Ochranářská genetika vlka obecného ve střední Evropě / Conservation genetics of the grey wolf in Central Europe

Valentová, Kamila Anna

January 2021

Conservation genetics of the grey wolf in Czech Republic and adjacent regions is studied in the present thesis. Analyses of twenty-one microsatellite loci, one sex-determining amelogenin gene and mitochodrial control region were used to verify species determination, identify individuals and estimate relationships between them, analyse population structure and estimate demographic trends based on samples collected between 2014 and 2021. Genetic detection of red fox and dog samples incorrectly assigned to wolves illustrates the hurdles of field monitoring of grey wolf. Direct evidence for the occurrence of F1 hybrids was not found. Wolves from Bohemia showed lower values of allelic richness in comparison to the ones from Western Carpathians, probably as a consequence of recent expansion. Geographic distances between detection sites of identical individuals were relatively small or moderate in this study, suggesting regular movements of animals within their home ranges. Only two long-distance dispersal events exceeding 300 km were detected. Results of parental analysis provided evidence of pack distribution within the studied area. Most relationships were detected between wolves in the northern region of Czech Republic where the first recolonizing wolf pack in 2014 was registered. Within the studied...

Vnitřní struktura balkánského refugia na modelu Erinaceus roumanicus / Internal structure of the Balkan refugium using Erinaceus roumanicus as a model organism

Eliášová, Kristýna

January 2014

The aim of this work was to describe the spatial distribution of genetic variability of the northern white-breasted hedgehog (E. roumanicus), mainly within the Balkan Peninsula and Central Europe, as these areas are crucial for understanding the effects of Pleistocene climate oscillations on the genetic architecture of the species. Based on this spatial distribution, hypotheses about the possible structuring of the Balkan refugia were formulated. A total of 260 individuals and 9 microsatellite loci were used for the analysis. Using the approach of landscape and population genetics several possible isolated subpopulations within the area surveyed were identified. Unique status was proved for a population originating from Crete, probably influenced by mechanisms of island evolution. Differences from the rest of the range were ascertained also in population from the Czech Republic, located in a secondary contact zone with the E. europeaus. The role of interspecific interactions and possible introgression should be considered in this case. In the area of Romania and the area south of the Balkan Peninsula the highest genetic distances between individuals were identified, probably associated with the occurrence of geographical barriers and the possible presence of glacial subrefugia. Other identified...

Fylogeografie of Rousettus aegyptiacus ve Středomoří / Phylogeography of Rousettus aegyptiacus in the Mediterranean region

Dundarova, Cheliana

January 2011

The genus Rousettus has distributional pattern unique among fruitbats comprising both Asia and Africa and reaching northern distributional limits of the family in Persia, Arabia and Mediterranean basin. This could be ascribed to the ability of echolocation, consequent cave dwelling, and presumably other site-specific adaptations, which enabled dispersal independent of forest block and surviving in Mediterranean type of climate. Using fastly evolving mitochondrial marker, we aimed to assess genetic variability, its geographic distribution and demography of northern populations of the Egyptian fruitbat (Rousettus aegyptiacus). Mitochondrial network indicates deep genetic divergence between disjunct Mediterranean and eastern African parts of the range. Basal position of Sinaic and Jordanian haplotypes within northern clade indicate important role of these regions in colonization of eastern Mediterranean. Generally, the northern haplogroup is moderately diversified with partial geographic localization of particular haplotypes. Significant isolation by distance pattern suggests relatively pronounced site fidelity of particular colonies, at least in terms of maternal gene flow. Landscape genetics analyses indicate discontinuities in distribution of mitochondrial genetic variability, in some cases correlating with...

