Founder Effect In Reintroduced Anatolian Mouflon Ovis Gmelinii Anatolica Valenciennes 1856 Populations

Kayim, Mehmet

01 October 2008

Reintroduction of Anatolian mouflon population at Bozdag Protection &amp / Breeding Station to its former habitats(Emremsultan Wildlife Development Area in Ankara-Nallihan, and Karadag in Karaman) started in 2004. The magnitude of genetic change among Bozdag and reintroduced populations was evaluated by 11 microsatellite loci. Study populations revealed close results (&plusmn / st.dev.) &ndash / Bozdag population: nk = 2.9091 (&plusmn / 1.1362), AE = 2.0250 (&plusmn / 0.9537), Ho = 0.3830 (&plusmn / 0.2717), He = 0.3956 (&plusmn / 0.2746) / Nallihan population: nk = 2.9091 (&plusmn / 1.1362), AE = 2.0592 (&plusmn / 0.9451), Ho = 0.4086 (&plusmn / 0.2977), He = 0.4052 (&plusmn / 0.2767) / and Karadag population: nk = 2.5455 (&plusmn / 1.1282), AE = 1.8809 (&plusmn / 0.8758), Ho = 0.3388 (&plusmn / 0.2775), He = 0.3607 (&plusmn / 0.2716). Population differences for major genetic parameters were not significant (p &gt / 0.05) by comparisons with paired t-test. Also, temporal change in genetic diversity for Bozdag population was investigated by comparison with temporal data. Temporal changes in genetic parameters were found to be not significant and possible causes for differences were argued. Additionally, genetic diversity and PI computations for different traps were verified and compared to uncover any potential bias due to the catching method. Comparisons did not reveal significant differences illustrating the homogeneity among traps. On the other hand, simulations detected the higher sensitivity of allelic diversity (A) to founder events than P and heterozygosity (Ho &amp / He) levels which supports heterozygosity excess method for bottleneck analysis. With the same simulation analysis, observed genetic diversity within reintroduced samples were found to be in the ranges of expectation (99% CI) indicating that translocated individuals were chosen randomly. Bottleneck analysis based on heterozygosity excess method (one-tailed test for heterozygosity excess: pSMM = 0.28515, pTPM = 0.06445, pIAM = 0.02441) and allele frequency distributions method (normal L-shaped) could not detect a recent genetic bottleneck for Bozdag population. However, simulations determined that these two methods are prone to type II error. Bottleneck detection failure for the study population is probably due to type II error instead of other sources of error like violations of model assumptions.

QH Genetics 426-470

The Impact of Migration on the Evolution and Conservation of an Endemic North American Passerine: Loggerhead Shrike (Lanius ludovicianus)

CHABOT, AMY A

26 January 2011

Migration acts as a selective force on the ecology and evolutionary trajectory of species, as well as presenting fundamental challenges for conservation. My thesis examines the impact of migration by exploring patterns of differentiation among and within migratory and non-migratory populations of the Loggerhead Shrike (Lanius ludovicianus). First, I use morphological, genotypic, stable isotope and leg band recovery data to quantify migratory connectivity in the species. Comparison across markers reveals a generally concordant pattern of moderate connectivity to the Gulf Coast, but overall mixing among populations on the wintering grounds. Combining data from multiple markers in a Bayesian framework improves the resolution of assignment of wintering birds to a breeding ground origin. Information on the species’ migratory patterns provides an explicit framework for interpreting patterns of genetic and ecological variation. I test two hypotheses regarding the interaction of gene flow and migratory habit: (1) migration facilitates gene flow; and (2) gene flow will occur most often along the axis of migration. Genetic population structure in migratory populations is weaker than in non-migratory populations, with gene flow facilitated by dispersal movements of females and first year breeders. As predicted, gene flow occurs most often along the north-south axis of migration, likely due either to opportunistic settling of dispersers or potentially, pairing on the wintering grounds. I investigate variation in the extent and scheduling of moult in relation to underlying genetic differences among populations, age, sex, body size, food availability and migratory habit. I find a pattern of interrupted moult across migratory populations, which may represent a trade-off between time allocated to breeding versus molt and migration. Loggerhead Shrikes in eastern and more southerly migratory populations undergo a greater extent of their moult on the breeding grounds and non-migratory individuals undergo a more extensive pre-formative moult than migratory individuals. I interpret this as suggesting a trade-off between resources allocated to molt versus those required for reproduction. / Thesis (Ph.D, Biology) -- Queen's University, 2011-01-25 15:54:36.593

migration

birds

Laniidae

stable isotopes

microsatellites

moult

deuterium

morphology

conservation genetics

population genetic structure

banding

migratory connectivity

Conservation genetics of a Gondwana relict rainforest tree, Nothofagus moorei (F. Muell.) Krasser

