Global ETD Search

181	Origins of genetic variation and population structure of foxsnakes across spatial and temporal scales ROW, JEFFREY 11 January 2011 (has links) Understanding the events and processes responsible for patterns of within species diversity, provides insight into major evolutionary themes like adaptation, species distributions, and ultimately speciation itself. Here, I combine ecological, genetic and spatial perspectives to evaluate the roles that both historical and contemporary factors have played in shaping the population structure and genetic variation of foxsnakes (Pantherophis gloydi). First, I determine the likely impact of habitat loss on population distribution, through radio-telemetry (32 individuals) at two locations varying in habitat patch size. As predicted, individuals had similar habitat use patterns, but restricted movements to patches of suitable habitat at the more disturbed site. Also, occurrence records spread across a fragmented region were non-randomly distributed and located close to patches of usable habitat, suggesting habitat distribution limits population distribution. Next, I combined habitat suitability modeling with population genetics (589 individuals, 12 microsatellite loci) to infer how foxsnakes disperse through a mosaic of natural and altered landscape features. Boundary regions between genetic clusters were comprised of low suitability habitat (e.g. agricultural fields). Island populations were grouped into a single genetic cluster suggesting open water presents less of a barrier than non-suitable terrestrial habitat. Isolation by distance models had a stronger correlation with genetic data when including resistance values derived from habitat suitability maps, suggesting habitat degradation limits dispersal for foxsnakes. At larger temporal and spatial scales I quantified patterns of genetic diversity and population structure using mitochondrial (101 cytochrome b sequences) and microsatellite (816 individuals, 12 loci) DNA and used Approximate Bayesian computation to test competing models of demographic history. Supporting my predictions, I found models with populations which have undergone population size drops and splitting events continually had more support than models with small founding populations expanding to stable populations. Based on timing, the most likely cause was the cooling of temperatures and infilling of deciduous forest since the Hypisthermal. On a smaller scale, evidence suggested anthropogenic habitat loss has caused further decline and fragmentation. Mitochondrial DNA structure did not correspond to fragmented populations and the majority of foxsnakes had an identical haplotype, suggesting a past bottleneck or selective sweep. / Thesis (Ph.D, Biology) -- Queen's University, 2011-01-11 10:40:52.476 assignment test Ecological Niche Factor Analysis conservation gene flow genetic diversity isolation by distance isolation by resistance least-cost path microsatellite DNA mitochondrial DNA Ontario phylogeography population genetics Radio telemetry reptile spatial auto-correlation surface interpolation
182	Structure génétique de populations montréalaises de salamandres cendrées (Plethodon cinereus) et de salamandres à points bleus (Ambystoma laterale) Noël-Boissonneault, Sarah January 2009 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal Complexe Ambystoma Ambystoma complex Conservation Conservation Diversité génétique Gene flow Flux génétique Genetic diversity Fragmentation de l'habitat Habitat fragmentation Génétique des populations Population genetics Identification moléculaire Molecular identification Microsatellites Microsatellites Salamandres unisexuées Unisexual salamanders Urbanisation Urbanization
183	The Effects of Species Biology, Riverine Architecture and Flow Regime upon Patterns of Genetic Diversity and Gene Flow in Three Species of Northern Australian Freshwater Fish Huey, Joel Anthony, na January 2008 (has links) Understanding patterns of dispersal, the movement of individuals or propagules, among populations of riverine species is imperative to their management and conservation. However, directly estimating dispersal can often be difficult. Therefore, estimates of gene flow, the movement of genes, are often used to infer dispersal among natural populations. In riverine species, gene flow is determined by species biology, riverine architecture and flow regime. While many studies investigate the role of species dispersive strategies by comparing patterns of genetic structure in different species across the same geographic range, few also attempt to investigate the role of the non-biotic influences on gene flow in a comparative manner. Instead, studies regarding landscape processes (river architecture and hydrology) are based upon observations in a single riverine environment and not compared to other catchments that may differ in riverine architecture or hydrology. This study attempts to investigate all three factors influencing gene flow and genetic diversity using a comparative approach. This is done by contrasting two species of freshwater fish in two riverine systems that differ in their hydrological and structural makeup. By comparing patterns of genetic structure for each fish species, the role of species biology (behavioural and physical adaptations) can be explored. Then, by comparing patterns of genetic structure for each species, between riverine systems that differ in their landscape processes, the role of hydrology and riverine architecture in determining genetic structure can be explored. This study employed three different genetic markers to elucidate patterns of genetic structure and genetic diversity. These were, direct sequencing and screening of the control region of the mitochondrial DNA genome, microsatellite loci and allozymes... riverine architecture species biology flow regime genertic diversity gene flow fish species freshwater fish Australia riverine environment genetic structure in fish Lake Eyre Basin Gulf of Carpentaria Basin Neosilurus hyrtlii ambassis macleayi
