Staff
Prof. Dr. Jens Greinert
Research Devision 2: Marine Biogeochemistry Research Unit Marine Geosystems Head of Working Group DeepSea Monitoring
DSM Group leader
Office: Room: 8A-103
Reactive fluid flow and gas hydrate modeling
Project overview:
Numerical modeling of gas hydrates investigates the dynamics of gas hydrate formation and dissolution in marine sediments with a
Plankton Biogeochemistry and Dynamics
Global change impacts the distribution and activity of marine life at local to basin-wide scales with major consequences for oceanic oxygen dynamics, nutrient
Mid-ocean ridge dynamics
Fresh oceanic crust is generated at the axis of mid-ocean ridges and transported away with the oceanic lithosphere. Spreading velocities are highly variable and correlate
Courses (lectures, seminars, internships, etc.)
For a general overview see also Curricula in Marine Sciences in the Career & Campus section.
Winter semester 2024/2025
In this module
Modeling fluid-rock interactions within the oceanic lithosphere
The ageing and alteration of oceanic lithosphere is closely linked to fluid flow and the associated hydration and alteration reactions.
Kathrin Krüger-Borgwardt, MBA
Kathrin Krüger-Borgwardt is responsible for supporting GEOMAR's research funding and transfer activities, including support in acquiring and implementing
Publications
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Treude, T., S. Krause, L. Steinle, E. Burwicz, L.J. Hamdan, H. Niemann, T. Feseker, V. Liebetrau, S. Krastel, C. Berndt (accepted): Biogeochemical consequences
Staff
Dr. Christophe Galerne
Forschungsbereich 2: Marine Biogeochemie FE Marine Geosysteme
Office: Room: 8E/103 Phone: +49 431 600-2105 Email: cgalerne(at)geomar.de
Address: GEOMAR |
Larval Ecology
Survival of fish eggs and larvae is crucial for the recruitment to fisheries and the bottleneck in production for aquaculture. The focus of the larval ecology group therefore is on