Schultz, Lee

January 2008

Nothofagus moorei is a long-lived, Gondwana relict cool temperate rainforest tree. Nothofagus-dominated rainforests were widespread across much of eastern Australia during the mid-Tertiary but today, N. moorei occurs only as a series of disjunct, isolated populations in south-east Queensland and northern New South Wales. Clonal regeneration via coppicing is reported to be a common feature of most N. moorei populations, while successful sexual regeneration is believed to be rare, occurring largely only in niches with high light levels and limited competition. While clonal propagation enables population persistence and individual longevity, it cannot generate novel genotypes. Isolated populations, potentially high levels of clonality, low-potential for successful sexual regeneration, long-lived individuals and predicted global warming effects make N. moorei vulnerable to local, if not total, population extinction. The current study aimed to assess the relative conservation status of extant N. moorei populations in order to develop appropriate conservation management strategies for long-term population persistence. Levels of genetic diversity and population structure were examined across the remaining natural distribution of N. moorei using nuclear amplified fragment length polymorphism (AFLP), microsatellite and chloroplast DNA markers. In total 607 individuals were sampled from 20 populations and 5 geographical regions: Lamington/Border Ranges, Ballow, Dorrigo/New England, Werrikimbe and Barrington. Genetic results were then analysed to assess conservation status of each population and geographical region. Microsatellite and AFLP data identified comparatively high levels of genetic diversity in all remnant populations sampled. The prevalence of coppicing in the northern Lamington/Border Ranges populations appears to have had little impact on relative levels of genetic diversity, heterozygosity or population structure. Population differentiation was limited, with the majority of genetic variation retained within populations, no regional structuring and high levels of admixture. Analysis of cpDNA variation showed that the three Dorrigo/New England populations were divergent from all other populations, suggesting an ancient divergence in N. moorei prior to Pleistocene glaciations. While levels of genetic diversity were essentially the same across all populations, Bayesian analysis of genetic structure did identify four populations with differing gene pool proportions which would be important to include in conservation efforts in addition to individuals from other populations. Similarly, individuals from four significantly differentiated groups identified using traditional F-statistics suggests individuals from each of these four groups should be included in future conservation plans. In order to maintain ancient chloroplast lineages, populations from the Dorrigo/New England region should also be assigned special conservation value. Populations of N. moorei appear to have retained significant levels of genetic diversity and show little population divergence in spite of marked reductions in the natural distribution since the Early Miocene. Sampling of these ancient trees however, suggests current levels of diversity in N. moorei actually reflect past diversity and differentiation, and that there have been insufficient generations since the historical contraction in distribution for genetic diversity to be adversely affected and regional differentiation to evolve. Long-term persistence of N. moorei is still threatened by future accelerated climate change and the limited preferred habitat that remains where N. moorei can expand its range. While the ability to regenerate clonally may enable long-term persistence of N. moorei, populations are still likely to continue to decline as climatic conditions will increasingly favour sub-tropical and warm temperate species across much of N. moorei's northern distribution. Southern populations of N. moorei, in contrast, could expand their ranges into eucalypt woodlands as predicted climate becomes warmer and wetter. However, this will ultimately be determined by the frequency of fires, with increased fire frequencies favouring the expansion of eucalypts and contraction and possible local population extinction of N. moorei dominated cool temperate rainforests.

Nothofagus moorei

antarctic beech

relictual

cool temperate rainforest

conservation genetics

AFLPs

microsatellites

chloroplast DNA

clonality

Avaliação da organização da variabilidade genética em populações de anfíbios de hábitats antropizados por meio marcadores microssatélites

Arruda, Maurício Papa de [UNESP]