184	Historic pollen and seed dispersal in fragmented populations of Cariniana estrellensis (Raddi) Kuntze and Cariniana legalis (Mart.) Kuntze / Souza, Francine Beatriz de. January 2018 (has links) Orientador: Alexandre Magno Sebbenn / Resumo: Cariniana estrellensis e Cariniana legalis são uma das maiores árvores dos biomas florestais da Amazônia e Mata Atlântica, sendo atualmente vulneráveis à extinção devido ao intenso desmatamento desses biomas. Estratégias para conservação in situ e ex situ são urgentes e estudos de diversidade genética e fluxo de genes são chaves e para esses propósitos. Assim, investigamos a diversidade genética, a estrutura genética espacial (SGS) e o fluxo histórico de genes em populações fragmentadas de ambas as espécies, utilizando marcadores de microssatélites. Todas as árvores encontradas nas populações foram mapeadas, medidas para o diâmetro na altura do peito (DAP) e amostrado o cambio de casca. O índice de fixação (F), em alguns casos, foi significativamente maior em árvores com menor DAP, indicando que as árvores menores apresentam um maior parentesco do que as maiores. Foi detectada SGS significativa para populações de ambas as espécies (60-350 m), indicando um padrão de dispersão de genes de isolamento pela distância (IBD). Para ambas as espécies, foi observada alta imigração de semente (38,5-61,5%) e pólen (80,1-100%), mostrando que as populações não são isoladas geneticamente. Não foi detectada autofecundação, mas o cruzamento entre árvores relacionadas foi detectado nas espécies (8,9-12,5%), sugerindo uma seleção mais forte contra árvores de autofecundação do que se originou do cruzamento entre árvores relacionadas. A distância de dispersão de pólen e sementes em C. estrellensi... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Cariniana estrellensis and Cariniana legalis, two of the largest trees in the Amazon and Atlantic Forest biomes, are currently vulnerable to extinction due to the intense deforestation of these biomes. Strategies for in and ex situ conservation are urgent, and studies of genetic diversity and gene flow are key aspects needed to develop these strategeis. Thus, we investigate the genetic diversity, spatial genetic structure (SGS), and historical gene flow in fragmented populations of both species, using microsatellite markers. All trees found in the study populations were mapped, measured for diameter at breast height (DBH), and sampled for bark cambium. Our results show that in some cases, fixation index (F) was significantly higher in trees with lower DBH, indicating that smaller trees have higher levels of inbreeding than larger ones. Significant SGS was detected in populations of both species (60-350 m), indicating a gene dispersal pattern of isolation by distance (IBD). For both species, we found high seed (38.5-61.5%) and pollen (80.1-100%) immigration demonstrating that populations are not genetically isolated. No self-fertilization was detected, but we did find evidence of mating among related trees (8.9-12.5%), suggesting stronger selection against selfed individuals than those originated from mating among relatives. Pollen and seed dispersal distance for C. estrellensis reached longer distances (> 3 km) than for C. legalis (maximum of 385 m). However, pollen and seeds... (Complete abstract click electronic access below) / Doutor Conservação genética in situ Espécies arbóreas tropicais Fluxo gênico histórico Marcadores microssatélites Análise de parentesco Tamanho efetivo populacional Effective population size Historical gene flow In situ genetic conservation Microsatellite loci Parentage analysis Tropical tree species
185	Metapopulations dynamics and sex-specific resource allocation in Silene dioica Peedu, Elisabet January 2018 (has links) Rising archipelagos provide unique settings for the study of the temporal and spatial dynamics of their biota. This offers the possibility to study the ecology and genetics of early successional processes; both between islands that differ in age and within islands when already established organisms have to keep pace with the changing environment. I have worked in the Skeppsvik Archipelago housing about 100 islands that due to land uplift vary in age, thus representing various stages of primary succession. I have utilized a naturally created metapopulation of Silene dioica, which in this archipelago is a dominant plant of the deciduous border, offering the possibility to study subpopulations on islands of different ages and in different phases of primary succession. Many plant species exist as metapopulations, which consists of many local populations which may differ in size and degree of connectivity. Metapopulations are further characterized by recurrent colorizations and extinctions of local populations, meaning that a species continually must disperse and relocate to allow for persistence in this system. For a dioecious plant species, gene flow is in the shape of seeds and pollen and to allow for the persistence of populations, it is necessary that levels of seed