Abstract
In 2006, the BGR signed a contract with the International Seabed Authority (ISA) for the exploration of polymetallic nodules in the Clarion-Clipperton Zone of the northeast Pacific. During nine expeditions, in particular, “Area E1”, the eastern part of the contract area, with a size of ~60,000 km2, was explored in detail. Here, we outline BGR’s exploration methods and provide resource estimates for Area E1 and three sub-areas. The resource assessment is predominantly based on statistical analyses of data obtained by 12-kHz multibeam bathymetry and backscatter mapping, box core sampling and geochemical analysis of nodules. The main parameter for the assessment is the nodule abundance (kg/m2), as its coefficient of variation (CoV) over the entire eastern contract area is relatively high at 36%. In contrast, the metal contents of nodules show only minor variation, with a CoV of 8% for manganese and 8% for the sum of copper, nickel and cobalt. To estimate mineral resources for the entire Area E1, we used an artificial neural network approach with a multivariate statistical correlation between nodule abundance derived from box cores and hydro-acoustic data. The total estimated resources are 540 ± 189 million tonnes (Mt) of dry nodules, and the total estimated metal contents are 168 Mt of manganese, 7.5 Mt of nickel, 6.3 Mt of copper, 0.9 Mt of cobalt, 0.4 Mt of rare-earth elements and 0.3 Mt of molybdenum. A geostatistical resource estimate of three economically prospective areas with a total size of 4498 km2, intensively sampled by box cores, was carried out using ordinary kriging of nodule abundance and metal grades. Within these three nodule fields, 7.14 Mt of dry nodules are classified as measured mineral resources covering an area of 489 km2. Indicated mineral resources amount to 11.2 Mt, covering an area of 825 km2, and inferred mineral resources of 35.5 Mt of dry nodules were estimated for an area of 3184 km2. In total, the metal contents of the three prospective areas amount to 16.8 Mt of manganese, 0.74 Mt of nickel, 0.63 Mt of copper and 0.09 Mt of cobalt.
Highlights
Due to the continued growth of the world’s population and economy, as well as the technological transformation from fossil to renewable energy sources and the emergence of e-mobility, the demand for metals such as manganese, copper, nickel and cobalt is increasing
Deep-ocean polymetallic nodules are of special interest because they contain several of the metals needed in large quantities for the technological transformations mentioned above
The methods for manganese nodule exploration described in this paper have proven to be efficient, i.e., they provide the information required for resource assessments in a financially and logistically appropriate and timely manner
Summary
Due to the continued growth of the world’s population and economy, as well as the technological transformation from fossil to renewable energy sources and the emergence of e-mobility, the demand for metals such as manganese, copper, nickel and cobalt is increasing. Today, these metal resources are exclusively mined on land. Manganese nodules are composed of iron and manganese oxides that accrete around a nucleus on the vast abyssal plains of the global. Manganese nodules are composed of iron and manganese oxides that accrete around a nucleus on the vast abyssal plains of the ocean in
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