Geological time — 1. Absolute age dating — 3.
Geological time scale — 4. Geological maps. It may surprise you to learn that geologists were able to determine much of the history of the Earth and its life without knowing anything about the actual ages of the rocks that they studied.
Through use of absolute age dating techniques which were developed during the 20th century; see Section 2they were able to later assign dates in years before the preset to important events in Earth's history. But, before that, they relied upon a different approach to first determine the sequence of important events in Earth's past: relative age dating.
Relative Dating
Very simply, relative age dating has to do with determining whether one geological or paleontological event happened before or after a second dating. For example:. Relative age dating has to do with determining the temporal ordering of events in Earth's past.
Principles employ a handful of simple principles in relative age dating; two of the most important of these are are the principles of superposition and cross-cutting relationships. A third key principle-- faunal succession- -is reviewed in Section 3. Just as uniformitarianism is the what is radioactive dating used for principles assumption of geology, the science's most fundamental principle is superposition, developed by Danish anatomist Nicholas Steno in the 17th century.
Portrait of Nicholas Steno public domain; Wikimedia Commons. The principle of superposition is simple, intuitive, and is the basis for relative age dating.
Fossils and relative dating
It states that rocks positioned below other rocks are older than the rocks above. The rocks near the bottom of relative waterfall were deposited first and the rocks above are subsequently younger and younger. Image by Jonathan R. Superposition is observed not only in rocks, but also in our daily lives.
Consider the trash in your kitchen relative can. The trash at the bottom was thrown out earlier than the trash that lies above it; the trash at principles bottom is therefore older and likely smellier!
Or, think about a stack of old magazines or newspapers that might be sitting in your home or garage: most likely, the newspapers at the bottom of the pile have dates on them that are older than the newspapers at the dating of the pile. Use superposition to determine which is older: the road or the lava flow? How do you know?
The principle of cross-cutting relationships states that a rock unit or other geological feature, such as a fault that is cut by another rock unit or feature must be older than the rock unit or feature that does the cutting. Imagine cutting a slice of bread from a whole loaf.
Because of cross-cutting relationships, the cut that divides the slice from the rest of the loaf is younger than the loaf itself the loaf had to exist before it could be cut. When investigating rocks in the field, geologists commonly observe features such as igneous intrusions or faults that cut through other rocks.
Activity idea
Because these features are the ones doing the cutting, we know that they are younger than the rocks relative they cut into. Have a look at the photographs below, which show the curb of a road in a neighborhood in Hollister, California. You can see that the curb is offset: the bottom half does not line up with the top half. As it turns out, the famous San Andreas fault runs below the curb at this location, which has caused the curb to be broken and displaced.
We know that the curb was originally straight when it was first constructed. The fault cut the curb and is thus younger than the curb itself.
A curb in Hollister, California that is offset by the San Andreas fault. The cartoon below shows an imaginary sequence of rocks and geological events labeled A-I. Using the principles of superposition dating cross-cutting relationships, can you reconstruct the geological click to see more of this place, at least based upon the information you have available?
An imaginary cross-section, showing a series of rock layers and geological events A-I. A is a fault. B-F are sedimentary rock layers. G and H are both igneous intrusions. Finally, I is an erosional surface. Based on the principles of superposition and cross-cutting relationships, what are the relative ages of these rocks and events? Second, we observe that rock layer H which is an igneous intrusion cuts into rock layers B-F. It is therefore younger than B-F. Third, we observe that the fault A cuts across and displaces rock layers B-F.
Because go here fault does not cut across H, we do not know if it is older or younger than that rock unit.
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Fourth, we see that G, another igneous intrusion, cuts across A-H; it is therefore younger than all of these note that G is not displaced by A, the fault. Finally, we note an erosional surface, I, at the top of the sequence and immediately below the corn field that cuts both A and G. I is therefore younger than both A and G. Putting this all together, we can determine the relative ages of these rock layers and geological events:. Given the information available, we cannot resolve whether H is older than A relative, vice versa. This problem could be resolved, however, if we were to observe A cutting across H i.
What geological principle states that rocks at the bottom of a sequence are older than the rocks above? What dating approach is used to evaluate the ordering of past geological events? Think about the principle relative cross-cutting relationships.
If a fault cuts across a rock layer, is the fault older or younger than the rock layer? What dating approach is used to determine the age of a geological sample in years before the present date?
Chapter contents: Geological time — 1. For example: Did rock dating A form before or after rock layer B? Did this web page live before or after the dinosaurs? Principle of superposition Just as uniformitarianism is the key underlying assumption of geology, the science's most fundamental principle is superposition, developed by Danish anatomist Nicholas Steno in the 17th century.
Principles of cross-cutting relationships The principle of cross-cutting relationships states that a rock unit or other geological feature, such as a fault that is cut by another principles unit or feature must be older than the rock unit or feature that does the cutting. Let's work through the imaginary example above. Question What geological principle states that rocks at the bottom of a principles are older than the relative above?
Answer Principle of superposition. Question What dating approach is used to evaluate the ordering dating past geological events? Answer Relative age dating. Question Think about the principle of cross-cutting relationships. Answer Younger. Question What dating approach is used to determine the age of a geological sample in years before the present date? Answer Absolute age dating. Search Submit Clear.
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