26 February 2010

Made available in DSpace on 2014-06-11T19:32:14Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-02-26Bitstream added on 2014-06-13T19:02:41Z : No. of bitstreams: 1 arruda_mp_dr_sjrp.pdf: 3154075 bytes, checksum: 425658b7ce3ff42cf3fde44c2f7d4d75 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / A destruição e a modificação do hábitat são aceitas, entre os biólogos conservacionistas, como as causas primárias da perda da biodiversidade, e a situação para os anfíbios não é exceção. Diversos processos antropogênicos contribuem para a deterioração das paisagens, podendo afetar negativamente as populações de anfíbios, por alterar fisicamente os ambientes aquáticos e terrestres, reduzindo a conectividade dos hábitats e estruturando as populações. Contudo, poucos dados existem sobre os efeitos do cultivo agrícola para as populações de anfíbios. Os programas de preservação atuam na recuperação de populações ameaçadas e, em geral, estão baseados na manutenção da máxima quantidade de diversidade genética, de tal forma que, a primeira etapa de um programa conservacionista, consiste na avaliação da variabilidade genética e distribuição desta entre as populações. A estruturação gênica populacional dos organismos, estimada a partir de técnicas de biologia molecular é um aspecto fundamental na caracterização da aptidão das espécies aos ambientes. Particularmente os marcadores moleculares do tipo microssatélite tem acessado com êxito a variabilidade gênica das populações. Assim, foram desenvolvidos loci microssatélites polimórficos para as espécies Hypsiboas raniceps, Leptodactylus chaquensis e Rhinella schneideri e avaliada a variabilidade genética de populações provenientes de hábitats com diferentes tipos de perturbação antrópica (práticas agrícolas, pastagem), com o intuito de relacionar o impacto de diferentes matrizes sobre a diversidade genética. A espécie generalista R. schneideri exibiu um estoque uniforme de variabilidade genética, baixa estruturação e reduzido nível de endogamia em todas as populações, sugerindo um elevado potencial de dispersão, responsável pela homogeneização das populações... / The destruction and modification of habitat are accepted between conservation biologists as the primary causes of biodiversity loss, and the situation for amphibians is no exception. Several anthropogenic processes contribute to the deterioration in the landscape, which can adversely affect amphibian populations by physically altering the aquatic and terrestrial environments, reducing the connectivity of habitats and structuring populations. However, few data exist on the effects of the crop for the populations of amphibians. The conservation programs act in the recovery of threatened populations, and generally are based on maintaining the maximum amount of genetic diversity, therefore, the first step in a conservationist program, is to assess the genetic variability and distribution of this among the populations. Population structure of organisms, estimated from molecular biology techniques is fundamental to characterize the fitness of species to environments. Particularly the molecular markers microsatellite has successfully accessed the genetic variability of populations. Therefore, we developed polymorphic microsatellite loci in the Hypsiboas raniceps, Leptodactylus chaquensis and Rhinella schneideri species and evaluated the genetic variability of populations from habitats with different types of anthropogenic disturbance (agricultural practices, pasture), in order to relate the impact of different matrix on genetic diversity. R. schneideri generalist species showed an even amount of genetic variability, low structure and low level of inbreeding in all populations, suggesting a high potential for dispersal, responsible for the homogenization of populations. However, in L. chaquensis and H. raniceps, the populations located in regions with strong agricultural impact (Tietê Batalha) showed genetically depauperate and strong population structure. It can be concluded... (Complete abstract click electronic access below)

Ecologia animal

Biodiversidade - Conservação

Anfíbio

Genetica de populações

Diversidade biológica

Marcadores microssatélites

Microsatellite

Conservation genetics

Genetic diversity

Population structure

Tamanho populacional de lobos-guará (Chrysocyon brachyurus) em uma área protegida de cerrado no sudeste do Brasil

