Scientists to explore the depths of the Atacama Trench

Investigating microbes

Microbial communities play an important role for the function of the global ocean and for life in oceans and on land.

The researchers will investigate a number of sites along the trench with an array of remotely operated instruments.

Taking probes of sediment at almost 10.000 m in the Kermadec Trench. From an expedition in December 2017. 

- The deep oceanic trenches are some of the least explored habitats on Earth and presumably host many unknown life forms. Recent investigations indicate that even though the seabed at these depths is exposed to extreme hydrostatic pressure, the trenches represent areas of intensified biological activity in the deep sea, says project leader Professor Ronnie N. Glud, University of Southern Denmark.

Large deposits of organic material

- Innovative in situ technologies will be used to explore this extreme marine environment usually ignored because of the technological challenges at this great pressure. We will use a variety of autonomous systems (called landers) to investigate microbial processes directly at the seafloor, says Dr. Frank Wenzhöfer, Max Planck Institute for Marine Microbiology.

The Atacama Trench lies under one of the most productive oceans in the world and therefore the researchers expect it to contain large deposits of organic material, funneled down from trench slopes and overlying waters.

German research vessel Sonne will be home and work place for the crew during the voyage to Atacama. Photo: Oliver Zielinski, ICBM. 

- We expect that the trench sediment will host significant anaerobic degradation of organic material, which makes it a unique site for investigating processes of nitrogen cycling and sulfate reduction at extreme pressure – processes that are presumably mediated by completely unknown microbial communities, said Professor Glud.

Specific questions addressed during this cruise are

- What are the sedimentary processes providing food for the hadal community in the Atacama Trench?

- How do abundance, diversity and community structure of microorganisms, meio- and macrofauna in the Atacama Trench differ from those in less productive trenches and nearby abyssal and shelf sites?

- What are the general biogeochemical characteristics of the surface and deep sediment and water column in the eutrophic Atacama Trench?

- Which mineralization pathways are responsible for organic matter breakdown in the eutrophic Atacama Trench?

- How efficient are microbial communities operating at extreme hydrostatic pressures in mineralizing organic material as compared to their shallower counterparts? And to what extent do specialized, yet unknown extremophile microbial communities mediate these processes?

Previous and coming expeditions to deep ocean trenches

In 2010, Professor Ronnie N. Glud participated in a Japanese led expedition to the Mariana Trench, retrieving sediments from the deepest spot on Earth, The Challenger Deep at almost 11,000 m depth. He found a surprisingly high microbial activity in the hostile high-pressure environment (pressure is almost 1,100 times higher than at sea level). He has since participated in several cruises to hadal trench systems.

Professor Bo Thamdrup and Scientific Staff Anni Glud, SDU, working with samples, collected from Kermadec Trench in December 2018. Photo: Ronnie Glud. 

In 2017, Professor Ronnie N. Glud led an expedition to Kermadec Trench, retrieving sediments from 9,994 m and exploring conditions in a trench characterized by a relatively low input of organic material.

Apart from the upcoming expedition to Atacama Trench, he will also investigate the Japan Trench.