Coral reefs are facing multiple threats, from global warming to ocean acidification to impaired water quality. Marine Animal Ecology studies ecophysiological responses of organisms using state-of-the-art experimental set ups.
Multiple stressors on corals
Exposing adult corals and coral larvae to multiple stressors gives a more realistic view into what might happen in the future. Global stressors such as temperature increase and pH decrease are tested, but also their combined effect with local stressors such as water pollution. One of the pollutors looked at is oxybenzone, a UV-filter in most sunscreens. Corals are exposed to stress conditions and survival, photosynthetic yield and respiration are measured. A showed that the combined effect of both temperature increase and oxybenzone negatively impact corals. Results are relevant to adjust management protocols for sunscreen use. Furthermore, beyond the ecophysiological changes of the coral, studies are also on the way on the changes in the microbiome. At MAE, we also work on innovative methods to monitor the physiology of corals.
Open for students (but limited lab space due to corona).
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Sponges in a changing ocean
The most ancient animals on earth are sponges. Despite their abundance in benthic ecosystems, ecological functions of sponge-dominated areas (or sponge grounds) are yet unquantified. is a project focussing on deep sea sponge grounds. The goal is to develop an approach to preserve but also sustainably use deep sea ecosystems in the North Atlantic. Marine Animal Ecology has co-lead in the work package "Threats and Impacts" and focusses on the ecophysiological effects on sponges of anthropogenic induced environmental changes and disturbances. Underlying projects include:
- (No longer open for students).
The sponge loop and iron availability
Another effect increasingly observed on coral reefs is the shift from coral dominated states to macroalgae, cyanobacterial mats and/or sponges. Interestingly, this is far more readily observed in the Caribbean than in the Indo-Pacific. One hypotheses that is currently being investigated is that the higher influx of dust-associated iron in the Caribbean is the underlying mechanisms for supporting sponge proliferation. is performing ecophysiological studies in the lab and in the field to test this hypothesis.
No longer open for students.
Using microsensors to study corals
A PhD project is focussing on using microsensors to study the exact mechanisms of coral bleaching. Coral bleaching is one of the major threats to coral reefs all over the world, so a better understanding of the underlying pathways is imperative.
Projects coming soon
Techniques used & Implications
To study ecophysiological responses of various organisms, Marine Animal Ecology performs . With a better understanding on how individuals respond to different stressors we are better able to to work towards .