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Impact génomique des stratégies d'histoire de vie et reconstruction de traits ancestraux chez les amniotes / Genomic impact of life-history strategies and ancestral trait reconstruction in amniotsFiguet, Emeric 17 December 2015 (has links)
L'élucidation des liens réciproques unissant le génotype et le phénotype constitue un objectif central de la biologie moderne. De nombreux aspects de l'évolution à l'échelle moléculaire sont ainsi connus pour répondre aux caractéristiques démographiques ou d'histoire de vie des espèces. En particulier, la théorie quasi-neutre postule que les petites populations accumulent davantage de substitutions faiblement délétères dans leur génome, en raison d'une dérive génétique accrue. La composition en bases, à travers le mécanisme de la conversion génique biaisée, s'est également révélée obéir à l'influence de paramètres macroscopiques. Cependant, l'élaboration et la vérification empirique de ces théories se sont bien souvent fondées sur une gamme limitée de groupes d'organismes, incluant principalement les mammifères. Dans cette thèse, sur la base de l'étude comparative de plusieurs dizaines de transcriptomes, nous avons étendu à l'échelle des amniotes la compréhension des déterminants des patrons moléculaires observés. Grâce à l'analyse simultanée des principaux clades de reptiles, oiseaux et mammifères, nous avons pu confirmer et généraliser le rôle majeur de la taille efficace des populations sur la capacité des espèces à purger les changements d'amino-acide désavantageux, tout en exhibant un comportement inattendu du ratio dN/dS chez les oiseaux – soulevant au passage une énigme stimulante. La conversion génique biaisée est apparue comme le principal moteur de l'évolution du taux de GC des séquences codantes chez les vertébrés, y compris chez les reptiles et les poissons, dont la composition génomique homogène en avait masqué l'action. En parallèle, l'exploitation des relations entre traits d'histoire de vie et paramètres moléculaires nous a permis de réaliser de nouvelles avancées concernant l'objectif de reconstruction des masses ancestrales, pour lequel nous nous sommes focalisés sur l'ordre des cétartiodactyles, qui se caractérise aujourd'hui par une majorité de grosses espèces (comme le chameau, la girafe ou les cétacés). L'analyse combinée du marqueur mitochondrial, encore jamais testé, et des marqueurs nucléaires, incluant une vingtaine de transcriptomes nouvellement séquencés, a témoigné en faveur du résultat singulier d'un ancêtre cétartiodactyle de petite taille, comme suggéré par la paléontologie, démontrant ainsi le potentiel prometteur des données de séquence à dévoiler le passé des organismes. / Understanding the reciprocal influence between genotype and phenotype has been a long-standing goal of modern biology. Many aspects of evolution at the molecular level are well known to respond to demographic or life history characteristics of species. In particular, the nearly-neutral theory postulates that small populations accumulate a heavier load of slightly deleterious substitutions in their genome as a result of increased genetic drift. Base composition has also been shown to reflect the influence of macroscopic parameters through the mechanism of GC-biased gene conversion. However, the development and empirical validation of these theories are mostly based on a restricted diversity of organisms, in which mammals stand as a major contributor. In this thesis, using a comparative approach and tens of transcriptomes, we aimed at extending to Amniota our understanding of the determinants of molecular evolutionary patterns. With the incorporation of all clades of reptiles, we confirmed the major role of the effective population size on species ability to purge deleterious amino-acid changes, while revealing a paradoxical response of the dN/dS ratio in birds, raising a stimulating enigma. The biased gene conversion also emerged as the main driver of coding sequence GC content in vertebrates, including reptiles and fishes, whose genomic homogeneity had kept its signal hidden for long. In parallel, the relations between life-history traits and molecular parameters have enabled us to investigate and make progress in the field of ancestral body mass reconstruction. We focused on the Cetartiodactyla order, a group which is mainly characterized by large extant species (such as camel, giraffe or whales). The combined analysis of the yet untested mitochondrial marker and nuclear genes, including 21 newly sequenced transcriptomes, testified in favor of the singular result of a small cetartiodactyl ancestor, in agreement with the palaeontological record, demonstrating the strong potential of DNA sequences to reveal the past of organisms.
