0000000000346613
AUTHOR
Thomas Bataillon
Dynamique de la diversité génétique dans les populations naturelles et artificielles de plantes autogames
National audience
Évolutions comparées de la diversité de caractères quantitatifs, de marqueurs neutres et de gènes d'intérêt dans les (méta)populations expérimentales de blé et d'Arabidopsis
National audience
Evolution expérimentale
National audience
Nested core collections maximizing genetic diversity in Arabidopsis thaliana.
Summary The successful exploitation of natural genetic diversity requires a basic knowledge of the extent of the variation present in a species. To study natural variation in Arabidopsis thaliana, we defined nested core collections maximizing the diversity present among a worldwide set of 265 accessions. The core collections were generated based on DNA sequence data from a limited number of fragments evenly distributed in the genome and were shown to successfully capture the molecular diversity in other loci as well as the morphological diversity. The core collections are available to the scientific community and thus provide an important resource for the study of genetic variation and its …
Evolutionary genomics can improve prediction of species' responses to climate change
Abstract Global climate change (GCC) increasingly threatens biodiversity through the loss of species, and the transformation of entire ecosystems. Many species are challenged by the pace of GCC because they might not be able to respond fast enough to changing biotic and abiotic conditions. Species can respond either by shifting their range, or by persisting in their local habitat. If populations persist, they can tolerate climatic changes through phenotypic plasticity, or genetically adapt to changing conditions depending on their genetic variability and census population size to allow for de novo mutations. Otherwise, populations will experience demographic collapses and species may go ext…
Evolution expérimentale
EA SPE GESTAD BIOME; L'évolution expérimentale consiste à tenter de mener en laboratoire le processus d’évolution afin d’en étudier les règles de fonctionnement sous-jacentes. Les sources de variation dans la réponse sont analysées au cours d’expériences exécutées et répliquées en conditions contrôlées. Cette approche dynamique de l’évolution complète les études habituelles analysant l’évolution a posteriori au moyen de méthodes comparatives ou en étudiant des fossiles. Elle constitue également un pont entre les études conduites dans les conditions naturelles et les simulations réalisées par modélisation mathématique.