroon, though almost as rich as the Northern part, remains poorly known for several plant families.
This analysis also allowed us to compare patterns of endemism of Orchidaceae and Rubiaceae. The differences observed could be mainly due to the terrestrial habit of some Orchidaceae, which are only found in the grasslands of the highest part of the Cameroonian volcanic line where endemic Rubiaceae are rare. Within forest habitats, the concordance between the patterns of endemism of Orchidaceae and Rubiaceae question the widespread use of dispersal ability as a selection criterion for the families used to identify forest refuges. This also confirms the relevance of Orchidaceae as chorological marker.
Species distribution modelling was used of an in depth study of the ecology, the distribution and the conservation status of Diceratostele gabonensis Summerh., an Orchidaceae endemic to the Guineo-Congolian regional centre of endemism which is only known from very few collections. This method is proved to be appropriate to complete our knowledge on the distribution of rare plant species and to guide the future inventories in tropical Africa.
(iii) In ACA, an analysis of the distribution of endemic Orchidaceae confirmed the presence and location of several centres of endemism previously identified on the basis of other plant families. This result again supports the use of Orchidaceae as a chorological marker. The chorological study of the endemic Orchidaceae allowed us to propose a new phytogeographical map for ACA. Phytogeographical elements for each of the ten phytochoria described were identified and their floristic affinities were also discussed. Our results (a) support the existence of a phytogeographical barrier, materialized by the Sanaga River, between the two main centres and area of endemism of the ACA, (b) extend the limits of the afromontane archipelago to the Jos Plateau in Nigeria and (c) show the importance of the Ngovayang-Mayombe line to explain the distribution of endemism in ACA. This mountainous line, stretching along the ocean coast from Southern Cameroon to Congo-Brazzaville, corresponds to several forest refuges identified by many authors, and is here considered as an unique but discontinuous area of endemism.
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