Alopatrická evoluce u kaloňů rodu Rousettus: od populační a krajinné genetiky k fylogeografii / Allopatric evolution in rousettine fruit bats: from population and landscape genetics to phylogeography

Stříbná, Tereza

January 2018

Population structure, biogeography and phylogenetic relationships of the fruit bat genus Rousettus have been studied in Africa and adjacent regions. The current population patterns of rousettine fruit bats in the Old World are influenced by several environmental attributes, namely the topography, climate and land cover. These variables are mirrored in fruit bat plesiomorphies related to the ecological niche of tropical flying frugivore, as well as apomorphies of rousettines including echolocation ability, roosting in caves and dispersal capacity in open landscapes with discontinuous tree cover. Phylogenetic relationships among species and subspecies of the genus have been indicated and confronted with the existing colonization scenarios. Insular populations (including habitat islands within desert oases) show frequent genetic differentiation from their mainland relatives suggesting successful founder events after traversing stretches of unsuitable habitats. Genetic differentiation evolving in less distant islands suggests involving behavioural mechanisms maintaining cohesion of isolated demes as site fidelity and natal habitat-biased dispersal. In sub-Saharan mainland Africa within the large range reaching from the southern border of Sahara to Cape Peninsula, Rousettus populations share a...

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...

Alopatrická evoluce u kaloňů rodu Rousettus: od populační a krajinné genetiky k fylogeografii / Allopatric evolution in rousettine fruit bats: from population and landscape genetics to phylogeography

Stříbná, Tereza

January 2018

Population structure, biogeography and phylogenetic relationships of the fruit bat genus Rousettus have been studied in Africa and adjacent regions. The current population patterns of rousettine fruit bats in the Old World are influenced by several environmental attributes, namely the topography, climate and land cover. These variables are mirrored in fruit bat plesiomorphies related to the ecological niche of tropical flying frugivore, as well as apomorphies of rousettines including echolocation ability, roosting in caves and dispersal capacity in open landscapes with discontinuous tree cover. Phylogenetic relationships among species and subspecies of the genus have been indicated and confronted with the existing colonization scenarios. Insular populations (including habitat islands within desert oases) show frequent genetic differentiation from their mainland relatives suggesting successful founder events after traversing stretches of unsuitable habitats. Genetic differentiation evolving in less distant islands suggests involving behavioural mechanisms maintaining cohesion of isolated demes as site fidelity and natal habitat-biased dispersal. In sub-Saharan mainland Africa within the large range reaching from the southern border of Sahara to Cape Peninsula, Rousettus populations share a...

Variabilité de la résistance/tolérance des campagnols roussâtres à lhantavirus Puumala et conséquences épidémiologiques / Variability of resistance/tolerance to Puumala hantavirus virus in bank voles and epidemiological consequences

Guivier, Emmanuel

17 December 2010

Le campagnol roussâtre Myodes glareolus est le réservoir principal de l'hantavirus Puumala (PUUV) responsable de la néphropathie épidémique (NE) en Europe. L'objectif de cette thèse est de décrire la variabilité de la résistance / tolérance de M. glareolus à PUUV et d'explorer son rôle dans la distribution et la transmission de ce virus. Nous émettons l'hypothèse que la tolérance à PUUV favorise sa persistance et sa transmission, ce qui devrait accroître le risque d'émergence de la NE. Nous avons développé une approche gène candidat pour déterminer le rôle de trois gènes de l'immunité dans la résistance / tolérance à PUUV. L'existence d'associations positives entre les allèles du gène Drb et l'infection par PUUV d'une part et les relations négatives détectées entre le niveau d'expression du gène Tnf-α et la prévalence en PUUV d'autre part corroborent l'évolution d'une tolérance en zones d'endémie de la NE. Elle pourrait être sélectionnée en réponse au coût de la réponse inflammatoire développée contre PUUV. L'approche de génétique des populations a démontré le rôle de la dynamique des réservoirs dans l'épidémiologie de PUUV. La comparaison du polymorphisme des gènes Drb et Tnf-α et des patrons génétiques neutres semble cependant indiquer une faible influence de la sélection dans le polymorphisme de ces gènes. Ce résultat suggère un effet potentiellement important de la plasticité phénotypique dans les niveaux de résistance/tolérance observés. L'étude de la communauté d'helminthes a confirmé cette hypothèse en révélant l'impact de certaines espèces sur le risque d'infection à PUUV. / The bank vole Myodes glareolus is the main reservoir of Puumala hantavirus (PUUV), the agent of nephropathia epidemica (NE) in Europe. This work aims at describing the variability of M. glareolus resistance / tolerance to PUUV and at exploring its role in the distribution and transmission of the virus. We hypothesized that tolerance to PUUV should favour its persistence and transmission, what could increase the risk of NE emergence.We developed a candidate gene approach to determine the role of three immune genes in the resistance / tolerance to PUUV. Both the detection of positive associations between Drb alleles and PUUV infection and the negative relationship observed between Tnf-α gene expression and PUUV prevalence corroborated the evolution of tolerance in NE endemic areas. The costly inflammatory response activated against PUUV infection could mediate this evolution.Using landscape population genetics, we revealed the role of M. glareolus population dynamics in PUUV epidemiology. The comparison of Drb and Tnf-α genetic differentiation with the neutral pattern detected at microsatellites indicated that selection weakly acted on these immune genes. This result suggested the potential effect of phenotypic plasticity in the balance of resistance/tolerance to PUUV. The study of helminth communities confirmed this hypothesis as it revealed the impact of two nematode species on the risk of PUUV infection

