Pollination ecology of Trachymene incisa (Apiaceae): Understanding generalised plant-pollinator systems

Davila, Yvonne Caroline

January 2006

Doctor of Philosophy (PhD) / A renewed focus on generalised pollinator systems has inspired a conceptual framework which highlights that spatial and temporal interactions among plants and their assemblage of pollinators can vary across the individual, population, regional and species levels. Pollination is clearly a dynamic interaction, varying in the number and interdependence of participants and the strength of the outcome of the interaction. Therefore, the role of variation in pollination is fundamental for understanding ecological dynamics of plant populations and is a major factor in the evolution and maintenance of generalised and specialised pollination systems. My study centred on these basic concepts by addressing the following questions: (1) How variable are pollinators in a generalised pollination system? To what degree do insect visitation rates and assemblage composition vary spatially among populations and temporally among flowering seasons? (2) How does variation in pollinators affect plant reproductive success? I chose to do this using a model system, Trachymene incisa subsp. incisa (Apiaceae), which is a widespread Australian herbaceous species with simple white flowers grouped into umbels that attract a high diversity of insect visitors. The Apiaceae are considered to be highly generalist in terms of pollination, due to their simple and uniform floral display and easily accessible floral rewards. Three populations of T. incisa located between 70 km and 210 km apart were studied over 2-3 years. The few studies investigating spatial and temporal variation simultaneously over geographic and yearly/seasonal scales indicate that there is a trend for more spatial than temporal variation in pollinators of generalist-pollinated plants. My study showed both spatial and temporal variation in assemblage composition among all populations and variation in insect visitation rates, in the form of a significant population by year interaction. However, removing ants from the analyses to restrict the assemblage to flying insects and the most likely pollinators, resulted in a significant difference in overall visitation rate between years but no difference in assemblage composition between the Myall Lakes and Tomago populations. These results indicate more temporal than spatial variation in the flying insect visitor assemblage of T. incisa. Foraging behaviour provides another source of variation in plant-pollinator interactions. Trachymene incisa exhibits umbels that function as either male or female at any one time and offer different floral rewards in each phase. For successful pollination, pollinators must visit both male and female umbels during a foraging trip. Insects showed both preferences and non-preferences for umbel phases in natural patches where the gender ratio was male biased. In contrast, insects showed no bias in visitation during a foraging trip or in time spent foraging on male and female umbels in experimental arrays where the gender ratio was equal. Pollinator assemblages consisting of a mixture of different pollinator types coupled with temporal variation in the assemblages of populations among years maintains generalisation at the population/local level. In addition, spatial variation in assemblages among populations maintains generalisation at the species level. Fire alters pollination in T. incisa by shifting the flowering season and reducing the abundance of flying insects. Therefore, fire plays an important role in maintaining spatial and temporal variation in this fire-prone system. Although insect pollinators are important in determining the mating opportunities of 90% of flowering plant species worldwide, few studies have looked at the effects of variation in pollinator assemblages on plant reproductive success and mating. In T. incisa, high insect visitation rates do not guarantee high plant reproductive success, indicating that the quality of visit is more important than the rate of visitation. This is shown by comparing the Agnes Banks and Myall Lakes populations in 2003: Agnes Banks received the highest visitation rate from an assemblage dominated by ants but produced the lowest reproductive output, and Myall Lakes received the lowest visitation rate by an assemblage dominated by a native bee and produced the highest seedling emergence. Interestingly, populations with different assemblage composition can produce similar percentage seed set per umbel. However, similar percentage seed set did not result in similar percentage seedling emergence. Differences among years in reproductive output (total seed production) were due to differences in umbel production (reproductive effort) and proportion of umbels with seeds, and not seed set per umbel. Trachymene incisa is self-compatible and suffers weak to intermediate levels of inbreeding depression through early stages of the life cycle when seeds are self-pollinated and biparentally inbred. Floral phenology, in the form of synchronous protandry, plays an important role in avoiding self-pollination within umbels and reducing the chance of geitonogamous pollination between umbels on the same plant. Although pollinators can increase the rate of inbreeding in T. incisa by foraging on both male and female phase umbels on the same plant or closely related plants, most consecutive insect movements were between plants not located adjacent to each other. This indicates that inbreeding is mostly avoided and that T. incisa is a predominantly outcrossing species, although further genetic analyses are required to confirm this hypothesis. A new conceptual understanding has emerged from the key empirical results in the study of this model generalised pollination system. The large differences among populations and between years indicate that populations are not equally serviced by pollinators and are not equally generalist. Insect visitation rates varied significantly throughout the day, highlighting that sampling of pollinators at one time will result in an inaccurate estimate and usually underestimate the degree of generalisation. The visitor assemblage is not equivalent to the pollinator assemblage, although non-pollinating floral visitors are likely to influence the overall effectiveness of the pollinator assemblage. Given the high degree of variation in both the number of pollinator species and number of pollinator types, I have constructed a model which includes the degree of ecological and functional specialisation of a plant species on pollinators and the variation encountered across different levels of plant organisation. This model describes the ecological or current state of plant species and their pollinators, as well as presenting the patterns of generalisation across a range of populations, which is critical for understanding the evolution and maintenance of the system. In-depth examination of pollination systems is required in order to understand the range of strategies utilised by plants and their pollinators, and I advocate a complete floral visitor assemblage approach to future studies in pollination ecology. In particular, future studies should focus on the role of introduced pollinators in altering generalised plant-pollinator systems and the contribution of non-pollinating floral visitors to pollinator assemblage effectiveness. Comparative studies involving plants with highly conserved floral displays, such as those in the genus Trachymene and in the Apiaceae, will be useful for investigating the dynamics of generalised pollination systems across a range of widespread and restricted species.

plant-pollinator interactions

pollination ecology

Apiaceae, Apiales

Araliaceae, Apiales

Trachymene incisa

insect pollination

floral visitors

generalist pollinators

plant reproduction

seed production

umbel inflorescence

inbreeding depression

self compatible

dichogamy

protandry

Agnes Banks Woodland - NSW, Australia

Controlling of dairy cattle breeding programs / Controlling von Milchrinderzuchtprogrammen

Schierenbeck, Sven

29 June 2010

No description available.

