Research Division 3: Marine Ecology

91̽»¨  Research  Marine Ecology

Overview

The Research Division Marine Ecology has five Research Units: Experimental Ecology - Benthos, Marine Evolutionary Ecology, Marine Natural Products Chemistry, Marine Symbioses and Ocean EcoSystems Biology.

RD3 mission: Ocean’s biological diversity drives ecosystems and biogeochemical cycles. A deeper knowledge on existing diversity, the associated processes and the reactions to environmental perturbation is needed to project future changes, and to guide sustainable use of biological resources.

These are a few key questions that scientists of RD3 are addressing:

  • How will species interactions and marine communities be reorganized under multiple environmental changes, including invasion pressure and novel pathogens?

  • How will ecosystem biodiversity, functioning and services (for example, productivity, carbon sequestration, nutrient retention) change in response to perturbations and re-organization (due to range shifts /species introductions)? What are the relative contributions of evolutionary change, physiological plasticity and community restructuring to overall ecological response to global change?

  • What are novel marine resources in terms of genetic/genomic resources and marine organism and substances that can be utilized for human application? How can we sustainably use marine resources by understanding the biology of the exploited species in order to minimize effects on population sizes and biodiversity and the affected habitats?

 

The scientific work of the research units is embedded in the research program Changing Earth - Sustaining our Future, where it is significantly supplemented in the topic 6 as well as in the 91̽»¨ Strategy 2030 with its core topics and integrating research foci (IRF).

 

Research groups

There are currently 17 research groups in the research area Marine Ecology. Follow the links to the respective research group pages.

 

Marine Evolutionary Ecology - Prof. Dr. Thorsten Reusch

Marine Evolutionary Ecology
Prof. Dr. Thorsten Reusch

Marine Symbioses - Prof. Dr. Ute Hentschel Humeida

Marine Symbioses
Prof. Dr. Ute Hentschel Humeida

Ecophysiology - Prof. Dr. Frank Melzner

Ecophysiology
Prof. Dr. Frank Melzner

Stress Ecology - Prof. Dr. Martin Wahl

Stress Ecology
Prof. Dr. Martin Wahl

Marine Natural Products Chemistry - Prof. Dr. Deniz Tasdemir

Marine Natural Products Chemistry
Prof. Dr. Deniz Tasdemir

Marine Microbial Ecology
Prof. Dr. David Needham

Deep-sea biology - Dr. Henk-Jan Hoving

Deep-sea biology
Dr. Henk-Jan Hoving

Marine Behavioural Ecology - Dr. Christopher Monk

Dr. Marco Scotti

Ecosystem Modelling
Dr. Marco Scotti

Marine Macrophytes - PD Dr. Florian Weinberger

Marine Macrophytes
PD Dr. Florian Weinberger

Biodiversity - Dr. Birte Matthiessen

Biodiversity
Dr. Birte Matthiessen

GAME - Dr. Mark Lenz

GAME   Dr. Mark Lenz

Invasion Ecology - PD Dr. Elizabeta Briski

Invasion Ecology
PD Dr. Elizabeta Briski

Dr. Marlene Wall

Coral Adaption to Extremes
Dr. Marlene Wall

Dr. Kristin Bergauer

Microbial Oceanography & Biogeochemistry
Dr. Kristin Bergauer

Fish Physiology
Dr. Till Harter
 

Dr. David Ngugi

Aquatic Microbial Ecogenomics Group (AquaMEG)
Dr. David Ngugi

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