Tolérance

Immunoécologie

Génétique du paysage

Virus Puumala

Myodes glareolus

Complexe majeur dhistocompatibilité

Tolerance

Immunoecology

Landscape genetics

Virus Puumala

Myodes glareolus

Major histocompatibility complex

Hierarchical Structure and Diversity in a Dendritic Lake Trout (Salvelinus Namaycush) System in Northern Labrador

McCracken, Gregory

24 September 2012

I examined the relationship between landscape attributes and population differentiation among lake trout (Salvelinus namaycush) populations inhabiting a hierarchically structured dendritic freshwater system in northern Labrador, the Kogaluk River system. Samples were collected from a total of 10 lakes which differed in size, elevation, level of connectivity, and position within the system. STRUCTURE analysis provided evidence of significant population structure within the system likely attributed to a varying degree of asymmetric gene flow. Gene flow estimates were generally low and appear to be influenced by the presence of waterfalls as well as geographic distance. Isolation by distance tests coupled with decomposed pairwise regression analysis suggest a significant influence of geographic distance on population differentiation. Mantel testing also showed that population differentiation is significantly correlated with the position of waterfalls. Estimates of effective population size reveal significantly smaller population sizes in headwater lakes, a pattern not attributed to lake size.

lake trout

salvelinus namaycush

landscape genetics

kogaluk river

kogaluk

molecular biology

population structure

northern labrador

salmonid

salmonid population structure

spatial fragmentation

dendritic

BIOGEOGRAPHY AND DIVERSIFICATION OF THE ANDEAN SEEDSNIPES (Thinocoridae): AN ANTARCTIC AVIAN LINEAGE ?