630 Landwirtschaft

Veterinärmedizin

Agricultural Sciences

Genetische Parameter

Holsteins

Rinderzuchtprogramme

Testherden

Inzucht

genetic parameters

Holsteins

cattle breeding programs

cooperator herds

inbreeding

optimum genetic contribution

daughter yield deviations

48.64 Tierzucht

YFT 200 Spezielle Tierzucht Rinder

Pollination ecology of Trachymene incisa (Apiaceae): Understanding generalised plant-pollinator systems

Davila, Yvonne Caroline

January 2006

Doctor of Philosophy (PhD) / A renewed focus on generalised pollinator systems has inspired a conceptual framework which highlights that spatial and temporal interactions among plants and their assemblage of pollinators can vary across the individual, population, regional and species levels. Pollination is clearly a dynamic interaction, varying in the number and interdependence of participants and the strength of the outcome of the interaction. Therefore, the role of variation in pollination is fundamental for understanding ecological dynamics of plant populations and is a major factor in the evolution and maintenance of generalised and specialised pollination systems. My study centred on these basic concepts by addressing the following questions: (1) How variable are pollinators in a generalised pollination system? To what degree do insect visitation rates and assemblage composition vary spatially among populations and temporally among flowering seasons? (2) How does variation in pollinators affect plant reproductive success? I chose to do this using a model system, Trachymene incisa subsp. incisa (Apiaceae), which is a widespread Australian herbaceous species with simple white flowers grouped into umbels that attract a high diversity of insect visitors. The Apiaceae are considered to be highly generalist in terms of pollination, due to their simple and uniform floral display and easily accessible floral rewards. Three populations of T. incisa located between 70 km and 210 km apart were studied over 2-3 years. The few studies investigating spatial and temporal variation simultaneously over geographic and yearly/seasonal scales indicate that there is a trend for more spatial than temporal variation in pollinators of generalist-pollinated plants. My study showed both spatial and temporal variation in assemblage composition among all populations and variation in insect visitation rates, in the form of a significant population by year interaction. However, removing ants from the analyses to restrict the assemblage to flying insects and the most likely pollinators, resulted in a significant difference in overall visitation rate between years but no difference in assemblage composition between the Myall Lakes and Tomago populations. These results indicate more temporal than spatial variation in the flying insect visitor assemblage of T. incisa. Foraging behaviour provides another source of variation in plant-pollinator interactions. Trachymene incisa exhibits umbels that function as either male or female at any one time and offer different floral rewards in each phase. For successful pollination, pollinators must visit both male and female umbels during a foraging trip. Insects showed both preferences and non-preferences for umbel phases in natural patches where the gender ratio was male biased. In contrast, insects showed no bias in visitation during a foraging trip or in time spent foraging on male and female umbels in experimental arrays where the gender ratio was equal. Pollinator assemblages consisting of a mixture of different pollinator types coupled with temporal variation in the assemblages of populations among years maintains generalisation at the population/local level. In addition, spatial variation in assemblages among populations maintains generalisation at the species level. Fire alters pollination in T. incisa by shifting the flowering season and reducing the abundance of flying insects. Therefore, fire plays an important role in maintaining spatial and temporal variation in this fire-prone system. Although insect pollinators are important in determining the mating opportunities of 90% of flowering plant species worldwide, few studies have looked at the effects of variation in pollinator assemblages on plant reproductive success and mating. In T. incisa, high insect visitation rates do not guarantee high plant reproductive success, indicating that the quality of visit is more important than the rate of visitation. This is shown by comparing the Agnes Banks and Myall Lakes populations in 2003: Agnes Banks received the highest visitation rate from an assemblage dominated by ants but produced the lowest reproductive output, and Myall Lakes received the lowest visitation rate by an assemblage dominated by a native bee and produced the highest seedling emergence. Interestingly, populations with different assemblage composition can produce similar percentage seed set per umbel. However, similar percentage seed set did not result in similar percentage seedling emergence. Differences among years in reproductive output (total seed production) were due to differences in umbel production (reproductive effort) and proportion of umbels with seeds, and not seed set per umbel. Trachymene incisa is self-compatible and suffers weak to intermediate levels of inbreeding depression through early stages of the life cycle when seeds are self-pollinated and biparentally inbred. Floral phenology, in the form of synchronous protandry, plays an important role in avoiding self-pollination within umbels and reducing the chance of geitonogamous pollination between umbels on the same plant. Although pollinators can increase the rate of inbreeding in T. incisa by foraging on both male and female phase umbels on the same plant or closely related plants, most consecutive insect movements were between plants not located adjacent to each other. This indicates that inbreeding is mostly avoided and that T. incisa is a predominantly outcrossing species, although further genetic analyses are required to confirm this hypothesis. A new conceptual understanding has emerged from the key empirical results in the study of this model generalised pollination system. The large differences among populations and between years indicate that populations are not equally serviced by pollinators and are not equally generalist. Insect visitation rates varied significantly throughout the day, highlighting that sampling of pollinators at one time will result in an inaccurate estimate and usually underestimate the degree of generalisation. The visitor assemblage is not equivalent to the pollinator assemblage, although non-pollinating floral visitors are likely to influence the overall effectiveness of the pollinator assemblage. Given the high degree of variation in both the number of pollinator species and number of pollinator types, I have constructed a model which includes the degree of ecological and functional specialisation of a plant species on pollinators and the variation encountered across different levels of plant organisation. This model describes the ecological or current state of plant species and their pollinators, as well as presenting the patterns of generalisation across a range of populations, which is critical for understanding the evolution and maintenance of the system. In-depth examination of pollination systems is required in order to understand the range of strategies utilised by plants and their pollinators, and I advocate a complete floral visitor assemblage approach to future studies in pollination ecology. In particular, future studies should focus on the role of introduced pollinators in altering generalised plant-pollinator systems and the contribution of non-pollinating floral visitors to pollinator assemblage effectiveness. Comparative studies involving plants with highly conserved floral displays, such as those in the genus Trachymene and in the Apiaceae, will be useful for investigating the dynamics of generalised pollination systems across a range of widespread and restricted species.

