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  • IMMS
    On The Possibility Of Offshore Mineral Occurrences In Greenland Waters

    By P. U. W. Appel

    Despite the very large offshore Exclusive Economic Zone (EEZ) area of Greenland (in excess of 2 mill. km2) virtually no work has been carried out on marine minerals on the ocean floor. Apart from a si

    Jan 1, 1988

  • IMMS
    Sediment Sources, Pathways And Sinks In The Southern North Sea And Eastern English Channel

    By Brian D?Olier

    Much of the aggregate that is being exploited at present from these areas is a ?relic? deposit. It was originally eroded from primary source rocks and transported to a depositional centre by processes

    Jan 1, 2004

  • IMMS
    Possibilities For Commercial Minerals In The Irish Offshore Area

    By M. Geoghegan

    Under the provisions of the U.N. Law of the Sea Convention Ireland is likely to have mineral rights to an area of continental shelf some six times its present land area. Apart from the major potential

    Jan 1, 1988

  • IMMS
    Platinum-Group-Metals, Gold, And Chromium Resource Potential Offshore Of Platinum, Alaska

    By James C. Barker

    Concern over the availability of domestic critical and strategic mineral supplies has led the Bureau of Mines to evaluate the reserve development potential of alternative sources in Alaska. Near the v

    Jan 1, 1986

  • IMMS
    New Frontier Explored by D/V Chikyu

    By Wonn Soh

    As for Earth, where human beings live, approximately 70 % of its surface is covered by oceans. Today, advanced technology has led us to understanding the abyssal ocean floor through the use of subme

  • IMMS
    First Australian Offshore Mineral Locations Map

    By Yanis Miezitis, Gerald Mueller, Timothy F. McConachy, Ronald G. Sait, Keith R. Porritt, William J. McKay

    In November 2004, Australia lodged with the United Nations Commission on the Limits of the Continental Shelf possible new maritime boundaries in relation to Australia’s continental shelf extending b

    Aug 24, 2006

  • IMMS
    Mineralogy and Chemistry of Ferromanganese Nodules in the Campbell Nodule Field

    By Hunsoo Choi, Sung Rock Lee, Ian J. Graham, Ian C. Wright

    This is a part of the joint KIGAM-GNS-NIWA 3-year study of ferromanganese modules in the Campbell Nodule Field, east of Campbell Plateau to determine age distribution, growth rates and geochemical evo

    Aug 24, 2006

  • IMMS
    Seabed Mineral Deposits in European Seas: Metallogeny and Geological Potential for Strategic and Critical Raw Materials (MINDeSEA Project)

    By Henrik Schiellerup, Irene Zananiri, Johan Nyberg, Thomas Kuhn, Luis Somoza, Teresa Medialdea, Maria Judge, Pedro Ferreira, Gerry Stanley, Javier González

    The GeoERA Co-Fund action is a joint contribution of 48 national and regional Geological Survey Organisations from 33 European countries “Establishing the European Geological Surveys Research Area to

    Jan 1, 2018

  • IMMS
    Gas Hydrates Of The West Coast Of India: A Neo-Tectonic Perspective (1d4cfd86-5c10-440c-a519-a1146741f386)

    By S. Rajendran

    Gas Hydrates (Methane Hydrates) are solid, ice ? like substances composed of water and natural gas. They occur naturally in areas of the world where methane and water can combine at appropriate condit

    Jan 1, 2002

  • IMMS
    The 300 Mt Windy Craggy Besshi-Type Massive Sulfide Deposit, Northwestern British Columbia, Canada: An Analog For Modern Seafloor Sulfide Deposits At Sedimented Settings?