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Effets de la géomorphologie des rivières en tresses sur les communautés d’invertébrés aquatiques et sur la structuration génétique des populations du crustacé isopode souterrain Proasellus walteri / Geomorphology of large braided rivers as driver of biodiversity : how it can shape patterns of aquatic invertebrate communities and populations structureCapderrey, Cécile 11 July 2013 (has links)
Les rivières en tresses sont des grandes rivières alluviales de piémont montagneux à forte dynamique spatio-temporelle et à géomorphologie particulière. Leur cours traverse alternativement de vastes plaines et des rétrécissements de vallées ou canyons. Cette géomorphologie influence fortement les échanges d’eau entre la rivière avec sa nappe souterraine et sur l’épaisseur sédimentaire. Les échanges d’eau entre la rivière et sa nappe se produisent à différentes échelles allant de la vallée jusqu’à des bancs de graviers et peuvent créer des filtres biotiques et abiotiques qui influencent les communautés d’invertébrés. Les canyons créent des zones de moindre épaisseur sédimentaire voire d’absence de sédiments et peuvent représenter de fortes barrières à la dispersion pour des organismes inféodés au milieu sédimentaire souterrain. Ce travail de thèse a cherché à évaluer dans quelle mesure la géomorphologie pouvait donc structurer les communautés d’invertébrés de surface et souterraines et pouvait jouer sur la dispersion d’un organisme souterrain Proasellus walteri. Les différents résultats obtenus ont permis de montrer que la géomorphologie structurait les communautés d’invertébrés en mettant en évidence une forte réponse des communautés souterraines mais pas de surface et créait des zones de forte biodiversité à l’aval des plaines. Les résultats de cette étude ont également permis de conclure sur un effet positif de la géomorphologie des rivières en tresses sur la structuration génétique de P. walteri et de mettre en évidence de grandes tailles de populations ainsi que de fortes capacités de dispersion, permettant d’écarter certaines idées reçues sur le milieu souterrain / Braided rivers are large alluvial rivers found in piedmont mountainous areas. These rivers are very dynamic systems in space and time and exhibit particular geomorphology. The river flows alternatively into large alluvial plains or narrowing parts (also defined as canyons). This geomorphology impacts groundwater-surface water exchanges and sedimentary thickness. Groundwater-surface water exchanges occur at different scales, then interacting to shape biotic and abiotic filters for invertebrate communities. Canyons can reduce sedimentary continuity or interrupt it and may represent strong barriers to dispersal for sedimentary-dwelling organisms. This present work aimed at evaluating the effects of geomorphology in invertebrate community structure and as a potential barrier to dispersal in the subterranean organism Proasellus walteri. The different results obtained have shown that geomorphology structured invertebrate communities, highlighting a strong response in groundwater communities but not in surface communities and have shown that downstream parts of alluvial plains were hotspots of biodiversity. The results of this study also concluded on a positive effect of geomorphology in braided rivers on the genetic structure of P. walteri and underlined large effective population size and high dispersal ability, then removing some misconceptions about subterranean environment
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Structure génétique des populations et biologie de la reproduction chez le requin bouledogue Carcharhinus leucas et le requin tigre Galeocerdo cuvier / Population genetic structure and reproductive biology in the bulldog shark Carcharhinus leucas and the tiger shark Galeocerdo cuvierPirog, Agathe 29 June 2018 (has links)
Cette thèse porte sur deux espèces de grands requins, le requin bouledogue Carcharhinus leucas et le requin tigre Galeocerdo cuvier. Les objectifs sont d'étudier la structure génétique de leurs populations, la taille efficace des populations identifiées et les modes de reproduction de ces deux espèces. Une différenciation génétique importante a été identifiée entre les populations de requin bouledogue de l'Ouest de l'océan Indien et de l'Ouest du Pacifique, reflétant soit une absence de flux de gènes contemporains, soit des flux de gènes uniquement assurés par les mâles. À l'inverse, les populations de requin tigre de ces deux régions sont homogènes génétiquement. Une plus faible diversité génétique a été identifiée chez le requin tigre que chez le requin bouledogue, peut-être liée à une diminution forte des effectifs datant de moins de 3 000 ans. Autour de La Réunion, les populations des requins bouledogue et tigre suivent des dynamiques différentes, liées à leurs modes de reproduction. Chez le requin bouledogue, les individus semblent fidèles à des zones côtières particulières (philopatrie) pour s'accoupler et/ou mettre bas, et les portées sont fréquemment issues de plusieurs pères (polyandrie). À l'inverse, les zones d'accouplement et de mise bas du requin tigre restent mal connues, et cette espèce semble exclusivement monoandre, caractéristiques liées à sa nature semi-océanique. Ces travaux montrent les capacités de dispersion importantes de ces deux espèces. Leurs populations présentent des dynamiques différentes induisant une vulnérabilité différente aux pressions anthropiques. / This PhD thesis focuses on two large shark species, the bull shark Carcharhinus leucas and the tiger shark Galeocerdo cuvier. The aims are to study the genetic structuring of their populations, the effective population size of the delimited populations and the reproductive modes of both species. A strong genetic differentiation was