plant-pollinator interactions

pollination ecology

Apiaceae, Apiales

Araliaceae, Apiales

Trachymene incisa

insect pollination

floral visitors

generalist pollinators

plant reproduction

seed production

umbel inflorescence

inbreeding depression

self compatible

dichogamy

protandry

Agnes Banks Woodland - NSW, Australia

Estrutura genética de populações de Euterpe edulis Mart. submetidas à ação antrópica utilizando marcadores alozímicos e microssatélites. / Genetic structure of Euterpe edulis Mart. populations submitted to human exploitation using allozymic and microsatellite markers.

Rudimar Conte

22 April 2004

O palmiteiro (Euterpe edulis Mart.) é uma espécie nativa da Mata Atlântica cujas populações naturais encontram-se degradadas pelo extrativismo. Considerando a escassez de informações relativas às conseqüências genéticas da exploração de palmito, o objetivo deste estudo foi avaliar o impacto do processo de exploração sobre os níveis de diversidade, estrutura genética e tamanho efetivo de populações da espécie. Também foram estudados aspectos genéticos do recrutamento de plantas e o sistema reprodutivo da espécie. O estudo foi realizado em duas localidades do Estado de Santa Catarina, nos municípios de São Pedro de Alcântara e Ibirama. Em cada localidade foram escolhidas duas áreas de ocorrência natural de E. edulis, uma sem influência antrópica e outra que sofreu exploração de palmito, totalizando quatro populações. Os sistemas de exploração foram: (i) extrativismo - onde todos os indivíduos acima de 2 m de altura são cortados, incluindo plantas reprodutivas; and (ii) manejo - onde somente indivíduos acima de 9 cm de DAP são cortados, com a manutenção de 50 plantas reprodutivas por hectare. Em cada população foram examinadas plântulas, jovens e adultos, usando oito locos microssatélites e dez locos alozímicos. Os resultados revelaram que a espécie se reproduz por alogamia ( m tˆ = 0,996 para microssatélites e m tˆ = 1,000 para isoenzimas), porém a ocorrência de cruzamentos entre indivíduos aparentados (até 5%) e cruzamentos biparentais (10%) indica a ocorrência de cruzamentos não aleatórios. Em locos alozímicos, observaram-se as seguintes amplitudes de variação das estimativas de diversidade entre as categorias: Aˆ : 3,05 a 3,15; e Hˆ : 0,416 a 0,431; o Hˆ : 0,378 a 0,403. Em locos microssatélites, a variação observada foi a seguinte: Aˆ : 14,12 a 14,72; e Hˆ : 0,781 a 0,785; o Hˆ : 0,678 a 0,709. Nas populações não exploradas, houve um aumento na freqüência de heterozigotos na direção do estádio adulto, o que sugere a ação da seleção favorecendo o aumento de heterozigotos. Valores altos e significativos do índice de fixação ( fˆ ) foram observados, especialmente nos marcadores microssatélites, indicando desvios do equilíbrio de Hardy-Weinberg. De modo geral, ambos os marcadores revelaram um aumento dos valores de fˆ nas populações exploradas, especialmente entre as plântulas. As estimativas ST Gˆ e ST Rˆ não revelaram alterações na estrutura genética das populações exploradas e demostraram uma divergência genética inferior a 5% na maioria das comparações aos pares, em ambos os marcadores. O tamanho efetivo ( e Nˆ ) dos indivíduos adultos por hectare foi superior a 110 nas populações não pertubadas, enquanto nas populações exploradas, o tamanho efetivo por hectare foi reduzido para 45, sob manejo, e 14, sob extrativismo. Porém, o tamanho efetivo total das populações exploradas ainda é elevado, o que explica a manutenção dos altos níveis de diversidade nessas populações. Finalmente, a informação genética conjunta desses marcadores demonstrou que os efeitos da exploração foram pouco pronunciados até o momento em relação aos níveis de diversidade e estrutura genética das populações de E. edulis. Entretanto, a redução da população de cruzamentos resultou em alterações no comportamento reprodutivo dos indivíduos, promovendo um aumento nos níveis de endogamia nas coortes mais jovens das populações exploradas. Contudo, os resultados obtidos neste estudo indicaram questões adicionais a serem estudadas. Em função do elevado nível de variabilidade dos locos microssatélites observado em E. edulis, recomenda-se aumentar o tamanho das amostras visando otimizar a informação genética proporcionada por esses marcadores. Além disso, novos estudos são necessários sobre os efeitos do manejo tecnificado, uma vez que os resultados obtidos podem ter sido influenciados por outros eventos de exploração ocorridos no passado e pelas populações existentes