Ramalho, Fernanda do Passo

30 March 2011

Made available in DSpace on 2016-06-02T20:21:26Z (GMT). No. of bitstreams: 1 3627.pdf: 2008232 bytes, checksum: bc522ebd1f078e56d7c127dd1057d56b (MD5) Previous issue date: 2011-03-30 / Financiadora de Estudos e Projetos / The Maned Wolf (Chrysocyon brachyurus) is listed among the threatened extinction species in Brazil due to loss of its natural habitat to agriculture and frequent roadkill. Aiming to determinate the population size of C. brachyurus into a Ecological Station in the northeast of Sao Paulo State (Estação Ecológica do Jataí EEJ), a non invasive method genetic analysis of feces was employed to confirm the specie findings which deposit the feces, in accordance of morphological characteristics and specific scent of the C. brachyurus specie. Through a panel of five loci microsatellite was possible to identify each collected sample. Among the 41 stool samples, we identified 13 specimens of C. brachyurus in the EEJ. The probability of identity (PID) was 0.8 x 10 -6 and the probability of not detecting allelic (allelic dropout) was 16.2%. There was no imbalance linkage between the analyzed loci. Values for C. brachyurus internal heterozygosity were rated low. The observed heterozygosity (Ho) average was 0.52 and expected heterozygosity (He) average was 0.72. The number of alleles per locus was found to be 5.4. In the analysis of Hardy-Weinberg were found three loci that showed some deviations, after Bonferroni correction: loci 2018, 2054 and 2140. Fis values were highly significant for all into the situ population. The degree of relatedness of individuals, or varied of 0.000 (not relative) to 0.5253 (father and son), indicating that there are related animals in the area. Tests conducted to determine the gender of the samples of C. brachyurus were not found satisfactory results, once the expected fragments were not amplified in any of the tests and in none of the samples. The estimation of the population size of the C. brachyurus in the area of EEJ may be used as reference of management action plans of species conservation. / O lobo-guará (Chrysocyon brachyurus) está listado entre as espécies ameaçadas de extinção no Brasil devido à perda de seu hábitat natural para agropecuária e aos freqüentes atropelamentos. Com o objetivo de determinar o número populacional mínimo de C. brachyurus em uma Unidade de Conservação na região nordeste do estado de São Paulo (Estação Ecológica do Jataí EEJ), um método não invasivo de estudo a análise genética de fezes foi utilizado, procurando-se confirmar os achados da espécie que originalmente depositou as fezes de acordo com as características morfológicas e odores característicos e distintivos para a espécie C. brachyurus. Por meio de um painel de 5 locos de microssatélites, foi possível individualizar cada uma das amostras coletadas em campo. Dentre as 41 fezes coletadas, diagnosticamos 13indivíduos de C. brachyurus na EEJ. A probabilidade de identidade (PID) foi de 0,8 x 10 -6 e a probabilidade de não detecção alélica (allelic dropout) de 16,2%. Observou-se ausência de desequilíbrio de ligação entre os locos analisados. Foram encontrados valores baixos de heterozigosidade para C. brachyurus. A heterozigosidade observada (Ho) média foi de 0,52 e a heterozigosidade esperada (He) média foi de 0,72. A média de alelos por loco encontrada foi de 5,4. Nas análises do equilíbrio de Hardy-Weinberg foram encontrados três locos que apresentaram desvios, após a correção de Bonferroni: locos 2018, 2054 e 2140. Os valores de Fis foram significativos para todos os loco na população. Com relação ao grau de parentesco dos indivíduos, o r variou de 0,000 (não parente) até 0,5253 (pai e filho), indicando que há animais relacionados na área. Foram realizados testes para a determinação do sexo das amostras de C. brachyurus, que não demonstraram resultados satisfatórios, uma vez que os fragmentos esperados não foram amplificados em nenhum dos testes realizados e para nenhuma das amostras. A determinação da estimativa do tamanho populacional de C. brachyurus na área da EEJ pode ser utilizada para implantação de planos de manejo e conservação da espécie.

Genética de populações

Genética da conservação

Lobo guará

Cerrados

Análise não-invasiva

Conservation genetics

Maned Wolf

Non invasive analysis

CIENCIAS BIOLOGICAS::GENETICA

Viabilidade genética de restaurações florestais : diversidade e estrutura genética em Myroxylon peruiferum L.f. / Genetic feasibility of forest restorations : genetic diversity and structure in Myroxylon peruiferum L.f.