highlighted between bull shark populations from the Western Indian Ocean and the Western Pacific, due to either an absence of contemporary gene flow or to an absence of female gene flow only. On the opposite, tiger shark populations seem genetically homogenous, with important genetic connectivity between both regions. Within each region, no genetic differentiation among localities was highlighted for both species. A weaker genetic diversity was identified for the tiger shark, probably linked to the occurrence of a recent bottleneck occurring less than 3,000 years ago. Around Reunion Island, bull and tiger shark populations present different dynamics, linked to their reproductive modes. Bull shark individuals from both sexes seem to exhibit some fidelity to specific coastal sites (philopatry) to mate and/or deliver embryos, and litters are frequently issued from several fathers (polyandry). On the opposite, mating and pupping areas of the tiger shark remain poorly known, and this species seems exclusively monoandrous, probably linked to its semi-oceanic nature.This work highlights the high dispersal abilities of both species. Their populations present different dynamics, leading to different sensitivities to anthropogenic pressures. These results point out the need to adopt management plans specific to each species
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Distância e padrões de dispersão contemporânea de pólen e sistema de reprodução em pequeno fragmento isolado de Copaifera Langsdorfii Desf. (Leguminosae – Caesalpinoideae)Manoel, Ricardo de Oliveira [UNESP] 11 February 2011 (has links) (PDF)
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manoel_ro_me_ilha.pdf: 1154303 bytes, checksum: bdb3ce1be2b5b94a2295c411e503126d (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O fluxo e padrões de dispersão de pólen foram investigados em um pequeno fragmento florestal isolado da espécie arbórea neotropical, polinizada por insetos da Copaifera langsdorffii, por meio da análise de paternidade e oito locos microssatélites, também foi investigado a coancestria e o tamanho efetivo populacional dentro de progênies para a conservação e recuperação ambiental. Sementes de polinização aberta (20 a 25 sementes) foram coletadas de 15 árvores matrizes de um fragmento, onde todos os indivíduos adultos foram previamente mapeados, medidos e genotipados para oito locos microssatélites. Vinte sementes foram coletadas da árvore vizinha mais próxima (1,2 km) do fragmento. Os níveis de diversidade genética foram significativamente maiores nos adultos do que nas progênies. Níveis significativos de endogamia foram detectados em progênies (F = 0,226), o que foi atribuído principalmente ao cruzamento entre parentes. A partir da análise de paternidade, baixos níveis de autofecundação (s = 8%) e imigração de pólen (m = 8%) foram observados no fragmento florestal, mas níveis muito altos foram detectados na árvore isolada (s = 20%; m = 75%), indicando que o fragmento e a árvore não estão reprodutivamente isolados e são conectados por dispersão de pólen a longas distancias (máximo detectado 1,420 m). Dentro do fragmento, o padrão de dispersão de pólen foi o vizinho próximo, com cerca de 49% do pólen se dispersando até 50 m. O tamanho efetivo populacional da árvore-matriz foi baixa, indicando a necessidade de se coletar muitas sementes de árvores (mínimo de 76 árvores) para fins de conservação. Em termos gerais, os resultados mostraram que o fragmento e a árvore isolada pela fragmentação florestal não estão reprodutivamente isoladas, embora o isolamento espacial parecesse aumentar a taxa de autofecundação e cruzamentos correlacionados / Pollen flow, dispersal and patterns were investigated in a small and isolated forest fragment of the neotropical, insect pollinated tree Copaifera langsdorffii, using paternity analysis and eight microsatellite loci, we also investigated the coancestry and effective population size of progeny array for conservation and environmental restoration purpose. Open-pollinated seeds (20 to 25 seeds) were collected from 15 seed trees of forest fragment, where all adults trees were previously mapped, measured and genotyped by eight microsatellite loci. Twenty seeds were also collected from the neighbour tree (1.2 km) of the forest fragment. Levels of genetic diversity were significantly higher in adults than offspring. Significant levels of inbreeding were detected in offspring (F=0.226), which was attributed mainly to the mating among relatives. From paternity analysis, low levels of selfing (s=8%) and pollen immigration (m=8%) were observed in the forest fragment, but very high levels were detected in the isolated tree (s=20%; m=75%), indicating that the forest fragment and the tree are not reproductive isolated and are connected by long pollen dispersal (maximum detected 1,420 m). Within the forest fragment, the pattern of pollen dispersal was the near neighbor with about 49% of the pollen being dispersed until 50 m. The effective population size of the progeny array was low, indicating the necessity to collect seeds from many seed trees (minimum of 76 trees) for conservation purposes. In general terms, the results showed that the fragment and the tree isolated by forest fragment are not brooked the genetic connectivity, although the spatial isolation seems increase selfing rate and correlated mating
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Deriva genética de caracteres quantitativos em milho / Genetic drift of quantitative traits in maizePaolo Orlando Zancanaro 15 April 2016 (has links)