nas proximidades devido ao elevado fluxo gênico da espécie. / Heart-of-palm tree (Euterpe edulis Mart.; Arecaceae) is a native species of the Atlantic forest whose natural populations are degraded by extractivism. Regarding the relative scarcity of information on the genetic consequences of palm heart exploitation, the aim of this study was to investigate the effects of two exploitation systems - extractivism and management - on the levels of variability, genetic structure and effective size of Euterpe edulis Mart. populations. We also investigated genetic aspects of the plant recruitment and the reproductive system of the species. Four natural populations of E. edulis with different histories of disturbance were surveyed in the districts of São Pedro de Alcântara and Ibirama, Santa Catarina, Brazil. At both sites, we sampled an undisturbed and an exploited population. The exploitation systems were: (i) extractivism - where most individuals higher than 2 m are harvested, including reproductive plants; and (ii) management - where only individuals with more than 9 cm of DBH are harvested, with the maintainance of 50 reproductive plants per ha. Three categories of plants, from seedlings to adults, were examined using eight microsatellite loci and ten allozyme loci. Results demonstrated the preferentially allogamic behaviour of the species ( m tˆ = 0.996 for microsatellites and m tˆ = 1.000 for allozymes), but the occurrence of matings among related individuals (5%) and biparental matings (10%) indicated the existence of non-random matings in this species. For allozymic loci, the following diversity estimates were obtained among the categories: Aˆ : 3.05 to 3.15; e Hˆ : 0.416 to 0.431; o Hˆ : 0.378 to 0.403. For microsatellites, the estimates were as follows: Aˆ : 14.12 to 14.72; e Hˆ : 0.781 to 0.785; o Hˆ : 0.678 to 0.709. In undisturbed populations, there was an increase in heterozygote frequency towards the adult stages, suggesting the action of natural selection favouring such heterozygote increase. Highly significant values of fixation index ( fˆ ) were observed, mainly at microsatellite loci, indicating departures from Hardy-Weinberg expectation. Both markers displayed an increase of fˆ values in the exploited populations, especially for seedlings. The estimates of interpopulation genetic variation ( ST Gˆ ; ST Rˆ ) revealed that more than 95% of the molecular genetic variability of the species is distributed within populations, and there was no evidence of changes in genetic structure of the exploited populations. Effective size ( e Nˆ ) per hectare of the adult individuals was higher than 110 in the two undisturbed populations, while in the exploited populations the effective size per hectare was reduced to 45 under management, and 14 under extractivism. However, the total effective size of the exploited populations was still high, which explains the maintenance of high diversity levels in these populations. Finally, the genetic information from both markers displayed small pronounced effects of the exploitation process on variability and population genetic structure of E. edulis, with the exception of an increase in the inbreeding levels among seedlings and juveniles of the exploited populations. However, our results raised further questions for study. Because of the hypervariability of microssatellite loci used in this work, we would recommend an increase in the sample size (>100) in order to optimize the genetic information provided by these markers. Moreover, new investigations are necessary on the effects of management, since the results from this study could have been influenced by other exploitation events that have occurred in the past and by the existence, due to the high gene flow of the species, of surrounding undisturbed populations.

deriva genética

endogamia

exploração florestal

marcador molecular

melhoramento genético vegetal

palmito (extração)

populações vegetais

seleção natural

variação genética

effective size

forest exploitation

genetic diversity

genetic drift

heart-of-palm (harvest)

inbreeding

molecular markers

natural selection

plant breeding

plant populations

Des mécanismes aux conséquences adaptatives du choix du partenaire sexuel pour la compatibilité génétique : exemple d'un hyménoptère parasitoïde soumis à la dépression de consanguinité / From mechanisms to adaptive consequences of mate choice for genetic compatibility : example of a hymenopteran parasitoid subject to inbreeding depression

