Download Mineral Resources Notes 11-12

Mineral Resources & Mining
Eight chemical elements make
up 98.3% of Earth’s crust.
Oxygen
Silicon
Aluminum
Iron
Calcium
Sodium
Magnesium
Potassium
Other elements comprise 1.7% of
Earth’s Crust
 Many of these are important to industry
 Distribution of these elements is not
uniform across the Earth.
Examples:
Ni, Ti, Cr, Cu, Pb, Zn, U,
Pt, Au, Ag, etc.
Ore
 If one or more chemical elements occur in
sufficient abundance that they may be mined
for a profit, then the rock is termed an ORE.
Classification of Mineral Resources
• Metallic Mineral Resources
• Abundant (Iron, Aluminum, Magnesium, Manganese,
Titanium)
• Scarce (Copper, Lead, Zinc, Chromium, Nickel, Gold,
Silver)
• Non-Metallic Mineral Resources
• Construction (Sand, Gravel, Clay, Limestone,
Gypsum)
• Agriculture/Industry (Phosphates, Nitrates, Sodium
Chloride, Sulfur)
• Ceramics/Abrasives (Feldspar, Clay, Quartz,
Diamond, Pumice, Garnet, Corundum)
Processes of ore concentration
are related to rock formation.
 Rocks are grouped into three major families,
based upon their processes of formation.
Igneous Rocks
Sedimentary Rocks
Metamorphic Rocks
Ore formation by igneous processes
 Crystal Settling
Dense minerals crystallizing in magma, settle to
the bottom of the magma chamber
– Ex. – Chromium, Platinum, Nickel, Copper, Lead
Ore formation by igneous processes
 Hydrothermal
enrichment
water, superheated by
magma, dissolves
minerals and deposits
them in “veins”
– Ex. – Copper, Gold,
Silver
Ore Formation by Igneous Processes
 Lode – many thick mineral veins in a small region
– Ex. – The “Mother Lode” during the California gold rush
Hydrothermal Enrichment
 Pegmatites – “veins” in rocks
Common form of gold enrichment
 Exhalites – Submarine vents of hot, mineral-
rich water
“Black Smoker Chimneys” – hydrothermal vents
Associated with mid-ocean ridges
“Black Smokers”
Sulfide Mine in an Exhalite
Deposit
Ore Formation by Sedimentary
Processes
 Placer deposits
Moving water erodes rocks releasing heavy
minerals which settle on the bottom of stream
beds (ex. – gold)
– Ex. - gold
Ore Formation by Sedimentary
Processes
 Evaporite deposits
Precipitation of salt in shallow marine basins or
saline lakes (in arid climates)
– Ex. – halite, gypsum, borax
Ore Formation by Metamorphic
Processes
 During contact metamorphism, pre-existing
rock is altered forming ores
Ex. – Lead, Copper, Zinc
Prospecting and Exploration
Methods of Discovery:
Satellite and Aerial Photography
Remote Sensing
Geological Mapping
Magnetic Mapping
Gravity Mapping
Radioactivity Mapping
Geochemical Sampling
Electrical Sounding Ground-Penetrating Radar
Seismic Methods
– Reflection - Detailed but Expensive
– Refraction - Cheap but Not Detailed
Core Sampling and Well Logging
Economic Factors in Mining
 Richness of Ore
 Quantity of Ore
 Cost of Initial Development
 Equipment, Excavation, Purchase of Rights
 Operating Costs: Wages, Taxes, Maintenance,
Utilities, Regulation
 Price of the Product
 Will Price Go up or down?
Issues in Mineral Exploitation
Who Owns (Or Should Own) Minerals?
Landowner
Discoverer
Government
Unclaimed Areas:
Sea Floor
Antarctica
Who Controls Access for Exploration?
Remote Sensing vs. Privacy
Types of Mines
 Surface
Open pit (Au, Cu)
Quarries (stone, gravel, sand)
Strip mines (coal)
 Subsurface (underground)
 Placer – dredging (Au)
 Seafloor– nodules (Mn, Ni, Fe)
Problems with Mining
Safety
Mine Wastes/Pollution
Hazardous working conditions
Noise
Economic Impact
"Boom and Bust" Cycles
Environmental Problems
Exploration
Construction & Operation
Waste Disposal
Reclamation
 Returning the land to
a more natural state
after mining
operations have
ended
Mine Albert, Quebec, before and after
reclamation. Government of Quebec
Economic Implications
 Ores are not found everywhere
 Some ores are richer than others
 Ore distribution is a function of geology
 Ore distribution is not equal across the world
 Some nations are rich in mineral resources
 Other nations have few mineral resources
 No nation is self sufficient in mineral resources
Environmental Considerations
 Mining leaves holes in the ground
 Mining adds unusual quantities of sediment
to rivers and streams
 Mining exposes minerals to interaction with
surface and groundwater, which may
contaminate them
 Mine waste may be unstable - landslides
 Smelting may pollute air and water
Why do we need mines?
We all make choices.
 Industrialized societies depend on mineral
resources
 Environmental problems must be considered in
extracting wealth from the Earth
 Its not Good (environment) vs. Evil (industry)
 It’s a compromise, of which, we must make the
best!