A obtenção de genótipos superiores no melhoramento de plantas depende da existência de variabilidade genética. A existência de coleções de germoplasma representativas e a utilização de um tamanho adequado de amostra são fundamentais para a preservação das frequências alélicas e genotípicas, diminuindo a perda de variabilidade genética e postergando o aparecimento dos efeitos da deriva genética. Assim, teve-se como objetivo avaliar os efeitos da deriva genética em caracteres quantitativos em subpopulações de milho. Este estudo foi realizado a partir das populações originais BR-105 e BR-106, das quais 10 subpopulações foram obtidas em cada um dos cinco ciclos sucessivos de amostragem com tamanho efetivo reduzido, totalizando 50 subpopulações para cada população original, as quais foram posteriormente autofecundadas, gerando um nível a mais de endogamia. Os tratamentos foram constituídos de 10 amostras da população original sem autofecundação, 10 amostras com autofecundação, 50 subpopulações obtidas da população original e 50 subpopulações autofecundadas, totalizando 120 tratamentos para cada população, avaliados separadamente. Utilizou-se o delineamento em blocos casualizados no esquema de parcelas subdivididas em faixas hierárquico, em quatro ambientes com duas repetições por ambiente. Os caracteres avaliados foram produção de grãos (PG), prolificidade (PROL), comprimento e diâmetro de espigas (CE e DE), número de fileiras por espiga (NFE), número de grãos por fileira (NGF), altura de planta e espiga (AP e AE), florescimento masculino e feminino (FM e FF) e número de ramificações do pendão (NRP). Foram estimados os efeitos da deriva genética entre as médias das subpopulações nos dois níveis de endogamia e os efeitos da depressão por endogamia nas subpopulações dentro dos ciclos. Posteriormente, realizaram-se análises de regressão linear para as subpopulações nos dois níveis de endogamia, separadamente, e em conjunto. Foi verificada uma grande variação nas médias das subpopulações ao longo dos ciclos, indicando que a deriva genética causou diferenciação entre as mesmas e que estas se diferenciaram das populações originais. Detectaram-se efeitos significativos da deriva genética nas populações não autofecundadas para todos os caracteres avaliados, em maior número para PG, já que este caráter é mais sensível à deriva genética por possuir maior grau de dominância que os demais. Houve diminuição no número de estimativas de deriva significativas para as populações autofecundadas, incluindo mudanças na magnitude e no sinal das mesmas em relação às populações não autofecundadas. Para as estimativas de depressão por endogamia, os caracteres PG, NGF, FM e FF apresentaram maior quantidade de estimativas significativas que os demais. Para a maioria dos caracteres, a regressão linear explicou a maior parte da variação encontrada com o aumento dos coeficientes de endogamia. As populações BR-105 e BR-106, por terem estruturas genéticas distintas, apresentaram performances diferentes quanto aos efeitos da deriva genética. Enfim, como a deriva genética interfere na integridade genética das populações, torna-se importante considerar seus efeitos na coleta e manutenção dos bancos de germoplasma e nas populações utilizadas no melhoramento genético de plantas. / Obtaining superior genotypes in plant breeding depends on the existence of genetic variability. The existence of representative germplasm collections and the use of appropriate sample size are essential for preserving allelic and genotypic frequencies, reducing loss of genetic variability and delaying genetic drift effects. This study aimed to evaluate the effects of genetic drift in quantitative traits in subpopulations of maize. The original populations used were BR-105 and BR-106, of which 10 subpopulations were obtained in each five successive sample cycles with reduced effective size, accounting 50 subpopulations for each original population that were subsequently selfed to generate an additional level of inbreeding. The treatments consisted in 10 samples of the original population, 10 samples of the selfed original population, 50 non selfed subpopulations obtained from the original population and 50 selfed subpopulations, accounting 120 treatments for each population evaluated separately. It was used the randomized block strip-plot design, in four environments with two replications. The traits assessed were grain yield (GY), prolificacy (PROL), ear length and ear diameter (EL and ED), number of rows per ear (NRE), kernel-row number (KRN), plant and ear height (PH and EH), days to anthesis and silking (DA and DS), and number of tassel branches (NTB). It was estimated the effects of genetic drift between subpopulations means at both inbreeding levels, and the effect of the inbreeding depression in subpopulations within cycles. It was also performed linear regression analysis for subpopulations at both levels of inbreeding separately and together. A large variation was observed in the subpopulations means over cycles, indicating that genetic drift caused differentiation between them, and that they differed from the original populations. The effects of genetic drift were significant for all traits in the non selfed subpopulations, especially for GY, which is more sensitive to genetic drift effects by having a greater degree of dominance than the other traits. There was a decrease in the number of significant genetic drift estimates for selfed populations, including changes in magnitude and signs, compared to the non selfed populations. GY, KRN, DA and DS had higher number of significant inbreeding depression estimates than the other traits. Linear regression analysis explained most of the variation found with increasing homozygosity. As BR-105 and BR-106 populations have distinct genetic structures, they showed different performances regarding the effects of genetic drift. Therefore, genetic drift interferes in the genetic integrity of populations and it is important to consider its effect on the collection and maintenance of germplasm banks and populations used in plant breeding.