Chuine, Anna

21 May 2014

L’haplodiploïdie chez les hyménoptères leur confère une meilleure résistance aux effets délétères de la dépression de consanguinité. Cependant, certains hyménoptères ont un déterminisme du sexe particulier qui les rend sensibles à cette dépression. Chez ces espèces, le genre des individus dépend de la complémentarité des allèles à un locus donné, le single-locus Complementary Sex Determination (sl-CSD). Les oeufs non fécondés se développent en mâles haploïdes alors hémizygotes au locus de CSD. En revanche les oeufs fécondés donnent des femelles diploïdes s’ils sont hétérozygotes au locus du CSD mais deviennent des mâles diploïdes s’ils sont homozygotes pour ce même locus. Ces derniers sont d’autant plus fréquents dans les populations consanguines où le taux d’homozygotes est élevé. Or, les mâles diploïdes sont dans la majorité des cas non viables ou stériles. La production de tels mâles est de ce fait coûteuse pour les femelles. La faible viabilité des mâles diploïdes s’apparente alors à de la dépression de consanguinité. Par des approches liées à l’écologie comportementale et à l’écologie chimique le projet de thèse se concentre sur l’étude des coûts individuels générés par la production de mâles diploïdes et à l’évolution des comportements sélectionnés en réponse à ces coûts. Dans un premier temps, je me suis intéressée à la fitness des mâles diploïdes et aux répercussions de leur production sur les femelles de la population. Dans un second temps, j’ai étudié les comportements permettant de réduire les coûts de la production des mâles diploïdes. Les individus apparentés représentent les partenaires sexuels où le risque de produire des fils diploïdes est le plus élevé. De ce fait, les comportements d’évitement de la consanguinité devraient être sélectionnés dans ces populations / Haplodiploidy in hymenopterans offers a great resistance to the deleterious effect of inbreeding depression. However, some hymenopterans have a specific sex determination which drives them to this depression. Among those species, the sex of individuals depends on allele complementary at a particular locus; the single-locus Complementary Sex Determinatation (sl-CSD). Unfertilized eggs give birth to haploid males which are hemizygotes at the CSD locus. Conversely, fertilized eggs develop into females when heterozygote at the CSD locus but become diploid males when homozygote at the same locus. Diploid males are especially frequent in inbred populations with a high inbreeding rate. Yet diploid males are generally unviable or sterile. Production of such males is therefore costly for females. Reduced viability of diploid males is then similar to inbreeding depression. Linked with behavioural ecology and chemical ecology approaches, the PhD project starts by focusing on individual costs due to production of diploid males, and then on behaviours that have evolved in response to these costs. As a first step, the fitness of diploid males and its impact on females of the population have been measured. If they are unviable, their production is akin to female mortality. As a second step, we studied behaviours that reduce the cost of diploid male production. Related individuals are sexual partners that are most likely to father diploid sons. Therefore, behavioural inbreeding avoidance may be selected in such populations

Compatibilité génétique

Choix du partenaire sexuel

Signature chimique

Dépression de consanguinité

Sl-CSD

Mâles diploïdes

Hyménoptère parasitoïde

Genetic compatibility

Mate choice

Chemical signature

Inbreeding depression

Sl-CSD

Diploid males

Parasitoid hymenopteran

577

Histoire biogéographique et système de reproduction de Rhododendron ferrugineum dans les Pyrénées / Biogeographic history and mating system of Rhodendron ferrugineum in the French Pyrenees

Charrier, Olivia

03 October 2014

Les changements globaux récents affectent la physiologie, la distribution et la phénologie des espèces, ainsi que la dynamique des populations et les interactions entre espèces. Les interactions plantes-pollinisateurs sont particulièrement menacées par les changements globaux et la perturbation de ces interactions peut avoir des conséquences importantes sur le système de reproduction des espèces végétales. Dans ce contexte des changements globaux, nous avons déterminé les cortèges de visiteurs de Rhododendron ferrugineum le long de gradients environnementaux et étudié comment la variabilité de leur efficacité affectait le système de reproduction de cette espèce. Nous nous sommes également intéressés à l’histoire biogéographique de cette espèce et comment elle a répondu à des changements passés tels que les dernières glaciations. Nous avons mis en évidence que R. ferrugineum est visité par une large diversité d’espèces d’insectes. L’efficacité des cortèges de visiteurs varie le long de gradients environnementaux mais ne semble pas avoir un impact sur le système de R. ferrugineum. Cette espèce présente un système mixte de reproduction, avec une capacité à l’autofécondation mais les taux élevés de dépression de consanguinité limitent le développement des individus issus d’autofécondation. Cette forte dépression de consanguinité a permis un maintien relativement élevé de la diversité génétique dans les Pyrénées. Un tel niveau de dépression de consanguinité ne permet pas l’évolution de l’autofécondation et maintient ainsi le système mixte de reproduction chez R. ferrugineum. La capacité d’autofécondation de R. ferrugineum pourrait lui permettre de coloniser de nouveaux milieux ou de survivre aux changements globaux. Durant les dernières glaciations, R. ferrugineum a survécu dans de grands refuges de basse altitude ainsi que dans des nunataks (refuges de haute altitude). Quelques populations marginales présentent un taux significatifs de consanguinité (FIS> 0) et des niveaux de diversité génétique particulièrement faibles. Ce patron génétique est consistant avec des évènements de fondation accompagnés de perte de diversité génétique et d’hétérozygotie durant les périodes d’expansion de l’aire de répartition de l’espèce. Ces données suggèrent que la dépression de consanguinité dans ces populations devait être faible et que l’assurance reproductive a joué un rôle fondamental dans l’établissement de ces populations. / Recent global changes affect the physiology, distribution and phenology of species, also they impact population dynamic and interactions among species. Plantpollinators interactions are particularly threated by global changes and perturbations of these interactions may lead to important changes in plant mating system. In this context of globalchanges, we determined the pollinator assemblages of Rhododendron ferrugineum and howthe variability of their efficiencies affects the mating system. We also studied thebiogeographic history of R. ferrugineum and how it responds to past climatic changes.We have shown that R. ferrugineum is visited by a large variety of insects. Visitorassemblages efficiency varied along environmental gradients but did not seem to impact themating system of R. ferrugineum. This species presents a mixed mating system, indeed it isable to self-fecundate but high levels of inbreeding depression are limiting the development of self-fecundate descendants. High levels of inbreeding depression maintain high genetic diversity in the Pyrenees. Also, it did not allow the evolution of selfing and maintain a mixed mating system. The ability to self-fecundate may favor the colonization of new habitats.During the last glaciation, R. ferrugineum survived in large lowland refugia and in nunataks at high altitude. Some marginal populations present a high level of selfing (FIS> 0) and low genetic diversity. This genetic pattern is consistent with foundation events and loss of genetic diversity and heterozygosity along colonization rods. Our data suggest that inbreeding depression in these populations should have been low and the reproductive assurance played akey role in the establishment of these populations.