dispersal and pollen gene flow are enough to ensure both colonisation, establishment and subsequent population growth. Levels of seed dispersal and pollen gene flow is in turn influenced by how the two sexes partition resources between reproduction, growth and survival. In paper I, I combined a field survey, a common garden experiment and a nine-year demographic study to assess the demographic consequences of sex-specific resource allocation and to investigate if differential costs of reproduction may be a driver in the evolution of sexual dimorphism in dioecious Silene dioica. Significant somatic intersexual dimorphism was found with females being the larger sex, both in terms of above – and belowground biomass. Furthermore, the reproductive effort of females exceeds that of males across a growing season which largely confirms what has been observed earlier in dioecious, herbaceous plant species. According to the cost of reproduction hypothesis, high reproductive investment should result in trade-offs with somatic and/or life-history traits. Somatic trade-offs were not observed, and instead I found strong, positive associations between reproductive investment and vegetative growth in both males and females. Compensation mechanisms were found in both sexes although females are generally more efficient at compensating their reproductive costs. At the end of a flowering season, after having paid the current costs of reproduction, females are better than males at provisioning perennial roots and rosettes potentially influencing the ability to set future flower buds and winter survival. Trade-offs were found between current and future reproduction and survival, but this is condition dependent and compensation through frequency of flowering plays an important role. The cost of reproduction hypothesis appears to play some role in driving the somatic and demographic sexual dimorphisms observed in this system but sexual selection acting on males will be a fruitful avenue for future research. In paper II, I investigated the population genetic consequences of metapopulation dynamics in Silene dioica. The occurrence of islands in different phases of primary succession together with successional gradients across islands, makes it possible to investigate the genetic dynamics occurring in an age-structured metapopulation across several hierarchical levels. Genetic diversity and differentiation were estimated in eight young, recently colonised populations and in ten populations of an intermediate successional stage. Young populations were less genetically diverse compared to older populations, indicating that bottlenecks, created by small founding groups derived from a limited number of source populations, reduce the genetic diversity within newly founded populations. The observation of strong genetic structure both between islands and between patches with islands, indicates that gene flow is restricted across several spatial levels in this system. However, the lack of statistically significant differences in genetic differentiation between young and intermediate populations, indicates that levels of gene flow may not be high enough to reduce the genetic differentiation that arise from the initial founder event. The patterns of sexual dimorphism and the roles of males and females in Silene dioica have evolved to allow persistence in an ecological and population context of this species. The nature of this habitat, where islands rise up from the sea creating new environments for colonisation while at the same time, autogenic primary succession processes eventually leads to extinction, means that S. dioica continuously must relocate within successional phases for its persistence. The obvious success of this dioecious plant is apparent as it is one of the few dominant species in the deciduous border. This suggests that levels of seed dispersal and gene flow are sufficient enough to allow for establishment and persistence of island populations and that the sexual dimorphisms that have evolved in this metapopulation system act to increase levels of gene flow. The "live hard – die young" strategy, with extensive flowering bouts, which we find in the males may have evolved as a way of maintaining sufficient levels of genetic diversity in the metapopulation but will only be a possible strategy if there are continuous opportunities for re-establishments. Thus, the continuous land uplift that is occurring in the northern part of the Gulf of Bothnia may very well be a prerequisite for the long-term persistence of this dioecious, perennial plant species. / Landhöjningsprocesser i skärgårdsmiljöer skapar nya habitat som gör det möjligt att studera naturliga populationer i ett rumsligt och tidsmässigt sammanhang. Detta möjliggör studier av ekologi och genetik i tidiga successionsprocesser, både mellan öar som skiljer sig åt åldersmässigt och inom öar, där redan etablerade organismer måste anpassa sig till en föränderlig miljö. Jag har utfört studier i Skeppsviks skärgård som rymmer cirka 100 öar. På grund av landhöjningen så varierar dessa öar i ålder och de representerar således olika stadier i primärsuccession. Jag har använt mig av en naturlig Silene dioica metapopulation lokaliserad i Skeppsviks skärgård. Många växtarter existerar i metapopulationer, vilket består av ett antal lokala populationer som kan skilja sig åt i storlek och grad av anknytning. Metapopulationer kännetecknas även av återkommande koloniseringar och utrotningar av lokala populationer, vilket innebär att en art kontinuerligt måste sprida