Susanne A. Kraemer
Affiliations: | University of Ottawa, Ottawa, ON, Canada |
Area:
Microbial ecologyGoogle:
"Susanne Kraemer"Parents
Sign in to add mentor| Gregory Velicer | grad student | 2011 | Indiana University | |
| (The structure of social and genetic diversity in local soil populations of the social bacterium Myxococcus xanthus.) | ||||
Collaborators
Sign in to add collaborator| Sébastien Wielgoss | collaborator | 2016-2016 | (Terrestrial Ecology Tree) |
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Publications
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| Böndel KB, Kraemer SA, Samuels T, et al. (2019) Inferring the distribution of fitness effects of spontaneous mutations in Chlamydomonas reinhardtii. Plos Biology. 17: e3000192 |
| Kraemer S, Böndel KB, Ness RW, et al. (2017) Fitness change in relation to mutation number in spontaneous mutation accumulation lines of Chlamydomonas reinhardtii. Evolution; International Journal of Organic Evolution |
| Kraemer SA, Soucy JR, Kassen R. (2017) Antagonistic interactions of soil pseudomonads are structured in time. Fems Microbiology Ecology |
| Kraemer SA, Boynton PJ. (2016) Evidence for microbial local adaptation in nature. Molecular Ecology |
| Kraemer SA, Kassen R. (2016) Temporal patterns of local adaptation in soil pseudomonads. Proceedings. Biological Sciences. 283 |
| Kraemer SA, Wielgoss S, Fiegna F, et al. (2016) The biogeography of kin discrimination across microbial neighborhoods. Molecular Ecology |
| Kraemer SA, Morgan AD, Ness RW, et al. (2015) Fitness effects of new mutations in Chlamydomonas reinhardtii across two stress gradients. Journal of Evolutionary Biology |
| Ness RW, Kraemer SA, Colegrave N, et al. (2015) Direct estimate of the spontaneous mutation rate uncovers the effects of drift and recombination in the Chlamydomonas reinhardtii plastid genome. Molecular Biology and Evolution |
| Kraemer SA, Kassen R. (2015) Patterns of local adaptation in space and time among soil bacteria. The American Naturalist. 185: 317-31 |
| Zee PC, Mendes-Soares H, Yu YT, et al. (2014) A shift from magnitude to sign epistasis during adaptive evolution of a bacterial social trait. Evolution; International Journal of Organic Evolution. 68: 2701-8 |