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  • IMMS
    Base And Precious Metal Resources In Seafloor Polymetallic Sulfides

    By Mark D. Hannington

    Seafloor polymetallic sulfides have been found in diverse volcanic and tectonic settings on the ocean floor at water depths ranging from 3700 meters to <1500 meters. More than 100 occurrences of hydro

    Jan 1, 1994

  • IMMS
    Mineral Processing Of Seafloor Hydrothermal Deposit Samples -Treatment Using Gravity Separation And Flotation Methods - Introduction

    By Mayumi Ito

    Seafloor hydrothermal deposits are found worldwide at 700 to 3,600 meters below sea level [1] and contain base and precious metals like Cu, Pb, Zn, Au, and Ag. Some deposits were found in the Japanese

    Jan 1, 2011

  • IMMS
    InterRidge Statement of Commitment to Responsible Research Practices at Deep-sea Hydrothermal Vents

    By Colin Devey

    As marine research scientists we especially appreciate the uniqueness and complexity of the deep-sea hydrothermal vent fauna and environments, and are particularly interested in preserving vents for

    Aug 24, 2006

  • IMMS
    Design of a Subsea Vehicle Propulsion System for Soft Sediments

    By Boris Broere, Wiebe Boomsma, Pieter Lucieer

    "The Blue Nodules project started February 2016 as part of the EU Horizon 2020 subsidy program. Blue Nodules aims at developing a sustainable deep sea mining system for the harvesting of polymetallic

    Jan 1, 2017

  • IMMS
    Thrown in at the Deep End: Modelling Sediment Plumes 1000 m under Water

    By Jeremy Spearman, Alan Cooper, Mark Lee, Jon Taylor, Michael Turnbull, Neil Crossouard, Bramley Murton

    "SUMMARYSeamounts are underwater mountains caused by volcanic activity. They are of great oceanographic interest because of their local and basin-scale influence over ocean systems, their often unique

    Jan 1, 2017

  • IMMS
    An Innovative Seafloor Drill System For Offshore Geotechnical Site Investigation And Seafloor Mineral Exploration

    By Tim J. Boyd

    Gregg Marine, Inc. (headquartered in Signal Hill, California) has recently introduced an innovative seafloor drill system for offshore geotechnical site investigation and seafloor mineral exploration.

    Jan 1, 2011

  • IMMS
    Elemental Correlations And Distributions Of KODOS Ferromanganese Nodules, Focused On SiO2 And CaO

    Although Mn, Fe, Cu, Ni, and Co have been the main interests since the ferromanganese nodules had been found, the other major components such as Si and Ca might be very important controlling factors i

    Jan 1, 2004

  • IMMS
    The Usage Of A New German Deep-Sea ROV (QUEST 5) And A Mobile Drilling System (BGS Rockdrill) For The Exploration Of Deep-Sea Mineral Deposits

    By Thomas Kuhn

    The detailed investigation of both active and inactive submarine hydrothermal systems has gained tremendous progress during the last decades because of the increasing usage of remotely operated vehicl

    Jan 1, 2003

  • IMMS
    Epithermal Ore Formation At The Neovolcanic Komba Ridge In The Eastern Flores Sea, Indonesia

    By Peter Halbach

    Within the frame of the German-Indonesian cooperative Bandamin research project two short cruises (7 station days each) were carried out which led to the Flores-Banda basin located north of the active

    Jan 1, 2004

  • IMMS
    Autonomous Robotic Sea-Floor Infrastructure for Bentho-Pelagic Monitoring (ARIM)

    By Olav Rune Godø

    We present a science-based infrastructure for continuous online monitoring of the ocean interior including benthic, pelagic and the demersal habitats. It will reduce expensive ship based monitoring co

    Jan 1, 2018

  • IMMS
    Development of Offshore Mining and Dredging Technology

    By Henk van Muijen, Jan Willem de Wit

    1.1 Profile IHC Holland Merwede IHC Holland Merwede is world market leader in the construction of specialist dredging equipment and large-size custom-built offshore vessels. The clients of IHC Holla

  • IMMS
    Dating of Iron Oxide Crusts in the Study of Submarine Hydrothermal Events and Mineral Deposition ? Introduction

    By Robert G. Ditchburn

    The NW caldera hydrothermal vent field at Brothers volcano, of the Kermadec-Tonga arc, has associated massive sulfide mineralization. This includes an abundance of black smoker chimneys that contain s

    Jan 1, 2010

  • IMMS
    Economic, Environmental and Technical Considerations for Deep-sea Mining

    By Rahul Sharma

    Although, mining of minerals such as polymetallic nodules and sulphides from the deep sea floor has been delayed due to the combination of factors such as current availability of Cu, Ni, Co, Mn (and o

    Jan 1, 2010

  • IMMS
    Hydrogenetic Fe-Mn Crusts From The Atlantic And Pacific Oceans: Geological Evolution And Conditions Of Formation (87b4258a-f4bd-41f2-89e2-6fee198dbc10)

    By Irina A. Pulyaeva

    Hydrogenetic Fe-Mn crusts are ubiquitous in the ocean basins and play an important role in marine mineral-deposit research because of their widespread occurrence and high concentrations of valuable an

    Jan 1, 2011

  • IMMS
    Generic Mechanisms Affecting the Post-Formation Preservation of Seafloor Massive Sulphide Deposits: Preliminary Results from the TAG Field

    By Sven Petersen, Iain J. Stobbs, Bramley J. Murton, Paul A. J. Lusty

    "INTRODUCTIONIt is widely thought that seafloor massive sulphide (SMS) deposits, the modern analogue of volcanogenic massive sulphide (VMS) deposits, present a potential global resource for base (Cu,

    Jan 1, 2017

  • IMMS
    The Mesoscale Distribution Of Zooplankton Community In The Northeastern Pacific

    By Jung-Hoon Kang

    Present study was stemmed from the survey associated with deep-sea mining in the KODOS area between Clarion Fracture Zone and Clipperton Fracture Zone located in the North Pacific Ocean. The study

    Jan 1, 2003

  • IMMS
    Seafloor Occurrence And Growth Stages Of KODOS Ferromanganese Nodules

    The seafloor occurrences of KODOS ferromanganese nodules can be classified into four facies based on the morphological types of nodules recovered and seafloor photographs. Facies A, B, and C are relat

    Jan 1, 2005

  • IMMS
    Melt Inclusions in Brothers Dacite Reveal Metal Transporting Mechanisms

    By Ian J. Graham

    Brothers volcano, in the southern Kermadec Arc, is host to two hydrothermal vent fields with very different geology, permeability, vent fluid compositions and mineralogy (see de Ronde et al. and Ditch

    Jan 1, 2010

  • IMMS
    Summit Construction, Caldera Formation, Cone Growth, Hydrothermal Processes, and Sulfide Deposition on Submarine Volcanoes of the Southern Kermadec Arc

    By Alexander Malahoff

    Six active Kermadec arc submarine volcanoes located between 34°S and 36°30’S were mapped and sampled by an interdisciplinary inter-institutional research team between April and July 2005 using subme

    Aug 24, 2006

  • IMMS
    Summit Construction, Caldera Formation, Cone Growth, Mass Wasting, Hydrothermal Processes, and Sulfide Deposition on Submarine Volcanoes of the Southern Kermadec Arc

    By Cornel E. J. de Ronde, Alexander Malahoff

    Six active Kermadec arc submarine volcanoes, located between 34°S and 36°30&apos;S were mapped and sampled between April and July 2005, using submersibles Pisces V and Pisces IV aboard the mothership