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Ores

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Ores Principally we discuss ores as sources of metals However, there are many other resources bound in minerals which we find useful How many can we think of? – PowerPoint PPT presentation

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Title: Ores


1
Ores
  • Principally we discuss ores as sources of metals
  • However, there are many other resources bound in
    minerals which we find useful
  • How many can we think of?

2
Ore Deposits
  • A deposit contains an unusually high
    concentration of particular element(s)
  • This means the element(s) have been concentrated
    in a particular area due to some process
  • What sort of processes might concentrate these
    elements in one place?

3
Gold ? Au
  • Distribution of Au in the crust 3.1 ppb by
    weight ? 3.1 units gold / 1,000,000,000 units of
    total crust 0.00000031 Au
  • Concentration of Au needed to be economically
    viable as a deposit few g/t ? 3 g / 1000kg
    3g/ 1,000,000 g 0.00031 Au
  • Need to concentrate Au at least 1000-fold to be a
    viable deposit
  • Rare mines can be up to a few percent gold
    (extremely high grade)!

4
Ore minerals
  • Minerals with economic value are ore minerals
  • Minerals often associated with ore minerals but
    which do not have economic value are gangue
    minerals
  • Key to economic deposits are geochemical traps ?
    metals are transported and precipitated in a very
    concentrated fashion
  • Gold is almost 1,000,000 times less abundant than
    is iron

5
Economic Geology
  • Understanding of how metalliferous minerals
    become concentrated key to ore deposits
  • Getting them out at a profit determines
    where/when they come out

6
Ore deposit environments
  • Magmatic
  • Cumulate deposits fractional crystallization
    processes can concentrate metals (Cr, Fe, Pt)
  • Pegmatites late staged crystallization forms
    pegmatites and many residual elements are
    concentrated (Li, Ce, Be, Sn, and U)
  • Hydrothermal
  • Magmatic fluid - directly associated with magma
  • Porphyries - Hot water heated by pluton
  • Skarn hot water associated with contact
    metamorphisms
  • Exhalatives hot water flowing to surface
  • Epigenetic hot water not directly associated
    with pluton

7
Geochemical Traps
  • Similar to chemical sedimentary rocks must
    leach material into fluid, transport and deposit
    ions as minerals
  • pH, redox, T changes and mixing of different
    fluids results in ore mineralization
  • Cause metals to go from soluble to insoluble
  • Sulfide (reduced form of S) strongly binds metals
    ? many important metal ore minerals are sulfides!

8
Hydrothermal Ore Deposits
  • Thermal gradients induce convection of water
    leaching, redox rxns, and cooling create economic
    mineralization

9
Ore deposit environments
  • Sedimentary
  • Placer weathering of primary mineralization and
    transport by streams (Gold, diamonds, other)
  • Banded Iron Formations 90 of worldsiron tied
    up in these (more later)
  • Evaporite deposits minerals like gypsum, halite
    deposited this way
  • Laterites leaching of rock leaves residual
    materials behind (Al, Ni, Fe)
  • Supergene reworking of primary ore deposits
    remobilizes metals (often over short distances)

10
Ore Deposit Types I
  • Placer uranium gold
  • Stratiform phosphate
  • Stratiform iron
  • Residually enriched deposit
  • Evaporites 
  • Exhalative base metal sulphides 
  • Unconfornity-associated uranium 
  • Stratabound clastic-hosted uranium, lead, copper 
  • Volcanic redbed copper 
  • Mississippi Valley-type lead-zinc 
  • Ultramafic-hosted asbestos  
  • Vein uranium 
  • Arsenide vein silver, uranium 
  • Lode Gold 

11
Ore Deposit Types II
  • Clastic metasediment-hosted vein
    silver-lead-zinc 
  • Vein Copper
  • Vein-stockwork tin, tungsten
  • Porphyry copper, gold, molybdenum, tungsten, tin,
    silver
  • Skarn deposits 
  • Granitic pegmatites 
  • Kiruna/Olympic Dam-type iron, copper, uranium,
    gold, silver 
  • Peralkaline rock-associated rare metals
  • Carbonatite-associated deposits
  • Primary diamond deposits 
  • Mafic intrusion-hosted titanium-iron 
  • Magmatic nickel-copper-platinum group elements 
  • Mafic/ultramafic-hosted chromite
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