Spelling suggestions: "subject:"mys orbicularis"" "subject:"emys orbicularis""
1 |
Dynamique et génétique des populations de cistude d'Europe Emys orbicularis / Population dynamics and genetics of European Pond Turtle Emys orbicularisFicheux, Sébastien 20 December 2013 (has links)
La dispersion, caractérisée par les mouvements d’individus dans l’espace conduisant à la production d’un flux de gènes, permet la connectivité des populations. L’étude de la dispersion est devenue d’une importance primordiale pour prédire les conséquences des changements globaux sur la structure et la dynamique des populations. Les espèces à dispersion limitées, comme les chéloniens, sont particulièrement menacées par ces phénomènes. Cette étude se propose d’analyser la dispersion chez la Cistude d’Europe (Emys orbicularis), en régression en Europe, dans un contexte de fragmentation d’habitats et de déterminer les causes de ce comportement via l’analyse de la dynamique et de la génétique des populations. Nos résultats montrent, d’une part, que les temps de générations lents chez les cistudes (environ 12 ans) peuvent ralentir les phénomènes d’érosion génétique par dérive. Cette érosion lente est accentuée en présence de grandes populations même en milieu très fragmenté. D’autre part, la sélection aurait favorisée la philopatrie chez les femelles cistudes dans les milieux peu riches en site de ponte et de faible densité d’individus car elles ont un avantage à la territorialité. A l’inverse, le coût à la dispersion diminuerait pour les mâles car ce comportement éviterait la consanguinité. Les cistudes semblent donc très sensibles à la compétition intra-spécifique. En effet, la relaxation de la densité-dépendance des adultes permet un recrutement important de juvéniles. Cette dynamique favoriserait une récupération rapide des effectifs après une importante perturbation, ce qui est surprenant pour une espèce longévive dont les temps de résilience sont supposés lents. / Dispersal, characterized by the movements of individuals in space leading to gene flows, allows populations to connect. The study of dispersal has become of essential importance to predict the consequences of global changes on the population structures and dynamics. Species with limited dispersal, such as chelonians, are particularly threatened by these phenomena. Our study aimed at analyzing the dispersal of the European pond turtle (Emys orbicularis), in decline in Europe, in a habitats fragmentation context and determining the causes of this behavior through analysis of population dynamics and genetics. Our results show, firstly, that the slow generation time in Emys orbicularis (about 12 years) may slow the genetic erosion by drift. This slow erosion is accentuated with large populations such as Kerkini populations, even with a strong fragmentation. On the other hand, selection would have favored philopatry in females in habitats with few nesting site and deers, because they have the advantage of territoriality. In contrast, the cost of dispersal decreases for males because this behavior allows inbreeding avoidance. The European pond turtles seem very sensitive to intra-specific competition. Indeed, the relaxation of adult density-dependence allows for a significant recruitment of juveniles. This dynamic promotes an unexpected rapid response of the population after a major disturbance, because chelonians are long-lived animals with a late age of first reproduction and very high generation time, therefore, the time of resilience to perturbations is also expected to be high.
|
2 |
Combining environmental chemistry, somatic biomarkers, and population genetics: an innovative approach in wildlife ecotoxicologyMatson, Cole Wesley 30 September 2004 (has links)
The Caspian region and specifically the Apsheron peninsula of Azerbaijan is known to be polluted with a variety of environmental contaminants, making risk assessment difficult. The wetlands of Sumgayit contain particularly complex mixtures of contaminants. Flow cytometry and the micronucleus assay were used to assess chromosomal damage in aquatic turtles and frogs inhabiting contaminated wetlands in Azerbaijan. By evaluating biomarkers that are indicative of somatic effects, elevated chromosomal damage was documented at several sites in Azerbaijan relative to reference sites. Sediment samples were analyzed for polycyclic aromatic hydrocarbons (PAHs), organochlorines (OCs), and mercury to evaluate contaminant associations with genetic damage. Sediment samples revealed heterogeneous patterns of PAH and mercury concentrations throughout Sumgayit. Significant positive correlations were documented between both PAH and mercury sediment concentrations and chromosomal damage. Population genetic methods were employed to study the effects of long-term chronic contaminant exposure in marsh frogs from Sumgayit. The Sumgayit region has reduced levels of genetic diversity, likely due to environmental degradation. One of the most contaminated sites in Sumgayit, WTP, appears to be a source of new mutations as a result of an increased mutation rate. Finally, the Sumgayit region seems to act as an ecological sink, with levels of gene flow into the region exceeding gene flow out of the region. This study provides not only exposure and biomarker data, but also an integrated method for assessing the cumulative population impacts of contaminant exposure by studying both population genetic and evolutionary effects. The results presented here will be used in conjunction with those of ongoing research involving both wildlife and humans to develop comprehensive ecological and human risk assessments.
|
3 |
Combining environmental chemistry, somatic biomarkers, and population genetics: an innovative approach in wildlife ecotoxicologyMatson, Cole Wesley 30 September 2004 (has links)
The Caspian region and specifically the Apsheron peninsula of Azerbaijan is known to be polluted with a variety of environmental contaminants, making risk assessment difficult. The wetlands of Sumgayit contain particularly complex mixtures of contaminants. Flow cytometry and the micronucleus assay were used to assess chromosomal damage in aquatic turtles and frogs inhabiting contaminated wetlands in Azerbaijan. By evaluating biomarkers that are indicative of somatic effects, elevated chromosomal damage was documented at several sites in Azerbaijan relative to reference sites. Sediment samples were analyzed for polycyclic aromatic hydrocarbons (PAHs), organochlorines (OCs), and mercury to evaluate contaminant associations with genetic damage. Sediment samples revealed heterogeneous patterns of PAH and mercury concentrations throughout Sumgayit. Significant positive correlations were documented between both PAH and mercury sediment concentrations and chromosomal damage. Population genetic methods were employed to study the effects of long-term chronic contaminant exposure in marsh frogs from Sumgayit. The Sumgayit region has reduced levels of genetic diversity, likely due to environmental degradation. One of the most contaminated sites in Sumgayit, WTP, appears to be a source of new mutations as a result of an increased mutation rate. Finally, the Sumgayit region seems to act as an ecological sink, with levels of gene flow into the region exceeding gene flow out of the region. This study provides not only exposure and biomarker data, but also an integrated method for assessing the cumulative population impacts of contaminant exposure by studying both population genetic and evolutionary effects. The results presented here will be used in conjunction with those of ongoing research involving both wildlife and humans to develop comprehensive ecological and human risk assessments.
|
Page generated in 0.0404 seconds