sig för att garantera sin fortlevnad i detta system. Genflöde inom dioika växtarter är i form av pollen och frön, och för att populationer skall kunna överleva så är det nödvändigt att nivåerna av fröspridning och pollen-genflöde är tillräckliga för att säkerhetsställa både kolonisering, etablering och efterföljande populationstillväxt. Nivåer av fröspridning och pollen-genflöde påverkas i sin tur av hur de två könen partitionerar resurser mellan reproduktion, tillväxt och överlevnad. I den första studien har jag kombinerat en fältundersökning, ett frilandsexperiment och en nioårig demografisk studie för att undersöka de demografiska konsekvenserna av könsspecifik resursallokering och för att utreda om könsspecifika skillnader i reproduktiv kostnad kan vara en drivkraft för evolutionen av sexuell dimorfism hos den dioika växten Silene dioica. Jag upptäckte signifikant somatisk intersexuell dimorfism där honor hade betydligt mer ovanjordisk och underjordisk biomassa jämfört med hanar. Över en växtsäsong så investerar honorna mer resurser i reproduktion, vilket i stor utsträckning bekräftar vad som tidigare har observerats i örtartade, dioika växter. Enligt hypotesen för reproduktiv kostnad så bör en hög investering i reproduktion leda till trade-offs med somatiska egenskaper, t.ex. tillväxt. Jag observerade inga somatiska trade-offs och istället fann jag positiva associationer mellan reproduktion och tillväxt hos både honor och hanar. Båda könen verkar ha utvecklat kompensationsmekanismer, även om honorna generellt är mer effektiva i hur de kompenserar för sina reproduktiva kostnader. Vid slutet av en växtsäsong, efter att ha betalat för de nuvarande reproduktiva investeringarna, så är honor bättre än hanar på att allokera resurser till fleråriga strukturer, såsom bladrosetter och rötter. Detta kan potentiellt påverka hur de anlägger sina knoppanlag för nästkommande år och hur väl de överlever vintern. Trade-offs hittades mellan nuvarande reproduktion och framtida reproduktionsmöjligheter och överlevnad men detta var habitat-specifikt och kompensation med hjälp av hur ofta en växt blommar under sin livstid spelar en viktig roll. Hypotesen för reproduktiv kostnad verkar vara en del av förklaringen till den somatiska och demografiska könsdimorfism som observerats i detta system men sexuell selektion, som verkar på hanar, kan vara ett möjligt område för framtida studier. I den andra studien undersökte jag populationsgenetiska konsekvenser av metapopulationsdynamik i Silene dioica. Förekomsten av öar i olika faser av primär succession tillsammans med olika grader av succession inom öar gör det möjligt att undersöka den genetiska dynamiken som uppträder i en åldersstrukturerad metapopulation över flera hierarkiska nivåer. Genetisk mångfald och differentiering uppskattades i åtta unga, nyligen koloniserade populationer och i tio populationer av ett intermediärt successionsstadium. Unga populationer hade lägre genetisk diversitet jämfört med äldre populationer, vilket indikerar att genetiska flaskhalsar, skapade av fåtal antal koloniserande individer, s.k. founders, som härrör från ett begränsat antal källpopulationer, minskar den genetiska diversiteten inom nybildade populationer. Observationen av stark genetisk strukturering, mellan och inom öar, indikerar att genflödet är begränsat över flera rumsliga nivåer i detta system. Bristen på statistiskt signifikanta skillnader i genetisk differentiering mellan unga och intermediära populationer indikerar emellertid att nivåer av genflöde kanske inte är tillräckligt höga för att minska den genetiska differentieringen som uppstår från den ursprungliga founder-händelsen. Mönstren av sexuell dimorfism och hanarnas och honornas roll har utvecklats för att möjliggöra fortlevnad i ett ekologisk och populationsmässigt sammanhang hos Silene dioica. I denna livsmiljö, där öar stiger upp ur havet och skapar nya miljöer för kolonisering samtidigt som autogena primära successionsprocesser leder till utrotning, måste S. dioica kontinuerligt sprida sig mellan olika successionsfaser för att överleva. Den uppenbara framgången för den här dioika växten är uppenbar eftersom den är en av de få dominerande arterna i lövkanten. Detta tyder på att nivåer av fröspridning och genflöde är tillräckliga för att möjliggöra etablering och beständighet av ö-populationer och att de sexuella dimorfismer som har utvecklats i detta metapopulationssystem verkar för att öka nivåerna av genflöde. "Lev hårt – dö ung" -strategin med omfattande blomningar som vi finner hos hanarna kan ha utvecklats som ett sätt att upprätthålla tillräckliga nivåer av genetisk diversitet i metapopulationen men den kommer endast att vara en möjlig strategi om det finns kontinuerliga möjligheter för re-etableringar. Således kan den kontinuerliga landupphöjningen som förekommer i norra delen av Bottniska viken mycket väl vara en förutsättning för den långsiktiga beständigheten av denna dioika, fleråriga växtart. / <p>Felaktigt angivet "Dissertation for PhD" i kolofon.</p> Silene dioica Skeppvik Archipelago Metapopulation Dynamics Population Genetic Structuring Genetic Diversity Gene Flow Sex-Specific Resource Allocation Cost of Reproduction Life-History Theory Sexual Dimorphism Reproductive Effort Ecology Ekologi Evolutionary Biology Evolutionsbiologi