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Past and present genetic diversity and structure of the Finnish wolf populationJansson, E. (Eeva) 14 May 2013 (has links)
Abstract
Many species and populations have perished as a consequence of human actions. During the last ~200 years, large carnivores have been almost completely extirpated from Western Europe. Large-scale wolf hunting started in Finland around the 1850s, and the population size quickly collapsed. The population was very small until the mid-1990s, when wolves started to regularly reproduce in Finland again. The wolf is an endangered species in Finland, and the biggest threat to the species’ survival is excessive hunting.
In this doctoral thesis study, I inspected the genetic structure and diversity of the Finnish wolf population using neutral genetic markers. Almost 300 wolves from the contemporary Finnish population and over 50 wolves from the north-western Russia were analyzed with genetic methods. Additionally, the genetic history of the population was examined with the help of over 100 museum samples.
The modern Finnish wolf population proved to be genetically as diverse as the non-endangered Eastern European and North American wolf populations. However, the genetic diversity decreased significantly during the study period (1995–2009), and was at its lowest level in the final phase of the examination. In tandem, the inbreeding coefficient rose to a relatively high level. Genetic sub-structures were observed due to social structures within wolf packs. The mean dispersal distances of wolves were approximately only 100 km. The Finnish wolf population is divided into neighbourhoods of related individuals, and their size substantially decreased during the study period. This pattern, together with the growth of the inbreeding coefficient, suggests that lost alpha individuals in wolf packs are replaced by their offspring.
This study demonstrated that Russian and Finnish wolf populations are nowadays genetically differentiated. Gene flow between the populations is low, despite the geographic interconnection. Only a few possible immigrants from Russia into Finland were detected in the study. The effective size of the Finnish wolf population proved to be small, and was mainly below the often-considered critical size of 50. Historical analysis revealed that the Finnish wolf population was formerly genetically more diverse, more continuous with the Russian wolf population, and had a more than 90% larger effective size.
On the basis of this study, the genetic status of the Finnish wolf population is worrying and needs to be monitored. The population should be substantially larger than today and/or the amount of gene flow higher, so that the population viability could be considered secured even in the short term. / Tiivistelmä
Ihmisen toiminnan seurauksena lukuisat eliölajit ja –populaatiot ovat hävinneet. Viimeisten noin 200 vuoden aikana suurpedot hävitettiin lähes koko Länsi-Euroopasta. Laajamittainen sudenmetsästys alkoi Suomessa 1850-luvun paikkeilla ja kanta romahti nopeasti. Populaatio oli hyvin pieni lähes koko 1900-luvun, ja sudet ovat jälleen lisääntyneet yhtäjaksoisesti Suomessa vasta 1990-luvun puolivälistä. Susi on erittäin uhanalainen Suomessa ja merkittävin uhka lajin säilymiselle on liiallinen metsästys.
Tarkastelen tässä väitöskirjatyössäni Suomen susipopulaation geneettistä rakennetta ja monimuotoisuutta neutraaleja geenimerkkejä käyttäen. Tutkimuksessa analysoitiin geneettisin menetelmin lähes 300 sutta nyky-Suomesta sekä yli 50 sutta Luoteis-Venäjältä. Lisäksi populaation geneettistä historiaa selvitettiin yli 100 museonäytteen avulla.
Nykyinen Suomen susipopulaatio osoittautui tutkimuksessa geneettisesti yhtä monimuotoiseksi kuin ei-uhanalaiset susipopulaatiot Itä-Euroopassa ja Pohjois-Amerikassa. Geneettisen muuntelun määrä kuitenkin laski tutkimusajanjaksolla (1995–2009) merkitsevästi ollen matalin tarkastelujakson lopussa. Samanaikaisesti populaation sukusiitoskerroin nousi verrattain korkeaksi. Susipopulaatiossa havaittiin sosiaalisista rakenteista johtuvia geneettisiä alarakenteita. Susien dispersaalimatkat olivat keskimäärin vain noin 100 km. Suomen susipopulaatio on jakautunut toisilleen sukua olevien yksilöiden naapurustoiksi, joiden koko pieneni huomattavasti tutkimusajanjaksolla. Tämä yhdessä sukusiitoskertoimen kasvun kanssa viittaa susilaumojen menetettyjen alfayksilöiden korvautumiseen jälkeläisillään.
