geologists have developed a set of principles to compare the age of rock layers
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Relative-Age of Rocks
Geologists have developed a set of
principles to compare the age of rock layers.
Relative-Age DatingRelative age is the age of rocks and geologic
features compared with other rocks and features nearby.
There is order in rock formations.
SuperpositionThis principles states that in undisturbed
rock layers, the oldest rocks are on the bottom.
Unless some force disturbs the layers after they were deposited, each layer of rock is younger than the layer below it.
Original HorizontalityMost rock-forming materials are deposited in
horizontal layers.
Sometimes rock layers are deformed or disturbed after they form.
Even though they might be tilted, all the layers were originally deposited horizontally.
Lateral ContinuityThis principle of relative-age says that
sediments are deposited in large, continuous sheets in all lateral directions.
The sheets continue until they thin out or meet a barrier.
InclusionsThis is a piece of an older rock that becomes
part of a new rock is called an inclusion. In the following picture magma intrudes into the rock layers forming a dike. The dike contains inclusions from the rock layers.
The dike is younger than the rock layers. The fault line is younger than the dike.
Cross-Cutting RelationshipsSometimes forces within Earth’s crust cause
rock formations to break or fracture.
If one geologic feature cuts across another feature, the feature that does the cutting is younger, and the feature being cut is older.
An unconformity is a surface where rock has eroded away; producing a break, or gap, in the rock record.
An unconformity indicates that the sediment deposition was not continuous.
An unconformity does represent a gap in time. It could represent a few hundred years, a million years, or even billions of years.
Unconformities
Matching rocks and fossils from separate locations is called CORRELATION
The rock layers correlate if there are similarities in the rock types or similarities in the fossils they contain.
Correlation
Index fossils represent species that existed on Earth for a short length of time, were abundant, and inhabited many locations.
Fossils that lived on Earth for long periods of time are not helpful. The most useful fossils represent species, like certain trilobites, that existed for only a short time in many different areas on Earth.
Index Fossils
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