186	Delimitação de espécies da família Istiophidae e de estoques genéticos do agulhão-vela Istiophorus platypterus no Oceano Atlântico Ferrette, Bruno Lopes da Silva. January 2018 (has links) Orientador: Fernando Fernandes Mendonça / Resumo: A atividade pesqueira desempenha um importante papel ambiental e socioeconômico, pois é fonte de renda e alimento para milhões de pessoas no mundo. Entretanto, falhas em sua gestão e lacunas nos dados biológicos para muitas espécies, tem resultado na sobreexplotação de seus estoques, o que pode impactar diversos ecossistemas marinhos. Neste contexto, os peixes-de-bico, grupo formado pelas famílias Xiphiidae e Istiophoridae, são considerados valiosos recursos pesqueiros, porém ainda não há consenso sobre o número e a validade das espécies da família Istiophoridae e também há incertezas sobre a avaliação atual de seus estoques. Sendo assim, o objetivo deste estudo é o de delimitar as espécies da família Istiophoridae e os estoques genéticos do agulhão-vela Istiophorus platypterus no Oceano Atlântico utilizando marcadores moleculares mitocondriais. Entre os resultados dos testes de delimitação de espécies, o número variou entre 6 e 12 táxons possíveis, dependendo do teste aplicado. Em relação a delimitação dos estoques genéticos de I. platypterus no Atlântico, assumindo-se apenas uma espécie no gênero Istiophorus, nossos resultados apontam a existência de alta diversidade genética, componde um único estoque genético no Atlântico (ΦST=0,01121, p=0,02438), apresentando um alto fluxo gênico. Porém, pela análise da rede de haplótipos e da inferência bayesiana observa-se a existência de diferentes linhagens mitocondriais simpátricas, que divergiram durante o Mioceno Superior e foram ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Fishing activity plays an important environmental and socio-economic role, as it is a source of income and food for millions of people worldwide. Although, shortcomings in management and gaps in biological data for many species resulted in the overexploitation of their stocks, which may impact several marine ecosystems. In this context, billfishes, a group compounded by the Xiphiidae and Istiophoridae families, are considered valuable fish resources, but there is still no consensus on the number and validity of the species of Istiophoridae family and there are also uncertainties about the current fisheries stocks assessments. Thus, the main objectives of this study are to delimit the species of the Istiophoridae family and the genetic stocks of the sailfish, Istiophorus platypterus, in the Atlantic Ocean using mitochondrial molecular markers. Among the species delimitation tests results, the number ranged from 6 to 12 possible taxa depending on the test applied. In order to determine the genetic stock of I. platypterus in the Atlantic Ocean, assuming only one species in the genus Istiophorus, our results point to the existence of high genetic diversity, comprising a single genetic stock in the Atlantic (ΦST = 0.01121, p = 0.02438), presenting a high gene flow. However, the analysis of the network of haplotypes and Bayesian inference shows the existence of different sympatric mitochondrial lines, which diverged during the Upper Miocene and were re-approximated, interrupting th... (Complete abstract click electronic access below) / Doutor Peixes-de-bico Recursos pesqueiros. estoques genéticos Variação genética. fluxo gênico delimitação de espécies estrutura genética populacional Istiophorus platypterus panmixia Billfishes fishery resources genetic stocks delimitation Variação genética. gene flow species delimitation genetic population structure
187	Historic pollen and seed dispersal in fragmented populations of Cariniana estrellensis (Raddi) Kuntze and Cariniana legalis (Mart.) Kuntze / Dispersão histórica de pólen e sementes em populações fragmentadas de Cariniana estrellensis (Raddi) Kuntze e Cariniana legalis (Mart.) Kuntze Souza, Francine Beatriz de 09 February 2018 (has links) Submitted by FRANCINE BEATRIZ DE SOUZA null (francinnysouza@yahoo.com.br) on 2018-03-25T19:33:25Z No. of bitstreams: 1 Francine__Tese_VersãoFinal_2018.pdf: 1284636 bytes, checksum: 8130187eea228723fe2e75938a47a468 (MD5) / Approved for entry into archive by Cristina Alexandra de Godoy null (cristina@adm.feis.unesp.br) on 2018-03-26T12:25:02Z (GMT) No. of bitstreams: 1 souza_fb_dr_ilha.pdf: 1284636 bytes, checksum: 8130187eea228723fe2e75938a47a468 (MD5) / Made available in DSpace on 2018-03-26T12:25:03Z (GMT). No. of bitstreams: 1 souza_fb_dr_ilha.pdf: 1284636 bytes, checksum: 8130187eea228723fe2e75938a47a468 (MD5) Previous issue date: 2018-02-09 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Cariniana estrellensis e Cariniana legalis são uma das maiores árvores dos biomas florestais da Amazônia e Mata Atlântica, sendo atualmente vulneráveis à extinção devido ao intenso desmatamento desses biomas. Estratégias para conservação in situ e ex situ são urgentes e estudos de diversidade genética e fluxo de genes são chaves e para esses propósitos. Assim, investigamos a diversidade genética, a estrutura genética espacial (SGS) e o fluxo histórico de genes em populações fragmentadas de ambas as espécies, utilizando marcadores de microssatélites. Todas as árvores encontradas nas populações foram mapeadas, medidas para o diâmetro na altura do peito (DAP) e amostrado o cambio de casca. O índice de fixação (F), em alguns casos, foi significativamente maior em árvores com menor DAP, indicando que as árvores menores apresentam um maior parentesco do que as maiores. Foi detectada SGS significativa para populações de ambas as espécies (60-350 m), indicando um padrão de dispersão de genes de isolamento pela distância (IBD). Para ambas as espécies, foi observada alta imigração de semente (38,5-61,5%) e