Tutkimus osoitti, että Venäjän ja Suomen susipopulaatiot ovat nykyisin geneettisesti erilaistuneet. Geenivirta populaatioiden välillä on maantieteellisestä yhteydestä huolimatta vähäistä. Tutkimuksessa havaittiin vain muutamia todennäköisiä immigrantteja Venäjältä Suomeen. Suomen susipopulaation efektiivinen koko osoittautui pieneksi ollen pääosin alle kriittisenä rajana pidetyn 50:en. Historiallinen tarkastelu osoitti Suomen susipopulaation olleen aiemmin geneettisesti monimuotoisempi, yhtenäisempi Venäjän susipopulaation kanssa ja efektiiviseltä kooltaan yli 90 % nykyistä suurempi.
Tutkimuksen perusteella Suomen susipopulaation geneettinen tila on huolestuttava ja tarvitsee seurantaa. Populaation tulisi olla nykyistä huomattavasti suurempi ja/tai geenivirran määrän korkeampi, jotta populaation elinvoimaisuuden voitaisiin katsoa olevan turvattu edes lyhyellä aikavälillä.
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Anti-predator Behavior of Birds and Conservation / Comportement anti-prédateur des oiseaux et conservationJiang, Yiting 04 May 2018 (has links)
Prey s'appuie sur les décisions d'évasion lorsqu'il est confronté à des prédateurs pour maximiser les avantages de rester en place tout en réduisant les coûts de la prédation. Ce compromis de l'histoire de vie peut être reflété par la distance d'initiation de vol (FID), la distance à laquelle un individu prend son envol lorsqu'il est approché par un humain. J'ai abordé les facteurs potentiels expliquant la variation FID avec des données d'espèces d'oiseaux en Europe. La variabilité génétique était liée au risque de prédation FID; les espèces d'oiseaux menacées avaient généralement une FID plus longue que les espèces proches non menacées; le caractère distinctif de l'évolution (ED), un indicateur reflétant l'isolement phylogénétique des taxons, était positivement lié à la FID chez les oiseaux d'eau; La FID moyenne de différentes espèces d'oiseaux était positivement corrélée avec les niveaux spécifiques de MDA (malondialdéhyde qui est un indice de stress oxydatif) et UA (acide urique, qui est une mesure de la capacité antioxydante) et FID augmentée avec la taille du troupeau chez les espèces grégaires mais pas chez les espèces non grégaires. Ces résultats peuvent contribuer à la compréhension des causes et des conséquences des différences interspécifiques dans le comportement de fuite des prédateurs contre les prédateurs, et, plus important encore, ils peuvent fournir des moyens de résoudre les problèmes de conservation. Mots-clés : masse corporelle, taille du cerveau, taille effective de la population, modèle linéaire phylogénétique, stress oxydatif, comportement social / Prey rely on escape decisions when confronted with predators to maximize the benefits of staying put while reducing the costs of predation. This life history compromise can be reflected by flight initiation distance (FID), the distance at which an individual takes flight when approached by a human. I addressed potential factors explaining variation FID with data from bird species in Europe. Genetic variability was related to predation risk FID; threatened bird species generally had a longer FID than non-threatened closely related species; evolutionary distinctiveness (ED), an indicator reflecting the phylogenetic isolation of taxa, was positively related to FID in waterbirds; mean FID of different species of birds was positively correlated with species-specific levels of MDA (malondialdehyde which is an index of oxidative stress) and UA (uric acid, which is a metric of antioxidant capacity) and FID increased with flock size in gregarious species but not in non-gregarious species. These findings may contribute to the understanding of the causes and consequences of interspecific differences in anti-predator escape behavior of birds, and, more importantly they may provide means for resolving conservation problems. Key words: body mass, brain size, effective population size, phylogenetic linear model, oxidative stress, social behavior
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Příprava mikrosatelitových markerů pro studium koroptve polní (Perdix perdix) / Development of Grey Partridge (Perdix perdix) microsatellite markersVaněčková, Dominika January 2011 (has links)
The aim of this work was the construction of set of microsatellites for the Grey Partridge (Perdix perdix). I succeeded in isolation of seven new specific microsatellites. Another microsatellite markers were passed from close relative galliform species (Galliformes). On the whole I gained 18 microsatellite loci which were used for study of population charakteristics of three partridge populations from Stodůlky, Písecko and Milešín. The analysis showed conspicuous structuredness of these populations and surprisingly low values (less then 100) of their effective population sizes. Seven of the microsatellites were chosen for analysis of paternity. Indeed I found the evidence of extrapair paternity in this putatively monogamous bird. Finally I conclude, on the basis of sequenation of mitochondrial control region that our populations belong to the western linage of mitochondrial DNA.
