Increasing Interest In Ocean Floor Mining Of Massive Sulfide Deposits

Hydrothermal activity results in the formation of hydrothermal mineral deposits including seafloor massive sulfide deposits at oceanic spreading ridges arcs and back arcs.

Increasing interest in ocean floor mining of massive sulfide deposits.

Deep sea mining is a mineral retrieval process that takes place on the ocean floor ocean mining sites are usually around large areas of polymetallic nodules or active and extinct hydrothermal vents at 1 400 to 3 700 metres 4 600 to 12 100 ft below the ocean s surface. Increasing demand for metals c. The vents create globular or massive sulfide deposits which contain valuable metals such as silver gold copper. So far about 200 active vent fields have been found.

Compliance with ethics guidelines. The solwara 1 seafloor massive sulfide deposit off papua new guinea is relatively small with an inferred total mineral resource of 1 4 million tonnes at a grade of 8 cu and 6 g t au. The vast majority of deposits are really small said german. Economically viable deposits can be either active or inactive with different biological communities present at each.

4 novel mining technologies are being developed to identify and exploit previously unattainable resources in order to meet the rising global demand. Current development activity is focusing on ocean floor mining. The island of cyprus for example holds 30 massive sulfide deposits which were a main source of copper for ancient rome. For a number of reasons the mining industry s interest in seafloor massive sulfides is focusing mostly on vent fields in the western south pacific.

Most would probably not be of much interest to the mining industry. Sms deposits were first recognized during the exploration of the deep oceans and the mid ocean ridge spreading centers in the early 1960s. The term has been coined by mineral explorers to differentiate the modern deposit from the ancient. Seabed mining that specifically targets seafloor massive sulfide deposits iron manganese crusts and metallic nodules requires new approaches to material recovery.

Increasing interest in seafloor mining of massive sulfide deposits over the long term is driven by expected a rising prices of metals b increasing demand for metals or c both rising prices and increasing demand. Seafloor massive sulfide sms deposits form in a suite of hydrothermal settings across a range of depths. By comparison ancient volcanogenic massive sulfide deposits on land can contain resources of 150 million tonnes. Many deposits are of a tonnage and mineral grade comparable to land deposits and are attractive to mining companies.

Increasing interest in ocean floor mining of massive sulfide deposits over the long term is driven by expected. The island of cyprus for example holds 30 massive sulfide deposits which were a main source of copper for ancient rome. Seafloor massive sulfide deposits or sms deposits are modern equivalents of ancient volcanogenic massive sulfide ore deposits or vms deposits.