In my PhD thesis, I am focusing on the consequences of phenotypic plasticity for several aspects of evolution. Phenotypic plasticity describes the property of single genotypes to express multiple phenotypes in dependence of the environment and is therefore a potential strategy to cope with a heterogeneous surrounding. However, plastic responses might be maladaptive in some circumstances reducing fitness under new environmental conditions. Currently, I investigate how species' range shifts can give rise to spatial differences in phenotypic plasticity using individual-based simulations with Nemo.
|2015 - present||Ph.D. student, Department of Evolutionary Biology and Environmental Studies, University of Zurich, Switzerland|
|2012 - 2014||M.Sc. in Environmental Sciences, ETH Zurich, Switzerland|
|2008 - 2011||B.Sc. in Geoecology, University of Tübingen, Germany|
- Schmid M., Guillaume F. (2017) The role of phenotypic plasticity on population differentiation. Heredity, advance online publication. DOI: 10.1038/hdy.2017.36
- Cotto O., Wessely J., Georges D., Klonner G., Schmid M., Dullinger S., Thuiller W., Guillaume F. (2017) A dynamic eco-evolutionary model predicts slow response of alpine plants to climate warming. Nature Communications, 8:15399. DOI: 10.1038/ncomms15399
- Schmid M., Csencsics D., Gugerli F. (2016) Repetitive flanking sequences challenge microsatellite marker development: a case study in the lepidopteran Melanargia galathea. Molecular Ecology Resources, 16(6): 1499–1507. DOI: 10.1111/1755-0998.12547
- Schmid M., Pautasso M., Holdenrieder O. (2014) Ecological consequences of Douglas fir (Pseudotsuga menziesii) cultivation in Europe. European Journal of Forest Research, 133(1): 13-29. DOI: 10.1007/s10342-013-0745-7
- Schmid M., Birrer S., Bolliger J., Csencsics D., Gugerli F. (2015) Monitoring Genetischer Vielfalt: Fallbeispiel Schachbrettfalter. N+L Inside 1/15: 19-24
We have built a shiny app to visualize the models derived in our Heredity paper. You can find it here.