pólen (80,1-100%), mostrando que as populações não são isoladas geneticamente. Não foi detectada autofecundação, mas o cruzamento entre árvores relacionadas foi detectado nas espécies (8,9-12,5%), sugerindo uma seleção mais forte contra árvores de autofecundação do que se originou do cruzamento entre árvores relacionadas. A distância de dispersão de pólen e sementes em C. estrellensis atingiu longa distância (> 3 km) do que em C. legalis (máximo de 385 m). No entanto, o pólen e as sementes em C. estrellensis e o pólen em C. legalis foram dispersos em um padrão de IBD. Os resultados sugerem que as populações estudadas são adequadas para conservação in situ e ex situ. / Cariniana estrellensis and Cariniana legalis, two of the largest trees in the Amazon and Atlantic Forest biomes, are currently vulnerable to extinction due to the intense deforestation of these biomes. Strategies for in and ex situ conservation are urgent, and studies of genetic diversity and gene flow are key aspects needed to develop these strategeis. Thus, we investigate the genetic diversity, spatial genetic structure (SGS), and historical gene flow in fragmented populations of both species, using microsatellite markers. All trees found in the study populations were mapped, measured for diameter at breast height (DBH), and sampled for bark cambium. Our results show that in some cases, fixation index (F) was significantly higher in trees with lower DBH, indicating that smaller trees have higher levels of inbreeding than larger ones. Significant SGS was detected in populations of both species (60-350 m), indicating a gene dispersal pattern of isolation by distance (IBD). For both species, we found high seed (38.5-61.5%) and pollen (80.1-100%) immigration demonstrating that populations are not genetically isolated. No self-fertilization was detected, but we did find evidence of mating among related trees (8.9-12.5%), suggesting stronger selection against selfed individuals than those originated from mating among relatives. Pollen and seed dispersal distance for C. estrellensis reached longer distances (> 3 km) than for C. legalis (maximum of 385 m). However, pollen and seeds of C. estrellensis and pollen of C. legalis were dispersed in an IBD pattern. The results suggest that the studied populations are suitable for in and ex situ conservation. Conservação genética in situ Espécies arbóreas tropicais Fluxo gênico histórico Marcadores microssatélites Análise de parentesco Tamanho efetivo populacional Effective population size Historical gene flow In situ genetic conservation Microsatellite loci Parentage analysis Tropical tree species
188	Estrutura genética espacial, sistema de reprodução e fluxo de pólen em Araucaria angustifolia (Bertol.) Kuntze em pequenas populações remanescentes em paisagem de campo e plantios florestais / Spatial genetic structure, mating system and pollen flow in small remnant populations of Araucaria angustifolia (Bertol.) Kuntze in grasslands and forest plantations landscapes Costa, Newton Clóvis Freitas da 31 July 2014 (has links) Made available in DSpace on 2016-12-12T20:12:31Z (GMT). No. of bitstreams: 1 PGEF14MA023.pdf: 1162043 bytes, checksum: 8432963324a52811e61e2d071eacc033 (MD5) Previous issue date: 2014-07-31 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Gene flow is a determining component of persistence and adaptation of local populations, and may influence their ecological properties. Understand the behavior of this flow in natural or altered populations is essential for developing effective conservation plans by the use of natural resources. We investigated the influence of Pinus plantations in the pollen dispersal patterns in remaining Araucaria angustifolia populations (patches), using paternity analysis with eight microsatellite locos. For this, we sampled two patches in the grassland area and two patches in the pine plantations area, located in southern Santa Catarina plateau. In the study areas all male reproductive individuals (68) and 400 seeds from 20 seed-tree (five per population) were mapped and genotyped. The paternity analysis revealed higher average distance of pollination for grassland area (170 m) than Pinus plantation area (67 m). The effective number of pollen donors (Nep) was 16.4 and 8.9 for grassland area and Pinus, respectively. Grassland areas showed a pollen immigration rate of 46%, and the plantation area showed a 36%. These results are an indication that the Pinus plantation can act as barrier to pollen flow, although, pollen dispersal occurs through plantings. There was no significant spatial genetic structure for adults, and high levels of genetic diversity were verified in both areas (He, ranging 0.16 to 0.829), with no significant differences, suggesting presence of historic gene flow between locals. While the seeds from natural grasslands seed-tree present no significant fixation index, the seeds from seed-tree located into Piuns plantations presented significant fixation indexes (F = 0.076, P<0.05). Both adult population and seeds showed private alleles, evidencing that not all possible reproductive individuals, in the remnants, contributed to seed sampled formation, however, pollen flow from outside contributed effectively to seed formation within patches / O fluxo gênico é um dos componentes determinantes da persistência e adaptação das populações locais, podendo influenciar em suas propriedades ecológicas. Entender o comportamento desse fluxo em populações naturais ou alteradas é essencial para elaboração de planos eficazes de conservação