Mission Statement

The Department of Functional and Evolutionary Ecology within the Faculty of Life Sciences aims at a mechanistic understanding of ecological and evolutionary patterns and processes from organismic to ecosystem scale. Specifically, we study and teach biodiversity, symbioses, metabolic pathways, ecophysiology and ecosystem functioning in light of environmental change.

Units

Archaea Biology and Ecogenomics

Christa Schleper - Archaea Ecology and Evolution
Silvia Bulgheresi - Environmental Cell Biology
Simon Rittmann - Archaea Physiology & Biotechnology
Filipa Sousa - Genome Evolution and Ecology

Limnology

Christian Griebler - Groundwater Ecology
Katrin Attermeyer - Carbocrobe
Hubert Keckeis - Fish Ecology
Michael Schagerl - Phycology

 

 

Molecular Systems Biology

Wolfram Weckwerth - Systems Theory in Ecology and Biology
Palak Chaturvedi - Crops in a Changing Climate Environment
Verena Ibl - Cell biology in Crop Seeds
Ingeborg Lang - Structural and functional plant cell biology
Markus Teige - Plant signalling
Steffen Waldherr - Computational methods for systems biology
Stefanie Wienkoop - Plant-Microsymbiont Interaction


Bio-Oceanography and Marine Biology

Monika Bright - Marine Benthic Ecology
Federico Baltar - Fungal and Biogeochemical Oceanography
Gerhard Herndl - Microbial Oceanography
Thomas Reinthaler - Marine Microbial Biogeochemistry

News

26.09.2018
 

OeAD scholarship holder Andrea Söllinger provides insights into her research

21.09.2018
 

The International Plant Proteomics Organization (INPPO) elected Stefanie Wienkoop as new Vice President during this years Conference in Padova....

14.09.2018
 

Julian Preiner received the award for best poster at the Austrian Proteomics and Metabolomics Research Symposium APMRS 2018.

10.09.2018
 

Molecular Systems Biology University of Vienna

10.09.2018
 

An international consortium with participation of MOSYS team members Palak Chaturvedi, Arindam Ghatak and Wolfram Weckwerth has published the genome...

10.09.2018
 

New fractionation technique for assigning metabolites to their subcellular localization developed by L. Fürtauer, W. Weckwerth and T. Nägele.