Autofécondation

Assurance reproductive

Biogéographie

Dépression de consanguinité

Efficacité

Gradients écologiques

Interactions plantes-pollinisateurs

Marqueurs microsatellites

Milieux alpins

Alpine habitats

Effectiveness

Environmental gradients

Inbreeding depression

Microsatellite markers

Plant-pollinators interactions

Reproductive assurance

Biogeography

Autofecondation

577

The role of the major histocompatibility complex in the wild : the case of the Alpine marmot (Marmota marmota) / Le rôle du complexe majeur d'histocompatibilité en milieu sauvage : le cas de la marmotte alpine (Marmota marmota)

Ferrandiz-Rovira, Mariona

03 July 2015

La diversité génétique intra-spécifique constitue le potentiel adaptatif des espèces et, à ce titre, elle est donc indispensable pour l'évolution de celles-ci. Chez les vertébrés, les gènes du complexe majeur d'histocompatibilité (CMH) sont une composante essentielle de quoi permet de faire face aux parasites en initiant une réponse immunitaire. La pression de sélection exercée par les parasites et la sélection sexuelle via le choix du partenaire devraient donc agir sur la diversité génétique du CMH. Cependant, la distinction empirique des pressions sélectives agissant sur la diversité génétique du CMH en milieu naturel nécessite de suivre un grand nombre individus tout au long de leur vie et d'effectuer leur génotypage. Le premier objectif de cette thèse a donc été développer et appliquer un protocole de génotypage chez la marmotte Alpine (Marmota marmota), sur quatre loci du CMH décrits précédemment. Ceci permet par la suite d'étudier, dans une population de marmottes Alpines vivant en milieu naturel, si les caractéristiques génétiques du CMH influencent (1) le choix de partenaire, (2) la présence et/ou l'abondance de trois espèces de parasites intestinaux et (3) leur survie juvénile. Ce travail a fourni une méthode appropriée pour la détermination de génotypes fiables sur un grand nombre d'échantillons en utilisant des techniques de séquençage de nouvelle génération. Ensuite, nous avons constaté l'existence d'un choix de partenaire basé sur le CMH mais aussi sur les caractéristiques de l'ensemble du génome. Par la suite, nous avons mis en évidence le faible rôle du CMH sur la présence et abondance de trois espèces de parasites intestinaux. Finalement, nous avons constaté que l'association entre la survie juvénile et les caractéristiques génétiques du CMH et de l'ensemble du génome ont changé au cours des vingt-trois ans de suivi de la population. Dans l'ensemble, cette thèse présente une approche intégrée de l'étude des rôles du CMH sur une population contemporaine de marmottes Alpines / Intra-specific genetic diversity represents the true potential of adaptation of species and is thus essential for evolutionary change. In vertebrates, the genes of the major histocompatibility complex (MHC) play a critical role in vertebrate disease resistance by initiating immune response. The selective pressure carried out by parasites and sexual selection via mate choice are supposed to maintain the extreme diversity found in the MHC. Yet, empirical differentiation of selective pressures acting on MHC in the wild requires individually based monitoring of a large number of individuals and genotyping them. The aim of this thesis was firstly to develop and apply a genotyping protocol in Alpine marmots (Marmota marmota) to genotype four previously described MHC loci. This allows subsequently to evaluate, in a wild population of Alpine marmots, if MHC characteristics play a role (1) on mate choice, (2) on the presence and/or abundance of three intestinal parasite species and (3) on juvenile survival. This work provided a suitable method to reliably genotype large number of individuals using next-generation sequencing techniques. Then, we found evidences for female mate choice based on MHC but also on neutral genetic characteristics. Subsequently, we evidenced the weak role of MHC characteristics on the presence and abundance of three intestinal parasites. Finally, we found evidences for a change of the effect of genetic diversity at both MHC and neutral loci on juvenile survival during the 23-year monitoring study. Overall, this thesis comprises an integrated approach for the study of the roles of MHC in a contemporaneous population of Alpine marmots

Choix du partenaire

CMH

Consanguinité

Défense immunitaire

Diversité génétique

Sélection balancé

Sélection induite par des parasites

Sélection naturelle

Balancing selection

MHC

Inbreeding

Immune defence

Genetic diversity

Mate choice

Parasite-driven selection

Natural selection

591.7

Molekularni i fenotipski diverzitet vrste Eristalis tenax (Diptera, Syrphidae) / Molecular and phenotypic diversity of the Eristalis tenax species (Diptera, Syrphidae)