pelo uso dos recursos naturais. Investigou-se a influência de plantios de Pinus no padrão de dispersão de pólen em populações remanescentes de Araucaria angustifolia (capões), por meio análises de paternidade com oito locos microssatélites. Para isso, amostraram-se dois capões em área de campo e dois em área de plantios de Pinus, localizados no planalto sul catarinense. Nas áreas de estudo (capões) foram mapeados e genotipados todos os 68 indivíduos machos reprodutivos e mais 400 sementes retiradas de 20 plantas matrizes (cinco por população). A análise de paternidade revelou que a distância média de polinização para a área de campo (170 m), foi maior do que para área de plantios de Pinus (67 m). O número efetivo de polinizadores (Nep) foi de 16,4 e 8,9 para área de campo e plantio de Pinus, respectivamente. Áreas de campo apresentaram uma taxa de imigração de pólen de 46% e áreas de plantio apresentaram 36%. Esses resultados são um indicio de que os plantios de Pinus podem agir como barreira ao fluxo de pólen, embora ainda ocorre fluxo através dos plantios. Verificou-se a presença de estrutura genética espacial não significativa para os indivíduos adultos em ambas as áreas, além de uma elevada diversidade genética (He, variando de 0,16 a 0,829), sem diferenças significativas, sugerindo a presença de um fluxo gênico histórico entre as áreas. Enquanto as sementes oriundas das matrizes em meio as áreas de campo não apresentaram índice de fixação significativos, as sementes oriundas das árvores em meio aos plantios de Pinus apresentarem índices de fixação significativos (F = 0,076, P<0,05). Tanto a população adulta quanto as sementes apresentaram alelos exclusivos, evidenciando que nem todos os indivíduos reprodutivos presentes nos remanescentes contribuíram para a formação da amostra de sementes, entretanto o fluxo de pólen externo contribuiu efetivamente para formação das sementes de dentro do capão dispersão de pólen análise de paternidade polinização pelo vento taxa de imigração de pólen fluxo gênico florestamento com Pinus pollen dispersal paternity analysis wind pollination pollen immigration rate gene flow pinus forestation CNPQ::CIENCIAS AGRARIAS::AGRONOMIA
189	Estrutura genética e ecologia de comunidades das abelhas Euglossini (Hymenoptera; Apidae) do Parque Estadual da Serra do Mar e Parque Estadual da Ilha Anchieta, Ubatuba, SP, Brasil / Genetic structure and community ecology of Euglossine bees (Hymenoptera, Apidae) of Parque Estadual da Serra do Mar and Parque Estadual da Ilha Anchieta in Ubatuba, São Paulo State, Brazil Léo Correia da Rocha Filho 31 March 2011 (has links) A Mata Atlântica é considerada uma das grandes prioridades para a conservação de biodiversidade em todo o continente americano. Este bioma é um dos oito hotspots do planeta e caracteriza-se pelo alto grau de endemismo e pela alta diversidade de espécies que encerra. As abelhas Euglossini estão restritas à região Neotropical, com uma faixa de distribuição que se estende desde o Norte do México até a província de Córdoba, na Argentina. As espécies dessa tribo são abundantes em florestas tropicais úmidas/chuvosas e florestas subtropicais da América Central e América do Sul onde ocorrem em maior diversidade. Em virtude do alto impacto causado pelas ações humanas em áreas de Mata Atlântica e o pouco que se conhece sobre sua diversidade, este trabalho propõe um estudo geral sobre a estrutura das comunidades de espécies de Euglossini presentes em uma área de planície litorânea continental, Parque Estadual da Serra do Mar - Núcleo Picinguaba (PESM), e uma área insular, Parque Estadual da Ilha Anchieta (PEIA), no município de Ubatuba, norte de São Paulo, Brasil. O PESM abrange uma área de aproximadamente 47.500 hectares e quase todos os ecossitemas da Mata Atlântica são encontrados em seus domínios. O PEIA cobre toda a extensão da Ilha Anchieta (828 hectares), distante cerca de 600 m do continente. As coletas foram realizadas mensalmente, de Agosto/2007 a Julho/2009, com o uso de 14 compostos aromáticos utilizados como iscas artificiais para a atração de machos, além de indivíduos coletados em flores. Mil quinhentos e setenta e seis espécimes (73 fêmeas e 1503 machos), pertencentes a 24 espécies, foram registrados no presente trabalho. A espécie mais abundante foi Euglossa cordata (36,4%), seguida por Euglossa iopoecila (13,9%) e Euglossa sapphirina (13,3%). Dezoito espécies foram amostradas na Ilha Anchieta, sendo que quatro delas foram exclusivas desta área, ao passo que 20 espécies foram amostradas no PESM e seis delas foram registradas apenas neste local. Na Ilha Anchieta, Eg. cordata representou 63,2%, quase dois terços do total de espécies coletadas. Já em Picinguaba, Eg. iopoecila (23,0%) e Eg. sapphirina (21,0%) foram as duas espécies dominantes. A espécie Eg. iopoecila, a mais abundante na área continental, não foi registrada na llha e Eg. sapphirina, a segunda espécie mais frequente no PESM, foi representada apenas por nove indivíduos na Ilha Anchieta e por 200 em Picinguaba. Estes dados sugerem que essas duas espécies podem atuar como bioindicadores de ambientes preservados, como sugerido para outras espécies de Euglossini. Por outro lado, alguns autores evidenciaram que Eg. cordata é uma espécie favorecida por ambientes perturbados, o que pode estar associado à sua alta abundância na Ilha Anchieta. Dados de literatura mostram que há um sinal evidente de perturbação ambiental, além da perda de espécies, é a dominância de algumas espécies. A Ilha Anchieta apresenta um longo histórico de ocupação