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- Christa Schleper Lab
- TACK and Lokiarchaeota Evolution
- Human skin-associated Archaea
- Microbial nitrogen transformation during waste degradation
- DK plus: Microbial Nitrogen Cycling
- Former Projects
- Thaumarchaeota in Marine Sediments
- Archaea as novel tumor homing therapeutics
- Habitability of Enceladus
- Investigation of CRISPR-mediated RNA interference in the hyperthermophilic Archaeon Sulfolobus solfataricus
- Evolutionary history and ecological adaptations of ammonia oxidizing Thaumarchaeota
- Oxidizing Archaea in Arctic Tundra Soils
- RuMEn MEthanoplasmatales as target for MEthane mitigation
- Meta-transcriptomics to study the function and structure of complex microbial communities
- Microbial Oceanography of Chemolithoautotrophic Planktonic Communities – MOCA
- InflammoBiota
- Functional Metagenomics to Study Prokaryotes from Arctic/Sub-Arctic Springs of Hydrothermal Origin
- Sulfolobus solfataricus under temperature variation – Sysmo
- Sponges as nutrient sources and sinks in the marine ecosystem
- Silvia Bulgheresi Lab
- Simon Rittmann Lab
- Flexible acide ex-situ Methanisierung von Biogas mit erneuerbarem Wasserstoff
- Geomikrobiologie der Kraubath Magnesitlagerstätte
- Prototypenentwicklung zur mikrobiologischen Stickstofffixierung
- Artificial microbial consortium for food waste utilization
- Former Projects
- Model system mimicking the cell envelope of archaea
- Joint project with Borealis
- Analyse der Biozönose während der mikrobiellen Umsetzung von Kohlenmonoxid zu Methan
- Entwicklung mikrobiologischer Bioraffineriekonzepte
- BioHyMe: Entwicklung eines Hochdruckproduktionsverfahrens für die gekoppelte biologische Wasserstoff- und Methanproduktion
- H2.AT: Extremophile mikrobielle Zellfabriken zur hocheffizienten Produktion von Biowasserstoff
- Entwicklung eines Verfahrens zur mikrobiologischen Nutzung von CO2 und H2 zur Gewinnung von Ethanol
- Filipa Sousa Lab
- Christa Schleper Lab
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- Sustainability
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