Schwarcz, Kaiser Dias, 1982-

26 August 2018

Orientadores: Maria Imaculada Zucchi, Ricardo Ribeiro Rodrigues / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-26T12:21:20Z (GMT). No. of bitstreams: 1 Schwarcz_KaiserDias_D.pdf: 5972760 bytes, checksum: 6089d106796adfd5fab684651bfb298e (MD5) Previous issue date: 2014 / Resumo: A degradação ecológica e o desflorestamento são processos que se iniciaram há muito tempo e cuja história confunde-se com a da agricultura. A Mata Atlântica é a segunda maior floresta tropical em ocorrência e importância na América do Sul, possuindo grande diversidade biológica e altos níveis de endemismo. A ocupação desordenada da Mata Atlântica causou sua redução a 11,26% de sua área original, com distribuição de forma fragmentada pelo território brasileiro. A destruição da Mata Atlântica tem resultado na eliminação de muitas populações e, potencialmente, na erosão da diversidade genética de diversas espécies. Essa combinação de alto endemismo e forte ameaça de extinção, faz com que a Mata Atlântica seja considerada um hotspot para a conservação. Nas últimas décadas a recuperação de ecossistemas degradados recebeu a atenção da comunidade científica, dando origem ao campo do conhecimento chamado Ecologia da Restauração, que se dedica aos estudos teóricos dos princípios, práticas, resultados e conseqüências de projetos de restauração. O estudo e monitoramento de áreas de restauração florestal é essencial para melhorar as técnicas de restauração em ecossistemas tropicais e subtropicais. Para que uma determinada espécie se perpetue em uma área em processo de restauração, é preciso que a mesma desenvolva todo o seu ciclo de vida e que gerem descendentes capazes de se desenvolver a ponto de substituir as árvores mães quando as mesmas entrarem em senescência. Por isso há a necessidade de se estudar a variabilidade genética de populações arbóreas dentro de áreas de floresta restaurada, assim como a ocorrência e efetividade do fluxo gênico entre estas áreas e os fragmentos de seu entorno. Neste trabalho, estudamos a variabilidade genética de Myroxylon peruiferum L. f., em duas diferentes áreas de restauração florestal e em duas áreas de remanescentes naturais de Floresta Estacional Semidecidual. Nossos resultados indicam que as restaurações florestais de Cosmópolis e Iracemápolis conservam diversidades genéticas HE e alélicas semelhantes às de remanescentes naturais. A principal diferença entre áreas naturais e restauradas foi a menor riqueza de alelos endêmicos nestas últimas o que é um efeito de amostragem que favorece a perda de alelos raros. A área de restauração florestal mais antiga em Cosmópolis apresentou uma estruturação genética espacial compatível com a de áreas naturais. O mesmo não ocorreu com a restauração mais recente de Iracemápolis. Observou-se a ocorrência de estruturação genética local nas áreas naturais e na área de restauração mais antiga e indícios de fluxo gênico entre os áreas nativas e restauradas. Um estudo adicional do efeito de amostragem sobre as freqüências alélicas demonstrou o fenômeno de perda de alelos com baixa freqüência em eventos de amostragem. O mesmo trabalho indicou que uma amostra de cerca de 30 indivíduos é capaz de representar adequadamente alelos com freqüências acima de 0,05; sendo este um bom número a se considerar na seleção de matrizes para fornecimento de mudas para restauração florestal / Abstract: Ecological degradation and deforestation are processes that started long ago and whose history is intertwined with that of agriculture. Atlantic Forest is the second largest rainforest in occurrence and importance in South America, having great biological diversity and high levels of endemism. Disordered occupation of Atlantic Forest caused its reduction to 11.26% of the original area, with distribution in forest fragments poorly conected across the Brazilian territory. Destruction of the Atlantic Forest has resulted in the elimination of many populations and potentially the erosion of genetic diversity of several species. This combination of high endemism and strong threat of extinction causes the Atlantic Forest to be considered a hotspot for conservation. In the last decades recovery of degraded ecosystems has received attention from the scientific community giving birth to an new area of knowledge called the Restoration Ecology. The study and monitoring of areas of forest restoration is essential to improve restoration techniques in tropical and subtropical ecosystems. For a given species to perpetuate itself in an area undergoing a restoration process, it needs to develop its whole life cycle and generates progeny capable of developing to the point of replacing mothers trees when they die. Therefore there is a need to study the genetic variability of tree populations within areas of restored forest, as well as the occurrence and effectiveness of gene flow between these areas and surrounding fragments. We studied the genetic variability of Myroxylon peruiferum L. f., in two different areas of forest restoration and in two areas of natural remnants of semideciduous forest. Our results indicates that restorations in Cosmopolis and Iracemápolis conserve genetic and allelic diversity HE similar to that of natural remnants. The main difference between natural and restored areas was the lowest richness of endemic alleles which is the result of a sampling effect that favors the loss of rare alleles. The area of older forest restoration in Cosmopolis presented a spatial genetic structure consistent with natural areas. This did not occur with the newer restoration in Iracemápolis. We observed the occurrence of local genetic structure in natural areas and in the area of older restoration and evidence of gene flow between native and restored areas. An additional study about the effect of sampling size on allele frequencies showed the phenomenon of loss of low frequency alleles in sampling events. The same study found that a sample of about 30 individuals are able to adequately represent alleles with frequencies above 0.05; this is a good number to consider in selecting matrix trees to supply seedlings for forest restoration / Doutorado / Genetica Vegetal e Melhoramento / Doutor em Genetica e Biologia Molecular

