The interactions between life and the extreme environment of the Arctic deep-sea are one focus of our expedition. So this second weekly report of expedition PS101 is dedicated to life deep under the ice. Some of the sponges we find on the summit of the seamounts must be hundreds of years old, their sides are overgrown by polychaete worms and bryozoan colonies. Sponges are one of the oldest animal clades and they are abundant in all oceans – from shallow tropical reefs to the arctic deep-sea. Many accommodate a complex and characteristic community of microorganisms in a symbiotic relationship – such as the abundant Geodia sponges we find here.  

As with benthic life on top of the seamount,  the zooplankton drifting above in the water column are also extremely abundant. Zooplankton includes the passively drifting, mostly small 0.2-200 mm animals that are studied on our cruise with two different gears: the Multinet and LOKI (Lightframe On-sight Key species Investigations). The Multinet is equipped with many nets (150 µm mesh size) to sample different depth layers within the ocean during a vertical haul from the seafloor to the surface. The zooplankton recorder LOKI is used to study the small-scale distribution of zooplankton by taking pictures of the organisms and simultaneously recording depth, water temperature, salinity, fluorescence and oxygen concentration.

The zooplankton scientists send their nets as deep as possible, to catch the almost unknown fauna living close to the seabed, not only at the top of the seamount but also in the deep Gakkel Ridge and surrounding basins. First results show that planktonic life between 2 and 4.8 km water depth is diverse and much richer in terms of biomass and abundance than ever observed on previous expeditions to the central Arctic (1995-2015). Is this abundance typical for the Gakkel Ridge area due to advection of Atlantic inflow, or is it an effect of water circulation in vicinity of seamounts? Do these pelagic organisms serve as food for sponges on the seafloor? What do they eat, when Arctic primary productivity is so low? These are the questions to be answered during this expedition.

But besides quantifying biodiversity of life under ice, there are other important questions for which we collect data and observe processes in the field. How the Arctic marine communities will react to rapid climate change and how the ongoing sea ice decline will affect the life of plankton and benthos are major scientific and societal challenges, to which this expedition will contribute data. Likewise there are basic geological problems to solve. The origin, activity and effects of the Langseth Ridge and the surrounding sections of Gakkel Ridge are poorly understood. Are the seamounts caused by volcanism or by tectonic processes and is this area active in terms of heat flux, fluid and gas emission? How important are the seafloor structures for hydrography and for the Arctic foodweb. We are looking forward to the next weeks of field work to get some further insights into this intriguing region.

It is only one week ago that we started the first dives here, and during this week we have deployed almost all our instruments into the water, to the seafloor or onto the ice, depending on their scientific aims. Weather is not great – it is either quite foggy, or it snows, and most of each day is twilight. Temperatures are between -1 and 10°C. But the ice conditions favor our research plans, as most of the ice is thin and relatively new, ice through which Polarstern can maneuver and position very well. Every day we are amazed how we can do targeted seafloor work – just now we have retrieved a multicorer sample from a specific sediment field of only 100m diameter – in full ice, strong winds and at over 3000 m water depth. What a great ship and crew !

Last week was very exciting and a great start of the expedition. We have successfully retrieved the second modular FRAM observatory, have deployed sea ice buoys for international Arctic research, and could complete several sea ice stations while doing deep-sea work. Also we carried out the first test dive of the new NUI Underice H-ROV. The little submersible robot became unexpectedly autonomous right at the start of the test and it did take some effort to keep it from taking a long dip under the ice. We understand – it is really beautiful down below.

Currently we begin to study the deep Gakkel Ridge in the vicinity of hydrothermal venting.  This ridge is called an “ultraslow spreading zone” but it seems to be much more active than anticipated.

All participants are in good health and are sending greetings to families, friends and colleagues.

Antje Boetius