“It shows once again how crucial sponges are in many aquatic ecosystems,” said NIOZ’s marine ecologist Furu Mienis.
Robots Placed an Incubation Chamber
For this monitoring, a so-called incubation chamber was specially designed at NIOZ. In this box that is closed at all but one side, the influx and outflux of water and all dissolved matter are analyzed automatically. It was placed on the ridge of the Schulz Bank, a seamount that rises up to 580 m depth in the Mid Atlantic Ridge. The open bottom was placed over a sponge reef by a remotely operated underwater vehicle, an ROV. This was done aboard the Norwegian research vessel GO Sars, as part of a scientific cooperation within the EU-SponGES project.

High Consumption of Oxygen
Over the course of four to six hours, the uptake and excretion of oxygen and nutrients were carefully measured. This monitoring showed that the sponges take up substantial amounts of oxygen, up to 0.93 mmol O2 per square meter per hour, while living at temperatures around 0°C. That is comparable to the respiration rate of dense cold-water coral reefs and is an order of magnitude higher than typical rates reported for the deep seafloor.
“This shows that sponges take up carbon at a rate that cannot be explained by the amount of organic material that descents from surface waters,” said first author and former NIOZ Ph.D. candidate Ulrike Hanz.
In other words: sponges must eat a lot of additional resources dissolved in the surrounding water that are normally not available to marine animals.
Fish benefit
“Moreover,” Hanz said, “the sponges take up a lot of dissolved nutrients, like nitrogen and phosphorus as well. Because they assimilate and subsequently excrete part of these nutrients as particulate matter, they make these nutrients available for other organisms, such as fish. These other organisms usually cannot benefit from dissolved nutrients in the way the sponges do.”

Ancient and Crucial
The coordinator of this research project, NIOZ’s marine ecologist Furu Mienis, is thrilled with the results: “It shows once again how little we still know about the life of sponges. More importantly, it shows how crucial these ancient organisms are to life in the deep sea. They could almost be seen as the ‘primary producers of the deep-sea’, like algae and plants are on the surface, but in this case, without sunlight.”
New ROV
The deployment of the respiration chambers in the ice-cold waters of the Greenland Sea would not have been possible without an underwater robot. Later this year, NIOZ’s brand-new, ocean-going research vessel RV Anna Weber-van Bosse will be fitted with a similar ROV.
“This will further increase our possibilities to do research and carry out in situ experiments in these extreme environments,” Mienis said.

Need to Know
Mienis stresses that knowledge about sponges exceeds the level of nice-to-know. “Without the metabolism of sponges, many marine ecosystems would collapse, making the life of other organisms, including commercially fished animals, impossible. The amount of oxygen consumption also shows that sponges take their share in carbon sequestration. This makes them a significant player in the climate puzzle as well.”