Genética da conservação

Microssatélites (Genética)

Ecologia de restauração

Variação genética

Estruturação genética

Conservation genetics

Microsatellites (Genetics)

Restoration ecology

Genetic variation

Genetic structure

Ochranářská genetika vlka obecného a levharta sněžného: vliv krajiny na mikroevoluci populační struktury / Conservation genetics of grey wolf and snow leopard: effect of landscape attributes to the population structure

Benešová, Markéta

January 2018

Landscape genetic approaches allow to study effects of landscape to population microevolution. Landscape can influence gene flow even in large carnivores with good dispersal ability. Understanding the influence of landscape to the gene flow between populations is crucial for species conservation, especially in the species with low population densities. Aim of the study was to describe genetic structure of the grey wolf (Canis lupus) and snow leopard (Panthera uncia) in selected areas and to determine the influence of the landscape features on observed structure. Non-invasive genetic samples of snow leopard from Nepal were analysed, as well as invasive and non-invasive samples of grey wolf from Central Europe. Population structure was determined a posteriori using Bayesian clustering approaches that integrate genetic and geographical data, and compared to landscape connectivity models. Population structure of snow leopards is mostly influenced by human presence and presence of frequented roads, which represent a substantial dispersal barrier. Habitat suitable for this species is greatly restricted by altitude, however, during dispersal they are able to overcome areas with higher elevation than what is optimal for them. Pronounced genetic difference was found between central European and Carpathian...

Diversification in the Neotropics: Insights from Demographic and Phylogenetic Patternsof Lancehead Pitvipers (<i>Bothrops</i> spp.)

Salazar Valenzuela, Christian David

12 October 2016

No description available.

Evolution and Development

Ecology

Zoology

Conservation genetics

cryptic biodiversity

historical demography

lancehead pitvipers

morphology

multispecies coalescent

Neotropics

phylogenomics

phylogeography

Tropical Andes

Inferring demographic history and speciation of grouse using whole genome sequences

Kozma, Radoslav

January 2016

From an ecological perspective, knowledge of demographic history is highly valuable because population size fluctuations can be matched to known climatic events, thereby revealing great insight into a species’ reaction to past climate change. This in turn enables us to predict how they might respond to future climate scenarios. Prominently, with the advent of high-throughput sequencing it is now becoming possible to assemble genomes of non-model organisms thereby providing unprecedented resolution to the study of demographic history and speciation. This thesis utilises four species of grouse (Aves, subfamily Tetraoninae) in order to explore the demographic history and speciation within this lineage; the willow grouse, red grouse, rock ptarmigan and the black grouse. I, and my co-authors, begin by reviewing the plethora of methods used to estimate contemporary effective population size (Ne) and demographic history that are available to animal conservation practitioners. We find that their underlying assumptions and necessary input data can bias in their application, and thus we provide a summary of their applicability. I then use the whole genomes of the black grouse, willow grouse and rock ptarmigan to infer their population dynamics within the last million years. I find three dominant periods that shape their demographic history: early Pleistocene cooling (3-0.9 Mya), the mid-Brunhes event (430 kya) and the last glacial period (110-10 kya). I also find strong signals of local population history – recolonization and subdivision events – affecting their demography. In the subsequent study, I explore the grouse dynamics within the last glacial period in more detail by including more distant samples and using ecological modelling to track habitat distribution changes. I further uncover strong signals of local population history, with multiple fringe populations undergoing severe bottlenecks. I also determine that future climate change is expected to drastically constrict the distribution of the studied grouse. Lastly, I use whole genome sequencing to uncover 6 highly differentiated regions, containing 7 genes, hinting at their role in adaptation and speciation in three grouse taxa. I also locate a region of low differentiation, containing the Agouti pigmentation gene, indicating its role in the grouse plumage coloration.