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Estrutura genética e fluxo gênico em populações naturais de tucumã-do-Amazonas por meio de microssatélites visando o manejo e conservação da espécie / Genetic structure and gene flow in natural populations of tucum palm by microsatellite aiming at the management and conservation of the speciesRamos, Santiago Linorio Ferreyra 16 July 2014 (has links)
O tucumã-do-Amazonas (Astrocaryum aculeatum), da família Arecaceae, é uma espécie com ocorrência na Amazônia Ocidental e Central brasileira. Seu fruto é muito apreciado na região amazônica que consome a polpa na forma fresca. Sua produção é feita pelos agricultores extrativistas. Não existem informações dos parâmetros de diversidade e estrutura genética das populações naturais desta espécie, fundamental para o estabelecimento de estratégias adequadas no uso deste recurso genético, e para aumentar a eficiência da domesticação e seleção para um programa de melhoramento genético. Não é conhecido também como este extrativismo pode estar influenciando a diversidade entre estas populações ao nível dos genitores e progênies, o fluxo gênico e a estrutura genética espacial. Assim, o objetivo desta pesquisa foi caracterizar a estrutura e a diversidade genética de populações de A. aculeatum no Estado do Amazonas, utilizando marcadores microssatélites. Como objetivos específicos o estudo visou desenvolver iniciadores de microssatélites para A. aculeatum; avaliar a diversidade e a estrutura genética; determinar o fluxo gênico, bem como o grau de parentesco, a estrutura genética espacial (EGE) e o coeficiente de coancestria numa população. Os iniciadores de microssatélites foram isolados a partir de uma biblioteca genômica enriquecida e caracterizados usando 40 amostras provenientes de duas populações selvagens. Foram identificados 14 iniciadores de microssatélites, mostrando um alto polimorfismo nas populações avaliadas. Para estimar a diversidade e estrutura genética foram utilizadas amostras de material vegetal de 218 plantas distribuídas em 15 populações, localizadas em 14 municípios do estado de Amazonas. Foram identificados 101 alelos nos iniciadores, com média de 10,1 alelos. As médias das heterozigosidades observadas (HO) foram superiores às esperadas (HE) ao nível de população (HO=0,639, HE=0,557) e locos (HO=0,639; HE=0,594). Os baixos valores de FST (0,07) mostraram uma moderada estrutura populacional e a análise Bayesiana indicou um agrupamento mais adequado de k=4, o que foi confirmado pelas análises de PCoA. Para realizar o fluxo gênico, EGE e coeficiente de coancestria foram utilizadas 244 amostras de material vegetal, distribuídas entre 112 possíveis genitores, 12 matrizes e 120 progênies numa população. Foi detectada EGE significativa para os adultos até a distância de 50 m, indicando dispersão de sementes a curtas distâncias. A análise de paternidade detectou 9,2% de imigração de pólen. Não foram detectadas autofecundações e a distância média de polinização dentro da população foi de 81 m. Os índices de diversidade genética confirmaram a estratégia reprodutiva por alogamia da espécie, com níveis elevados de heterozigotos nas populações, e a estrutura genética sugere que a espécie teria iniciado o processo de formação das subpopulações há pouco tempo, tendo sido influenciada antes e após o início do desmatamento. O fluxo gênico detectado indica que a entrada de alelos na população através da imigração de pólen está contribuindo para manutenção da diversidade genética da população. Com relação à conservação da espécie, esta deve ser realizada ao nível das bacias hidrográficas, direcionando políticas de manejo para as bacias hidrográficas da Amazônia. Entretanto, dentro da população é importante a renovação com novas progênies selecionadas a partir de um espaçamento mínimo de 50 m entre plantas matrizes para diminuir as probabilidades de coletar sementes de plantas parentes. / The tucum palm (Astrocaryum aculeatum), family Arecaceae, is a species occurring in Western and Central Brazilian Amazon. Its fruit is widely appreciated in the Amazon region that consumes the pulp in fresh form. Its production is made by extractive farmers. There is no information on the genetic diversity and structure of natural populations of this species, fundamental to establishing adequate strategies in the use of this genetic resource, increase the efficiency of domestication and selection for a breeding program. It is also unknown the way this extrativism may be influencing to diversity of these populations at the level of the parents and offspring, as well as gene flow and spatial genetic structure. Therefore, the objective of this research was to characterize the structure and genetic diversity of populations of A. aculeatum in Amazonas State, using microsatellite markers. As specific objectives, the study aimed to develop microsatellite primers for A. aculeatum; evaluate the genetic diversity and structure; determine the gene flow, the degree of relationship or kinship, the spatial genetic structure (SGS) and the coefficient of coancestry in one population. The loci were isolated from a microsatellite-enriched genomic library and were characterized using 40 samples coming from two wild