IBARGUCHI, GABRIELA

18 August 2011

South America and the Andes harbour a rich biodiversity. High levels of in-situ speciation, survival of relict lineages into modern times, and mixing of biotas (Gondwanian and North American), have been demonstrated to contribute to the extant biodiversity. Here I examined the four species in the shorebird family Thinocoridae (seedsnipes) as a test case of complementary hypotheses about the origins of this diversity: 1) that some lineages arose from cold-adapted Antarctic ancestors (post-Gondwana), and 2) that the Andes have promoted diversification through vicariance and via the creation of novel alpine niches. First, I reviewed the tectonic and environmental history of the Andes, and the major biogeographic patterns in South America. Second, I reviewed Antarctic and Southern Hemisphere paleoenvironments, putative refugia, colonisation routes, molecular and biogeographic studies, and found strong evidence supporting the role of Antarctica as a source of global cold-hardy biodiversity. Third, I developed universal protocols to purify mitochondrial DNA (mtDNA). Using these methods, I uncovered nuclear pseudogenes, true mtDNA heteroplasmy, and possible hybridisation between seedsnipe lineages. Fourth, I investigated geographic patterns in seedsnipe morphology in four species. I also investigated the relationships of ecogeographic variables related to cold on morphology. I found strong and significant regional differences particularly in the smaller Thinocorus species, including an effect of the high Central Andes. Altitude, latitude, and wind (the effect of cold) have shaped seedsnipe morphology; Thinocoridae as a group generally support Bergmann’s and Allen’s rules. Fifth, based on phylogeographic and phylogenetic analyses of mtDNA and hemoglobin sequences, a putative southern origin for seedsnipes was supported, and an early origin in alpine habitats is suggested. Sixth, I compared data on Andean uplift and glaciation in South America, and found concordance between seedsnipe diversity, known areas of endemism in other taxa, and paleoenvironmental history. Finally, I briefly examined molecular evolution in hemoglobins and mtDNA and found preliminary evidence of adaptations to high altitude (hemoglobins) and to cold (mtDNA and hemoglobins). In summary, an Antarctic ancestor for seedsnipes, pre-adapted for life in the Andes, is supported. Antarctica may have contributed a great proportion of cold-hardy biodiversity to the South and globally. / Thesis (Ph.D, Biology) -- Queen's University, 2011-08-17 23:30:31.324

phylogeography

Antarctica

South America

morphology

Andes

mountains

population genetics

evolution

morphometrics

phylogenetics

cold

high altitude

landscape genetics

hemoglobins

mitochondrial DNA

environment

Les impacts de la dispersion historique sur la variabilité génétique à différentes échelles spatiales : connaître l'histoire pour mieux comprendre le présent.