Demographic history

speciation

effective population size

adaptation

willow grouse

red grouse

black grouse

rock ptarmigan

Tetraoninae

conservation genetics

climate change

PSMC

species distribution modelling

FOXP4

Agouti

Genética de paisagem de suínos no Brasil : identificação de assinaturas de seleção para estudos de conservação e caracterização de rebanhos / Landscape genetic of Brazilian autochthonous swine breeds : an approach to detect signatures of natural selection to studies of conservation and breed characterization

Cesconeto, Robson José

January 2016

Estudos em genética de paisagem, das espécies zootécnicas, podem impulsionar o entendimento dos processos adaptativos, bem como, a maneira que o ambiente afeta o sucesso destas populações. O objetivo principal do projeto foi identificar assinaturas de seleção no genoma populações de suínos naturalizados brasileiros. Procurando obter a maior representatividade da variabilidade genética e ambiental dos suínos dentro do território brasileiros, amostras de DNA de pelo menos um animal e de pelo menos um grupo genético foram obtidas dentro do Banco de Germopalsma da EMBRAPA, totalizando 191 animais de 18 grupos genéticos suínos brasileiras que foram genotipadas, e classificadas de acordo com sua origem dentro de raça ou grupo genético, estado bioma, bacia hidrográfica, tipo de solo, ecoregião e tipo de vegetação. Após um controle de qualidade os genótipos resultantes foram utilizados no calculo das estatísticas F de Wright, equilíbrio de Hardy-Weinberg. Análise de componentes principais, coeficiente de endogamia, analise da variância molecular, testes de Mantel, e a determinação do número ideal de populações. Os dados ambientais foram convertidos em layers através do Qgis e utilizados na detecção de assinaturas de seleção através do BayeScan v2.1 (Foll & Gaggiotti 2008) e do Samβada (Stucki et al. 2014) Os resultados obtidos mostram que as populações estudadas têm uma estrutura variada entre e dentre si. A maior parte da variabilidade genética esta presente nos indivíduos dentro de grupos genéticos, e indivíduos dentro de estados. Existe diferenciação genética dos suínos dentro das variáveis ambientais classificatórias. As raças Monteiro e Marajó foram as que mostraram maiores níveis de estruturação. Os componentes principais mostram proximidade entre as raças comerciais, assim como o elevado grau de variação na composição genéticas das demais raças, com marcante separação dos animais Monteiro e Marajó. Níveis elevados de endogamia foram encontrados. Foram encontrados pelo menos 8 assinaturas de seleção no genoma das raças suínas localmente adaptadas. A freqüência dos genótipos destes marcadores divide o território brasileiro em duas regiões latitudinais distintas. Os níveis de estruturação das populações demonstram uma grande variabilidade genética entre e dentre as raças. As marcas de seleção encontradas demonstram a influência do meio ambiente no sucesso adaptativo destes animais ao território brasileiro. / Study of landscape genetics in livestock species can help understand the adaptive processes and the way that the environment affects the success of these populations. The main objective was the identification of genetic signatures of selection in the Brazilian autochthone swine breeds. We aim the higher representation of genetic and environmental variability from Brazilian territory sampling at least one animal from one genetic group per sampling point. The samples were obtained on CENARGEN-EMBRAPA Germplasm Bank in a total of 191 DNA samples from 19 Brazilian locally adapted swine genetic groups, classified into state, region, biome, hydrological basins, soil type, ecoregion and vegetation type. These samples were genotyped and after a quality control, we calculated Wright’ F-statistics, individual inbreeding coefficient, Hardy-Weinberg equilibrium, Principal components, IBD, Mantel test, an ideal number of subpopulations and an analysis of molecular variance. Environmental data was converted in layers through Qgis and used to detect signatures of selection by BayeScan v2.1 (Foll & Gaggiotti 2008) and Samβada ((Stucki et al. 2014) Population studied had genetic structure among different subpopulations, in a same category. The biggest part of genetic variability is the individual within breed and in individual within state. We found different intensity of population structure in the categories studied, been the he Monteiro and Marajó breeds that ones with highest values from population genetic structure. Principal component analyses showed proximity between commercial breeds, as well as the high degree of genetic variation among other breeds, with great detachment of Monteiro and Marajó animals from others. High inbreeding levels were found. Signatures of selection were found on the genome of Brazilian locally adapted swine pig. The genotypic frequency of these signatures of selection divides the Brazilian territory into two distinct latitudinal regions. The population structure levels demonstrate a wide genetic variability inside and among races. The signatures of natural selection found demonstrate the influence of the environment to successful adaptation of swine in Brazil.

Suíno

Genética de populações

Recurso genético

Brazilian pig

Population genetics

Natural environment genetic structure

Animal genetic resources

Sus scrofa

Population structure

Conservation genetics