MSc Micha Weil

MSc Molekularbiologie und Physiologie

Department for Microbial Physiology and Molecular Biology

Felix-Hausdorff-Straße 8 - room-nr.: 1.60

17489 Greifswald

phone: +49 (0)3834 420 5929
fax:      +49 (0)3834 420 5902
email:   micha.weil(at)uni-greifswald(dot)de

Curriculum Vitae
2017-today PhD student, Institute of Microbiology, University of Greifswald, Germany. Project: WETSCAPES
2014 - 2017 Molecular Biology and Physiology. M. Sc. University of Greifswald, Germany.
Thesis: “Biogeography of methanogenic archaea in drained and re-wetted peat soils of Mecklenburg-West-Pomerania”
2012 - 2016 Student assistant at: Instiute of medical Microbiology, AG Prof. Steinmetz; INP - Leibniz-Institut für Plasmaforschung und Technologie e.V., Plasmamedizin, AG Prof. Woedke; Institute of Botany and Landscape Ecology, Plant physiology, AG Prof. Stöhr
2011 - 2014 Biology, B. Sc. University of Greifswald, Germany.
Thesis: “Transkriptionsanalysen nach NaOCl-Stress und Allicin in Staphylococcus areus”
2009 - 2011 Technical assistant, R&D department of DiaSys Diagnostic Systems GmbH, Holzheim, Germany
2007 - 2009 education to biologic-technical-assistant (BTA), Hochschule Fresenius, Idstein, Germany
2006 - 2007 civil service
2006 Abitur, Taunusschule, Bad Camberg, Germany
  • Weil, M.; Wang, H.; Bengtsson, M.; Köhn, D.; Günther, A.; Jurasinski, G.; Couwenberg, J.; Negassa, W.; Zak, D.; Urich, T. Long-Term Rewetting of Three Formerly Drained Peatlands Drives Congruent Compositional Changes in Pro- and Eukaryotic Soil Microbiomes through Environmental Filtering. Microorganisms2020, 8, 550.

  • Jurasinski, G.; Ahmad, S.; Anadon-Rosell, A.; Berendt, J.; Beyer, F.; Bill, R.; Blume-Werry, G.; Couwenberg, J.; Günther, A.; Joosten, H.; Koebsch, F.; Köhn, D.; Koldrack, N.; Kreyling, J.; Leinweber, P.; Lennartz, B.; Liu, H.; Michaelis, D.; Mrotzek, A.; Negassa, W.; Schenk, S.; Schmacka, F.; Schwieger, S.; Smiljanić, M.; Tanneberger, F.; Teuber, L.; Urich, T.; Wang, H.; Weil, M.; Wilmking, M.; Zak, D.; Wrage-Mönnig, N. From Understanding to Sustainable Use of Peatlands: The WETSCAPES Approach. Soil Syst.2020, 4, 14.

  • Vytas Huth, Anke Günther, Anna Bartel, Bernd Hofer, Oona Jacobs, Nele Jantz, Mareike Meister, Eva Rosinski, Tim Urich, Micha Weil, Dominik Zak, Gerald Jurasinski, Topsoil removal reduced in-situ methane emissions in a temperate rewetted bog grassland by a hundredfold, Science of The Total Environment, Volume 721, 2020, 137763, ISSN 0048-9697,