Francuski Ljubinka

14 March 2012

<p>Sagledavanje ukupnog genetičkog i fenotipskog diverziteta i evolucionog potencijala vrste E. tenax izvr&scaron;eno je analizom jedinki poreklom sa 42 područja Evrope, Australije, Severne i Južne Amerike i laboratorijske kolonije iz &Scaron;panije. Analiza intraspecijske varijabilnosti vrste E. tenax izvr&scaron;ena je kvantifikovanjem varijacija u veličini i obliku krila 1653 jedinke i obojenosti abdomena 936 jedinki. Analiza genetičkog diverziteta na nivou polimorfizma nukleotidnih sekvenci mtDNK je izvr&scaron;ena kod 58 jedinki, dok je analiza alozimske varijabilnosti obuhvatila 821 jedinku prirodnih populacija i laboratorijske kolonije vrste E. tenax. Rezultati su ukazali da inbriding i stohastički procesi utiču na redukciju genetičkog diverziteta i da &ldquo;oslobađaju&rdquo; skrivenu genetičku varijabilnost koja je povezana sa fenotipskom diferencijacijom. Vremenska distribucija fenotipskog diverziteta vrste E. tenax je kvantifikovana analizom jedinki četiri alohrona uzorka poreklom sa lokaliteta Venac, Fru&scaron;ka gora. Mali stepen genetičke i fenotipske diferencijacije između durmitorskih uzoraka vrste E. tenax ukazuje na odsustvo prostorne substruktuiranosti i njihovu međusobnu povezanost intenzivnim protokom gena. Analiza konspecifičkih populacija vrsta E. tenax ukazala je na odsustvo jasne međupopulacione diferencijacije na osnovu parametrara krila i molekularnih markera (alozimski lokusi i COI mtDNK), te se može zaključiti da postoji intenzivan protok gena koji elimini&scaron;e razlike između populacija. Registrovan je polni dimorfizam u veličini i obliku krila i obojenosti abdomena. Uočeno je da mužjaci u proseku imaju manja i uža krila i svetlije obojene abdomene od ženki. Analizom fenotipske diferencijacije u karakterima abdomena na uzorcima vrste E. tenax sakupljenim duž geografskog gradijenta Evrope je utvrđeno odsustvo promena po tipu kline. Dobijeni rezultati omogućavaju preciznije sagledavanje intra- i interpopulacione varijabilnosti ovog takona i ukazuju da vrsta E. tenax ima visok evolucioni potencijal za adaptacije na sredinske promene</p> / <p>This paper examines molecular and phenotypic variability in the widely spread hoverfly species Eristalis tenax. We compared 42 samples from Europe, Australia North and South America, with the aim of obtaining insights into the temporal and spatial variations and sexual dimorphism in the species. Additionally, wild specimens from Spain were compared with a laboratory colony reared on artificial media. The integrative approach was based on allozyme loci, cytochrome c oxidase I mitochondrial DNA, morphometric wing parameters (shape and size) and abdominal colour patterns. Our results indicate that the fourth and eighth generations of the laboratory colony show a severe lack of genetic diversity compared to the figures observed in natural populations. Reduced genetic diversity in subsequent generations of the laboratory colony was found to be linked with phenotypic divergence. The distribution of genetic diversity at polymorphic loci indicated genetic divergence among collection dates from Fru&scaron;ka Gora Mt, and landmark-based geometric morphometrics revealed significant wing shape variation throughout the year. Phenotypic differentiation in abdominal pattern of the E. tenax populations along latitudinal gradient Europe has not been established. Consistent sexual dimorphism was observed, indicating that male specimens had lighter abdomens and smaller and narrower wings than females. It is reasonable to assume high mobility of the dronefly and high rate of gene flow reflected the similarity of genetic and phenotypic diversity of otherwise geographically distinct populations. Hence, the present study expands our knowledge of the genetic diversity and phenotypic variability of E. tenax. The quantification of such variability represents a step towards the evaluation of the adaptive potential of this species of medical and epidemiological importance.</p>

Realisation of genomic selection in the honey bee

Bernstein, Richard

27 July 2022

Genomische Selektion ist ein Routine-Verfahren bei verschiedenen Nutztierarten, aber noch nicht bei der Honigbiene wegen der Besonderheiten dieser Spezies. Für die Zuchtwertschätzung bei der Honigbiene ist eine spezielle genetische Verwandtschaftsmatrix erforderlich, da die Paarungsbiologie dieser Spezies ungesicherte Vaterschaft, diploide Königinnen und haploide Drohnen umfasst. Die Arbeit präsentiert einen neu-entwickelten Algorithmus zur effizienten Berechnung der Inversen der genetischen Verwandtschaftsmatrix und der Inzuchtkoeffizienten auf großen Datensätzen. Die Methode wurde zur Voraussage von genomischen und Stammbaum-basierten Zuchtwerten in einer Simulationsstudie genutzt. Die Genauigkeit und die Verzerrung der geschätzten Zuchtwerte wurden ausgewertet unter Berücksichtigung verschiedener Größen der Referenzpopulation. Außerdem wurde der Zuchtfortschritt im ersten Durchlauf von Zuchtprogrammen ausgewertet, die Zuchtschemata mit genomischer oder Stammbaum-basierter Selektion nutzten. Ein erheblich größerer Zuchtfortschritt als bei Stammbaum-basierter Selektion wurde mit genomischer Vorselektion erzielt, für die junge Königinnen genotypisiert wurden, und nur die Kandidaten mit den höchsten genomischen Zuchtwerten zur Anpaarung oder Leistungsprüfung zugelassen wurden. Für einen realen Datensatz von ungefähr 3000 genotypisierten Königinnen wurden Stammbaum-basierte und genomische Zuchtwerte für sechs wirtschaftlich bedeutende Merkmale vorhergesagt. Drei Merkmale zeigten eine signifikant höhere Vorhersagegenauigkeit bei genomischer Zuchtwertschätzung gegenüber Stammbaum-basierten Verfahren und die Unterschiede zwischen allen sechs Merkmalen konnten im Wesentlichen aus den genetischen Parametern der Merkmale und der begrenzten Größe der Referenzpopulation erklärt werden. Damit zeigt die Arbeit, dass die genomische Selektion bei der Honigbiene genutzt werden kann, den Zuchtfortschritt zu erhöhen. / Genomic selection is a routine practice for several important livestock species but not yet in honey bees, due to the peculiarities of this species. For honey bees, a specialized genetic relationship matrix is required for the prediction of breeding values, since their mating biology involves uncertain paternity, diploid queens, and haploid drones. The thesis presents a novel algorithm for the efficient computation of the inverse of the numerator relationship matrix and the coefficients of inbreeding on large data sets. The method was used to estimate genomic and pedigree-based breeding values in a simulation study. The accuracy and bias of the estimated breeding values were evaluated and various sizes of the reference population were considered. Subsequently, the genetic gain in the initial cycle of breeding programs was evaluated for several breeding schemes employing genomic or pedigree-based selection. A considerably higher genetic gain than with pedigree-based selection was achieved with genomic preselection, for which queens were genotyped early in life, and only the candidates of high genomic breeding value were admitted for mating or phenotyping. On a real data set of about 3000 genotyped queens, pedigree-based and genomic breeding values were predicted for six economically relevant traits. Three traits showed significantly higher prediction accuracy with genomic compared to pedigree-based methods, and the differences between all the six traits could be explained mainly from their genetic parameters and the limited size of the reference population. The results show that genomic selection can be applied in honey bees, and the thesis provides appropriate breeding schemes and mathematical methods for its implementation.

