Deep Sea Mining: What are the risks?

Written By Unknown on Sunday, February 8, 2015 | 7:43 PM

During the launch event in Kiel, the project partners plan investigations to ecosystems around the manganese nodules. Photo: J. Steffen, GEOMAR
During the launch event in Kiel, the project partners plan investigations to ecosystems around the manganese nodules. Photo: J. Steffen, GEOMAR

GEOMAR coordinates European cooperation for the risk assessment
01.29.2015 / Kiel. 50 specialists in deep-sea ecology, marine mining and deep-sea observation of 25 European research institutions meeting this week at the GEOMAR Helmholtz Centre for Ocean Research Kiel. This will free the start of a three-year research project to investigate the risks of potential ore mining on the seabed. The project called "JPI Oceans Ecological aspects of deep-sea mining" is coordinated at GEOMAR.

The world population is growing. This also means that more and more people need a home, want to work with computers and other electronic devices and consume energy. For the construction of houses for the manufacture of electronic goods, but also for the production of wind turbines will require significant amounts of various metals. Currently, all metal ores are promoted on almost a third of the earth's surface - on the continents. 
In some regions of the ocean manganese nodules are recorded in the Atlantic as here, close together on the ocean floors. Photo: Nils Brenke, CeNak
In some regions of the ocean manganese nodules are recorded in the Atlantic as here, close together on the ocean floors. Photo: Nils Brenke, CeNak

However, in recent decades engaged again, the other two thirds, the oceans, the focus of governments and resource companies. "Many questions about a potential ore mining in the deep sea, however, are still open," says Dr. Matthias Haeckel from GEOMAR Helmholtz Centre for Ocean Research Kiel. He is the scientific coordinator of the "Ecological aspects of deep-sea mining" project to investigate the potential environmental risks in the next three years. A consortium of research ministries in eleven European countries promotes it as part of the Joint Programme Healthy and Productive Seas (JPI Oceans) initiative with a total of 9.5 million euros. 
In the Clarion-Clipperton Zone are the largest known manganese nodule deposits. Here, the ISA has been awarded 13 research licenses. Image Reproduced from the GEBCO world map 2014 www.gebco.net,
 In the Clarion-Clipperton Zone are the largest known manganese nodule deposits. Here, the ISA has been awarded 13 research licenses. Image Reproduced from the GEBCO world map 2014

This week, the project starts with a kick-off meeting at GEOMAR. A total of 25 partner institutions from these eleven countries involved in the project. The focus is primarily known as manganese nodules. It is spherical or cauliflower-shaped Erzknollen, which are usually at depths below 4000 meters on the large abyssal plains. They consist not only from the eponymous manganese, but also contain iron and coveted metals such as copper, cobalt or nickel. Already in the 1970s, there were initial plans to reduce manganese nodules from the deep sea, but never came out on trials. The largest reserves are currently known from the Clarion-Clipperton Fracture Zone in the central Pacific. As a result of these activities in international waters on the basis of the International Law of the Sea (UNCLOS), the International Seabed Authority (International Seabed Authority, ISA) was founded in 1994. 

It manages the entire seabed beyond the exclusive economic zone (200 nautical miles) of individual states. To date, the ISA has awarded 13 research licenses for exploration of manganese nodule fields in the Pacific, including in Germany and other European countries. 
Sample of the seabed in DISCOL area with top resting manganese nodules.
                     Sample of the seabed in DISCOL area with top resting manganese nodules. 
                                                    Photo: M. Haeckel, GEOMAR

"But there is no mining licenses, which would only be a next step," said Dr. Haeckel. Since the ISA also aims to ensure effective protection of the marine environment from the potential consequences of ocean mining, relevant research for the licensees are required. "Of course industrial activities on the ocean floor will have an impact, because they disturb the soil and the water column about it," says Dr. Haeckel. Therefore, it is important to know the ecosystems on the sea floor and its local, regional and national connections and interactions accurately. Already this year, several expeditions of the new German research vessel SONNE in the Pacific are planned. 

The first trips in March and April perform the participating scientists to the German, Belgian and French license areas and in a defined by the ISA reserve in the Clarion-Clipperton Zone. Further trips from July to October have the so-called DISCOL area in Peru Basin to the destination. There, in 1989, a very limited area of the seabed was plowed for research purposes. "The goal of this experiment is to recognize the long-term consequences of large-area device used for deep-sea sediments," explains Professor Jens Greinert from GEOMAR, who will lead one of the exits to DISCOL area. Now, a quarter century after the disturbance experiment, the scientists will examine the then machined seabed areas exactly compare with adjacent undisturbed areas to determine, can recover disturbed communities in the deep sea as fast. "We should get to know each other better before we start, a large area to intervene in the deep sea it easy," says project coordinator Dr. Haeckel. 

Source: GEOMAR
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