    By Jan M. Peter

    The Early Norian Windy Craggy massive sulfide deposit is within the allochthonous Alexander terrane of the Insular tectonic belt in extreme northwestern British Columbia (Figure 1). Host rocks are the

    Jan 1, 1993

  • IMMS
    A Multidisciplinary Field Study of Cobalt-Rich Crusts, Tropic Seamount, North-East Atlantic: Marine E-Tech

    By Mark Lee, Isobel Yeo, Sarah Howarth, Christian Millo, Javier González Sanz, Paul Lusty, Bramley Murton, Pierre Josso

    "Seafloor cobalt-rich ferromanganese crusts represent the most important yet least explored resource of ‘E-tech’ elements on the planet (Hein et al. 2003; ISA, 2008; Hein et al. 2010; Hein et al. 2013

    Jan 1, 2017

  • IMMS
    Ferromanganese Crusts From The Kuril Basin And Kashevarov Trough Seamounts (Sea Of Okhotsk)

    By P. E. Mikhailk

    From July 29 to September 15, 2004, the 178th cruise of the R/V Sonne took place under the KOMEX program in the Sea of Okhotsk. One of the cruise objectives was to dredge two different kinds of seamou

    Jan 1, 2005

  • IMMS
    Heavy Minerals, Offshore Virginia: A Project Report

    By C. H. Hobbs

    A recently completed series of projects funded by the Commonwealth of Virginia and the U.S. Minerals Management Service was designed to assess the distribution of heavy minerals on the inner continent

    Jan 1, 1988

  • IMMS
    Exploration For Seafloor Polymetallic Sulfide Deposits Using Particle Concentration Gradients In Hydrothermal Plumes

    By Timothy F. McConachy

    Hydrothermal fluids emanating from the seafloor rise as buoyant plumes, entraining ambient bottom sea water on the way up, until they reach density equilibrium and spread laterally in a direction that

    Jan 1, 1986

  • IMMS
    Comparative Study On Mining Robots Design For Polymetallic Nodules And Seabed Massive Sulfides

    By Sup Hong

    Herein, concept designs of two different types of mining robots are concerned, which are aimed for developments of deep seabed mineral resources: polymetallic nodules (PMN) and seabed massive sulfides

    Jan 1, 2011

  • IMMS
    Distribution Of Radionuclides During Weathering And Erosion In Saquarema (Rio De Janeiro): Implications For Submerged Monazite Deposits In Adjacent Offshore Areas

    By V. M. Hamza

    Analysis of ground and airborne radiometric measurements in the Saquarema region (Rio de Janeiro) provides new insights into the breakdown and transport of mineral aggregates containing monazites, und

    Sep 14, 2011

  • IMMS
    Manganese Nodules: New Potentials For Mining By 2000

    By William D. Siapno

    Mining the deep ocean by the year 2000 may seem far fetched. The year 2000 is but a decade away, a scant 10 years. Remember, the youngsters of today will grow up in a little more than a decade and reb

    Jan 1, 2011

  • IMMS
    Dynamic Mineral Recrystallization – Implications for Sustainable Trace Metal Recovery from Deep-Sea Ferromanganese Deposits

    By Tobias Hens, Andrew Frierdich, Barbara Etschmann, Joël Brugger, Barrie Bolton

    "Ferromanganese (Fe-Mn) nodules and crusts are prime targets for future deep-sea mining ventures due to their unusual enrichment of critical metals, such as Ni, Co, Cu, Ti, Te, Zr, Hf, Nb, Y, and REE.

    Jan 1, 2017

  • IMMS
    Marine Sediment Data At The U.S. National Geophysical Data Center

    By Carla J. Moore

    The National Geophysical Data Center (NGDC), Marine Geology and Geophysics Division and co-located World Data Center-A for MGG archives and distributes global marine sediment data from U.S. and intern

    Jan 1, 1993

  • IMMS
    Column Flotation Of Cobalt-Rich Ferromanganese Crust

    By William C. Hirt

    Column flotation is a promising technique for processing as-mined, cobalt-rich, ferromanganese crust to separate the valuable crust component from barren substrate-rock, either aboard ship or within t

    Jan 1, 1992