Sedimentary Rocks
Sedimentary Rocks
All fossils and fossil fuels found are from sedimentary rocks
Least common type of the 3 kinds of rocks
Sedimentary rocks are products of mechanical (physically breaking something into smaller and smaller pieces- expansion and contractions) and chemical weathering (when things chemically dissolve - rain)
They account for about 5% (by volume) of Earth’s outer 10 miles
They contain evidence of past environments - info about sediment transport and often contain fossils
Sedimentary rocks are important for economic considerations because they contain : coal, petroleum and natural gas, (sources of iron, aluminum and manganese
Many changes occur to sediment after it is deposited
Diagenesis - all of the chem, physical, and biological changes that take place after sediments are deposited (occurs within the upper few kilometers of Earth’s crusts
Diagenesis
Includes…
Recrystallization - development of more stable minerals from less stable ones
Lithification - unconsolidated sediments are transformed into solid sedimentary rock by…
Compaction
cementation - by calcite, silica, and iron oxide
Sediment originates from mechanical and/ or chemical weathering
Rock types are based on the source of the material
Detriatal rocks - transported sediment as solid particles (if you can lightly scratch the rocks, small bits should break off if it is a detriatal rock)
Chemical rocks - sediment that was once in solution
Two major textures are used in the classification of sedimentary rocks
Clastic - discrete fragments and particles; all detrital rocks have a clastic textures
Nonclastic - pattern of interlocking crystals; may resemble an igneous rock
The chief constituents of detrital rocks include: clay minerals, quartz, feldspars, micas (rare to find sedimentary rocks with dark colored minerals like amphibole and pyroxene because they are more sensitive to Earth’s surface - they dissolve quicker)
Particle size is used to distinguish what type of rock it is
Smallest sed. Particles are clay (particles less 1/256 of a millimeter) and silt (any particle 1/256 of a millimeter to 1/16 of a millimeter)
referred to as mud
Sand (1/16 of a millimeter to 2 millimeters) - feels “griddy”
Granule (2 to 4 millimeters)
Pebble (4 to 64 millimeters)
Cobble (64 to 256 millimeters)
Boulder (larger than 256 millimeters)
all referred to as gravel
Common detrital sedimentary Rocks (in order of increasing particle size)
Shale - mud-sized particles in thin layers that are commonly referred to as laminea; most common sedimentary rock
Sandstone - composed of sand-sized particles; forms in a variety of environments; sorting, shape, and composition of the grains can be used to interpret the rock’s history; quartz is the predominant mineral
Conglomerate and breccia
Both are composed of particles greater than 2 millimeters in diameter
Conglomerate consists largely of rounded gravels (rounded from continuously moving after they got cemented together)
Breccia is composed mainly of large, sharp, angular particles (they haven’t moved much since they got cemented together because their sharp edges haven’t been worn down)
Chemical Sedimentary Rocks
Consists of precipitated material that was once in solutions
Precipitation of material occurs in two ways
Inorganic processes
Organic process (biochemical process - coral, clams, shellfish, snails)
Limestone
Most abundant chemical rock
Composed chiefly of the mineral calcite (use acid - if it fizzes, it is limestone)
Marine biochemical limestone form as coral reefs, coquina (broken shells), and chalk (microscopic organisms)
Inorganic limestones include travertine and oolitic limestone
Not going to scratch glass (?)
Dolostone
Typically formed secondarily from limestone
Mostly magnesium carbonate
Looks almost identical to limestone
Usually a little bit darker than limestone
Also is reactive to acid but not as much as limestone (should scratch it before pouring acid)
basalt does not react with acid
Chert
Made of microcrystalline quartz that have grown and locked together
Depending on the color, there are different names
If it is a light color, it is chert
Varieties include flint (dark, black) and jasper (red or purple) (banded form is called agate - when it is a mix/swirl of colors)
Can scratch glass
Evaporites
Evaporation triggers deposition of chemical precipitates
Examples include rock salt and rock gypsum
Coal
Different from other rocks because it is composed of organic material
Always associated with igneous rocks
Forms from plants (in hot, humid environments
Stages in coal formation (in order)
Plant material
Compacts into a material called peat (can also be burned but doesn’t produce a lot of heat/energy
More compacting creates lignite
More compaction and more time creates Bituminous (most common and most widely used for energy)
If the temperature and pressure is increased, anthracite (rich in_) is made (metamorphic rock) only creates a small amount of pollution
Formed mostly from plant material
Along with oil and natural gas, coal is commonly called a fossil fuel
The major fuel used in power plants to generate electricity
Potential environmental problems from mining and air pollution
Oil and Natural gas
Derived from the remains of marine plants and animals
Both are composed of various hydrocarbon compounds and found in similar environments
Oil trap - geologic environment that allows significant amounts of oil and gas to accumulate
Two basic conditions for an oil trap
Porous, permeable reservoir rock
Impermeable cap rock, such as shale
Cap rock keeps the mobile oil and gas from escaping at the surface
Sedimentary environments
(EOD)Environment of Deposition: a geographic setting where sediment is accumulating
Determines the nature of the sediments that accumulate (grain size, grain shape, etc.)
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Determine if the rock is chemical or sedimentary
Use the top (clastic) or bottom (chemical) charts
Silica- no fizz
Calcite- fizz
Iron oxide- pinkish color