Genomische Selektion

Honigbiene

Single-Step genomisches BLUP

Verwandtschaftsmatrix

Inzucht

Haplodiploidie

Polyandrie

Simulationsstudie

Validierung

Genomic selection

Honeybee

Single step genomic BLUP

Numerator relationship matrix

Inbreeding

Haplodiploidy

Polyandry

Simulation study

Validation

ZD 44400

WG 6100

ddc:630

The French Canadian founder population : lessons and insights for genetic epidemiological research

Gauvin, Héloïse

08 1900

La population canadienne-française a une histoire démographique unique faisant d’elle une population d’intérêt pour l’épidémiologie et la génétique. Cette thèse vise à mettre en valeur les caractéristiques de la population québécoise qui peuvent être utilisées afin d’améliorer la conception et l’analyse d’études d’épidémiologie génétique. Dans un premier temps, nous profitons de la présence d’information généalogique détaillée concernant les Canadiens français pour estimer leur degré d’apparentement et le comparer au degré d’apparentement génétique. L’apparentement génétique calculé à partir du partage génétique identique par ascendance est corrélé à l’apparentement généalogique, ce qui démontre l'utilité de la détection des segments identiques par ascendance pour capturer l’apparentement complexe, impliquant entre autres de la consanguinité. Les conclusions de cette première étude pourront guider l'interprétation des résultats dans d’autres populations ne disposant pas d’information généalogique. Dans un deuxième temps, afin de tirer profit pleinement du potentiel des généalogies canadienne-françaises profondes, bien conservées et quasi complètes, nous présentons le package R GENLIB, développé pour étudier de grands ensembles de données généalogiques. Nous étudions également le partage identique par ascendance à l’aide de simulations et nous mettons en évidence le fait que la structure des populations régionales peut faciliter l'identification de fondateurs importants, qui auraient pu introduire des mutations pathologiques, ce qui ouvre la porte à la prévention et au dépistage de maladies héréditaires liées à certains fondateurs. Finalement, puisque nous savons que les Canadiens français ont accumulé des segments homozygotes, à cause de la présence de consanguinité lointaine, nous estimons la consanguinité chez les individus canadiens-français et nous étudions son impact sur plusieurs traits de santé. Nous montrons comment la dépression endogamique influence des traits complexes tels que la grandeur et des traits hématologiques. Nos résultats ne sont que quelques exemples de ce que nous pouvons apprendre de la population canadienne-française. Ils nous aideront à mieux comprendre les caractéristiques des autres populations de même qu’ils pourront aider la recherche en épidémiologie génétique au sein de la population canadienne-française. / The French Canadian founder population has a demographic history that makes it an important population for epidemiology and genetics. This work aims to explain what features can be used to improve the design and analysis of genetic epidemiological studies in the Quebec population. First we take advantage of the presence of extended genealogical records among French Canadians to estimate relatedness from those records and compare it to the genetic kinship. The kinship based on identical-by-descent sharing correlates well with the genealogical kinship, further demonstrating the usefulness of genomic identical-by-descent detection to capture complex relatedness involving inbreeding and our findings can guide the interpretation of results in other population without genealogical data. Second to optimally exploit the full potential of these well preserved, exhaustive and detailed French Canadian genealogical data we present the GENLIB R package developed to study large genealogies. We also investigate identical-by-descent sharing with simulations and highlight the fact that regional population structure can facilitate the identification of notable founders that could have introduced disease mutations, opening the door to prevention and screening of founder-related diseases. Third, knowing that French Canadians have accumulated segments of homozygous genotypes, as a result of inbreeding due to distant ancestors, we estimate the inbreeding in French Canadian individuals and investigate its impact on multiple health traits. We show how inbreeding depression influences complex traits such as height and blood-related traits. Those results are a few examples of what we can learn from the French Canadian population and will help to gain insight on other populations’ characteristics as well as help the genetic epidemiological research within the French Canadian population.

Population canadienne-française

Génétique des populations

Analyse généalogique

Partage identique par ascendance

Épidémiologie génétique

Consanguinité lointaine

Dépression endogamique

French Canadian population

Genetic epidemiology

Identical-by-descent sharing

Genealogical analysis

Population genetics

Distant consanguinity

Inbreeding depression