Cyr, Frédéric

08 1900

La variabilité génétique actuelle est influencée par une combinaison complexe de variables historiques et contemporaines. Dès lors, une interprétation juste de l’impact des processus actuels nécessite une compréhension profonde des processus historiques ayant influencé la variabilité génétique. En se basant sur la prémisse que des populations proches devraient partager une histoire commune récente, nombreuses études, effectuées à petite échelle spatiale, ne prennent pas en considération l’effet potentiel des processus historiques. Cette thèse avait pour but de vérifier la validité de cette prémisse en estimant l’effet de la dispersion historique à grande et à petite échelle spatiale. Le premier volet de cette thèse avait pour but d’évaluer l’impact de la dispersion historique sur la répartition des organismes à grande échelle spatiale. Pour ce faire, les moules d’eau douce du genre flotteurs (Pyganodon spp.) ont servies de modèle biologique. Les moules d'eau douce se dispersent principalement au stade larvaire en tant que parasites des poissons. Une série de modèles nuls ont été développés pour évaluer la co-occurrence entre des parasites et leurs hôtes potenitels. Les associations distinctes du flotteur de Terre-Neuve (P. fragilis) avec des espèces de poissons euryhalins permettent d’expliquer sa répartition. Ces associations distinctes ont également pu favoriser la différenciation entre le flotteur de Terre-Neuve et son taxon soeur : le flotteur de l’Est (P. cataracta). Cette étude a démontré les effets des associations biologiques historiques sur les répartitions à grande échelle spatiale. Le second volet de cette thèse avait pour but d’évaluer l’impact de la dispersion historique sur la variabilité génétique, à petite échelle spatiale. Cette fois, différentes populations de crapet de roche (Ambloplites rupestris) et de crapet soleil (Lepomis gibbosus), dans des drainages adjacents ont servies de modèle biologique. Les différences frappantes observées entre les deux espèces suggèrent des patrons de colonisation opposés. La faible diversité génétique observée en amont des drainages et la forte différenciation observée entre les drainages pour les populations de crapet de roche suggèrent que cette espèce aurait colonisé les drainages à partir d'une source en aval. Au contraire, la faible différenciation et la forte diversité génétique observées en amont des drainages pour les populations de crapet soleil suggèrent une colonisation depuis l’amont, induisant du même coup un faux signal de flux génique entre les drainages. La présente étude a démontré que la dispersion historique peut entraver la capacité d'estimer la connectivité actuelle, à petite échelle spatiale, invalidant ainsi la prémisse testée dans cette thèse. Les impacts des processus historiques sur la variabilité génétique ne sont pas faciles à démontrer. Le troisième volet de cette thèse avait pour but de développer une méthode permettant de les détecter. La méthode proposée est très souple et favorise la comparaison entre la variabilité génétique et plusieurs hypothèses de dispersion. La méthode pourrait donc être utilisée pour comparer des hypothèses de dispersion basées sur le paysage historique et sur le paysage actuel et ainsi permettre l’évaluation des impacts historiques et contemporains sur la variabilité génétique. Les performances de la méthode sont présentées pour plusieurs scénarios de simulations, d’une complexité croissante. Malgré un impact de la différentiation globale, du nombre d’individus ou du nombre de loci échantillonné, la méthode apparaît hautement efficace. Afin d’illustrer le potentiel de la méthode, deux jeux de données empiriques très contrastés, publiés précédemment, ont été ré analysés. Cette thèse a démontré les impacts de la dispersion historique sur la variabilité génétique à différentes échelles spatiales. Les effets historiques potentiels doivent être pris en considération avant d’évaluer les impacts des processus écologiques sur la variabilité génétique. Bref, il faut intégrer l’évolution à l’écologie. / Current genetic variability depends on a complex combination of historical and contemporary factors. Therefore, an unbiased interpretation of the impact of current processes requires a deep understanding of historical processes that shaped genetic variability. Based on the premise that spatially close populations should share a common recent history, many studies conducted at small spatial scale do not take into account the effect of historical processes. This thesis aims to verify the validity of this assumption by estimating the effect of historical dispersion at large and small spatial scales. The aim of the first part of this thesis was to evaluate the impact of the historical dispersion on the distribution of organisms, at large spatial scale. The freshwater mussels of the genus Floater (Pyganodon spp.) were used as biological model. The dispersal of freshwater mussels occurs when larvae parasitize fish. Also, a series of null models has been developed to evaluate the co-occurrence between parasites and their hosts. The distinct associations of the Newfoundland floater (P. fragilis) with euryhaline fish species can explain its distribution. These associations also promoted differentiation with its sister taxon: the Eastern floater (P. cataracta). This study demonstrated the effects of historical biological associations on the current distribution of species at a large spatial scale. The aim of the second part of this thesis was to evaluate the impact of historical dispersal on the genetic variability, at small spatial scale. This time populations of rock bass (Ambloplites rupestris) and sunfish (Lepomis gibbosus) in adjacent drainages were used as biological model. The striking differences observed between the two species suggest opposing colonization patterns. Rock bass have colonized the drainage from a downstream source, resulting in low genetic diversity upstream and a strong differentiation between drainages. However, the sunfish have colonized the system from upstream, resulting in a high genetic diversity and low differentiation upstream, inducing at the same time a false signal of gene flow between drainages. The present study shows that the historical dispersion may hinder the ability to estimate the actual connectivity at small spatial scale, thus invalidating the premise tested in this thesis. The impacts of historical processes on genetic variability are not easy to demonstrate. The aim of the third part of this thesis was to develop a method to facilitate their detection. The proposed method is very flexible and facilitates the comparison between genetic variability and multiple dispersal hypotheses. The method could be used to compare dispersal hypotheses based on the historic or the current landscape and allow the assessment of historical and contemporary processes on genetic variability. The performances of the method are presented in several simulation scenarios, of increasing complexity. Despite an overall impact of differentiation, the number of individuals or the number of loci sampled, the method is highly effective. To illustrate the potential of the method, two contrasted data sets from previously published studies, were re-analyzed. This thesis demonstrates the impacts of historical dispersal on genetic variability at different spatial scales. Potential historical effects must be taken into account before assessing the impacts of ecological processes on genetic variability. In short, we must bridge the gap between ecology and evolution.

Patrons de colonisation

Dispersion historique

génétique du paysage

connectivité

associations biologiques

réseau génétique

Patterns of colonization

historical dispersion

Landscape genetics

connectivity

biological associations

genetic network