humana e diversas espécies de plantas e animais foram introduzidos em seus domínios. / The Atlantic Forest is considered as one of the highest priorities for the conservation of biodiversity in the American continent. This biome is one of the eight biodiversity hotspots in the world and is characterized by high species diversity and endemism. Euglossini bees are restricted to the Neotropics, with a geographic range that extends from northern Mexico to the Córdoba Province in Argentine. Species from this tribe are abundant in humid and rainy tropical forests and in sub-tropical forests of Central and South America, where their diversity is high. Due to the high impact caused by human activities in the Atlantic Forest and the poor knowledge on its biodiversity, in the present study we assessed the community structure of the Euglossini in a coastal lowland area: Parque Estadual da Serra do Mar - Núcleo Picinguaba (PESM); and in an insular area: Parque Estadual da Ilha Anchieta (PEIA), Ubatuba, both located in northern São Paulo State, Brazil. PESM has an area of approximately 47.500 ha and almost all ecosystems of the Atlantic Forest are found within its domains. PEIA covers all the extension of the Anchieta Island (828 ha), about 600 m away from the continent. Sampling was carried out monthly, from August 2007 to July 2009, using artificial baits with 14 aromatic compounds to attract males, as well as by collecting individuals on flowers. One thousand five hundred and seventy-six specimens (73 females and 1,503 males), represented by 24 species were recorded. The most abundant species was Euglossa cordata (36.4%), followed by Euglossa iopoecila (13.9%) and Euglossa sapphirina (13.3%). Eighteen species were sampled on Anchieta Island and four of them were exclusive to this area; whereas 20 species were sampled in PESM and six of them were only recorded there. On Anchieta Island, E. cordata represented almost two thirds of the total species collected (63.2%). In Picinguaba, E. iopoecila (23.0%) and E. sapphirina (21.0%) were the dominant species. E. iopoecila, the most abundant species in the continental area, was not recorded on the island, and E. sapphirina, the second most frequent species in PESM, was represented only by nine individuals on Anchieta Island and by 200 in Picinguaba. Results suggest that these two species may act as bioindicators of preserved environments, as suggested for other Euglossini species. However, some authors evidenced that E. cordata is favored by disturbed environments, which may be associated with its high abundance on Anchieta Island. Other studies show that an evident sign of environmental perturbation, besides species loss, is the dominance of some species. Anchieta Island exhibits a long history of human occupation and several plant and animal species were introduced there. beta-ionona Bioindicadores cineol dispersão Euglossa truncata Euglossini fluxo gênico fragrância Mata Atlântica microssatélites néctar pólen resina Atlantic forest beta-ionone bioindicators cineole dispersion Euglossa truncata Euglossini fragrance gene flow microsatellites nectar orchid bees pollen resin
190	Landscape genetics of Alnus glutinosa across contrasting spatial scales in a natural river system Flint, Gillian F. January 2015 (has links) The genetic diversity and genetic structure of populations, and the processes shaping gene flow within and between populations, are influenced by the landscapes they occur within. Within terrestrial landscapes, rivers and their riparian habitat are among the most dynamic, diverse and complex of landscapes and their linear structure appears as an interlinking feature across large landscapes. This thesis took a landscape genetics approach to examine the influence of river landscape features on Alnus glutinosa populations, a widespread keystone tree species of European riparian ecosystems. By accounting for the differing dispersal mechanisms of A. glutinosa (wind and water), landscape effects on seed- and pollen-mediated gene flow, genetic diversity, demographic and genetic structure were identified at different spatial scales of a large UK river catchment. Widespread gene flow within and between A. glutinosa populations was identified with no apparent limitation of wind-mediated pollen dispersal. Hydrochorous dispersal of seed between populations was evident, and found to increase genetic connectivity between riparian populations; however an isolation by distance effect was identified between populations located further apart from each other. No pattern of genetic diversity was found, with high levels of genetic diversity identified at all spatial and temporal scales. At the river-catchment scale no genetic clustering was observed, either within or between the six rivers studied. Demographic structuring within A. glutinosa populations was evident, and correlated with distance from the main river channel. Interactions between seed dispersal, hydrological disturbance, colonisation, and historical influences are discussed in relation to fine-scale spatial genetic structure between A. glutinosa sapling and adult generations. Central to the landscape genetics approach taken in this thesis was the incorporation of key A. glutinosa life history attributes. By incorporating gene flow analyses, species ecology and landscape features, the research presented here furthers our understanding of riverine landscape influences on their riparian populations at different spatial scales and can be used to inform management principles. 583

Search results