populations. Fourteen microsatellite primers were identified, showing a high polymorphism in the populations evaluated. To estimate the genetic diversity and structure we used samples of plant material from 218 plants distributed in 15 populations located in 14 municipalities of the state of Amazonas. A total of 101 alleles were identified in the primers, with an average of 10.1 alleles. The averages of the observed heterozygosities (HO) were higher than the expected heterozygosities (HE) at the population (HO=0.639; HE=0.557) and loci (HO=0.639; HE=0.594) levels. The low values of FST (0.07) showed a moderate population structure and the Bayesian analysis indicated as the most suitable a cluster of k=4, confirmed by the groups formed in the PCoA. To conduct gene flow, SGS and the coefficient of coancestry, 244 samples of plant material were used, distributed among 112 possible progenitors, 12 matrices and 120 progenies in a population. A significant SGS was detected for adult trees up to the distance of 50 m, indicating seed dispersal over short distances. Paternity analysis indicated 9.2% of pollen immigration. Selfing was not detected and the average distance of pollination within the population was 81 m. The genetic diversity indices confirmed the outcrossing reproductive strategy of the species with high levels of heterozygotes in the populations, and the genetic structure suggests that the species would have started the process of formation of subpopulations a short time ago, being influenced before and after the start of deforestation. The gene flow detected indicates that the entry of alleles in the population through pollen immigration is contributing to the maintenance of genetic diversity of the population. With respect to the conservation of the species, it should be performed at the level of the river basins, directing management policies for the river basins of the Amazon. However, within the population it is important to renew with new progenies selected from a minimum spacing of 50 m between plant matrices to decrease the probability of collecting seeds from plant relatives.
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Integrative approaches for conservation management of critically endangered Nassau grouper (Epinephelus striatus) in The BahamasSherman, Krista Danielle January 2018 (has links)
Species conservation is typically founded upon a range of management strategies, which integrate both biological and socioeconomic data. In this thesis, population genetics, acoustic telemetry, spawning aggregation surveys and stakeholder assessments were used to address key knowledge gaps limiting effective conservation management for critically endangered Nassau grouper (Epinephelus striatus) stocks in The Bahamas. A panel of polymorphic microsatellite markers was optimised to assess the genetic population dynamics of more than 400 Nassau grouper sampled throughout the country. Microsatellite data indicate that contemporary Nassau grouper populations in The Bahamas are predominantly genetically diverse and weakly differentiated, but lack geographic population structure. Assessments of changes in effective population size (Ne) show substantive reductions in Ne within The Bahamas compared to historic values that are likely due to natural disturbances. Evidence for recent bottlenecks occurring in three islands as well as an active spawning site, along with higher inbreeding coefficients in two islands were also found, and can be attributed to more recent anthropogenic activities. Collapse of a historically important Nassau grouper fish spawning aggregation (FSA) was supported by both acoustic telemetry and spawning aggregation survey dives. Restriction-site-associated DNA sequencing (RAD-seq) of 94 Nassau grouper was used to explore intraspecific population dynamics, loci under selection and patterns of gene flow in The Bahamas. Genomic assessments of diversity were in accord with microsatellite data and examinations of gene flow support higher levels of connectivity in The Bahamas than was previously suggested. The increased resolution gained from assessments of genomic data support intraspecific population structuring that may be driven by differences in gene flow and putative loci under divergent selection. Telemetry data were successfully used to identify the origins of spawning adults, and support demographic connectivity through migrations between an active FSA in the central Bahamas and home reef habitats within the Exumas and a no-take marine protected area. Stakeholder assessments highlight the complexities of fisheries management within The Bahamas, with key stakeholders often exhibiting conflicting opinions regarding the status of Nassau grouper and the efficacy of management options. However, these groups mutually agree upon the need to better manage remaining Nassau grouper stocks within The Bahamas through science-grounded policies. Synthesis of these studies along with a review of fisheries governance in The Bahamas was used to develop a comprehensive national management plan for Nassau grouper to facilitate better conservation for remaining populations of this ecologically important marine species.
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