Learning Objectives
1. The three main categories of geologic resources are: energy, metals and
nonmetallic resources. All are nonrenewable. Resources include discovered
and undiscovered deposits. Reserves are discovered deposits that can be extracted
economically under current conditions.
2. Fossil fuels provide about 90% of U.S. energy, while the nation derives
about 41% of its energy from oil, 24% from natural gas, 24% from coal, 9%
from nuclear, and 3% from hydroelectric. .
3. Petroleum includes crude oil and natural gas. Oil and natural gas originate
in sedimentary environments, and underground oil and gas accumulations require
source rock, reservoir rock, a trap, and proper thermal maturity. Traps include
structures (anticlines, faults), stratigraphic relations, unconformities,
reefs, and salt domes. Oil fields are regions with one or more oil pools.
Environmental concerns involving petroleum include spills, natural seeps,
subsidence, and air pollution.
4. World oil reserves will last from 40 to 45 years at present rates of consumption.
The United States imports approximately 51% of the oil it uses, and its domestic
reserves are only 8 years at current rates of production. Natural gas reserves
are approximately 30 years, but those estimates may be too low because price
decontrols have made some occurrences economic that were not previously (e.g.
coal beds and gas hydrates). Heavy crude, oil sands, and oil shale add to
U.S. reserves, and have been exploited in Canada, but not to any degree in
the United States.
6. Coal provides 24% of U.S. energy needs and 88% of it is used to generate
electricity. Ranks of coal from lowest to highest are: peat, lignite, subbituminous,
bituminous, and anthracite. The major bituminous coal producing areas in the
United States are the Appalachian and interior fields (Michigan to Texas).
Far western fields (New Mexico to Montana) produce lignite and subbituminous
coal. Coal reserves are adequate for centuries at current rates of production,
and the U.S. exports coal.
7. Uranium is used in nuclear reactors, which supply about 9% of U.S. electricity.
Uranium occurs in a variety of deposits (black shales and phosphorites), but
sandstones in the western United States have produced the bulk of the metal
thus far. Reserves are adequate for the foreseeable future, and breeder reactors
may extend the amount of uranium that can be used as fuel.
8. Renewable alternative sources of energy include hydroelectric power that
contributes about 3% of domestic needs, and power derived from other energy
sources: geothermal, solar, wind, tidal, wave, ocean current and oceanic temperature
differences, nuclear fusion, and hydrogen dissociated from water.
9. Chemical precipitation of ores in layers is a common occurrence for iron
and manganese. Concentration by weathering produces placers. Supergene enrichment
develops copper ores as a result of leaching and redeposition by groundwater.
10. Metallic ores are related to plate tectonics. Diverging plate boundaries
develop hydrothermal fluids that contain metallic ions and form hot spring
deposits in rift valleys along mid-oceanic ridges. Converging plate boundaries
may develop ores associated with ophiolites and island arcs.
11. Mining involves both underground and surface activity. Open-pit, strip
and placer mines are large surface operations that pose potential environmental
problems from waste rock, subsidence, and acid drainage.
12. Important metals for an industrialized economy include iron, copper,
aluminum, lead, zinc, silver and gold. An"other" category includes:
chromium, nickel, cobalt, manganese, molybdenum, tungsten, vanadium, tin,
mercury, titanium, and platinum. Ores of most of these metals are recovered
by open pit mining, and those ores may have several of these minerals in association.
13. Nonmetallic resources include sand and gravel, stone (cut or crushed),
fertilizers (phosphates, nitrates and potassium compounds), evaporites (rock
salt, gypsum, and sulfur), gemstones, asbestos, talc, mica, barite, borates,
fluorite, clays, diatomite, glass sand, and graphite.
14. Ocean mining will increase in the future to exploit manganese nodules,
and brine deposits. Better technology will also be applied to the search on
land.
15. The future will require balancing three positions: 1) maintain or raise
standard of living worldwide; 2) maintain environmental quality; 3) conserve
resources for the future.