Define the following terms at the top of your notes for Ch
21!
Define the following terms at the top of your notes for Ch
21!
EraEonPeriodEpoch
CorrelationRadiometric datingRadioactive decayIndex fossils
Fossils and the Rock Record
Fossils and the Rock Record
Chapter 21
The Geologic Time Scale – Ch 21.1The Geologic Time Scale – Ch 21.1
Geologists study characteristics of rocks and the fossils within them to:
Interpret the environment the rocks were deposited inReconstruct Earth’s historyPossibly predict events or conditions in the future
The Rock RecordThe Rock Record
Geologists have divided the history of Earth into time units based upon the fossils contained in them
Geologic Time Scale see p. 554
Geologic TimeGeologic Time The oldest division of time on the scale is at the
bottom, just as it would be in a rock sample in nature, and the youngest division of time is at the top
The time scale is divided into units:Eons longest unit of time, measured in billons of yrsEras measured in hundreds of millions of yrsPeriods measured in tens of millions of yrsEpochs measured in millions of yrs
Geologic TimeGeologic Time Eon
Longest unit of time, measured in billions of years Era
Defined by the differences in life-forms found in rocksNamed based on the relative ages of these life-forms
– “Paleo” means old (Paleozoic Era)– “Meso” means middle (Mesozoic Era)– “Ceno” means recent (Cenozoic Era)
Geologic TimeGeologic Time Period
Defined by the life-forms that were abundant or became extinct during the time in which the specific rocks were depositedSome were named for the geographic region in which the rocks of that age were first observed, studied, and described
– The Jurassic Period was named for the rocks that were described in the Jura Mountains in Europe
Geologic TimeGeologic Time
EpochsThe fossil record of the Cenozoic Era is relatively complete since there has been less time for weathering and erosion to remove evidence of this part of Earth’s historyThis makes it easier to use different groups of organisms to distinguish the various epochs
Relative Dating – Ch 21.2Relative Dating – Ch 21.2 Several theories came about of how old the
Earth was. The major one was: Uniformitarianism states that processes
occurring today have been occurring since Earth formed
Mountain buildingErosionEarthquakesSea-level changes
Principles for determining Relative Age
Principles for determining Relative Age
Places the ages of rocks and the events that formed them in order, but without exact dates
Done by comparing one event or rock layer to another
Geologists use several ideas to help them figure out the order in which these events happen
Principles for determining Relative Age
Principles for determining Relative Age
Original horizontalityStates sedimentary rocks are deposited in horizontal layers
SuperpositionStates that an undisturbed rock sequence has oldest rocks at the bottom and youngest rocks at the top
Principles for determining Relative Age
Principles for determining Relative Age
Cross-cutting relationships States that an intrusion or fault is younger than the rock it cuts across
Inclusions where overlying rock layers contain particles of rock material from the layer beneath it
The older bottom layer is eroded and becomes incorporated into the newly deposited top layer
Other means of determining Relative Age
Other means of determining Relative Age
Earth is constantly changing as a result of processes, so it is difficult to find an undisturbed sequence of rock layers
Other features are used to help figure out the order in which they showed up and what might have happened there
Gaps in the Rock RecordGaps in the Rock Record
Because of changes from erosion and movement of rocks from geologic processes
Unconformities buried erosional surface that results in a gap in the rock record
Putting the Pieces together
Putting the Pieces together
Geologists look at all this information from one place, but it doesn’t necessarily tell them a lot
Geologists compare similar rocks in different areas to figure out if they are about the same age
This is called correlationThey look for distinctive or unique fossils and mineral features in rock layers
Absolute Dating of Rocks – Ch 21.3
Absolute Dating of Rocks – Ch 21.3
Determines the actual age of a rock using radioactive isotopes
These particles change in a predictable pattern over time, allowing scientists to determine how long the isotopes have been decaying (and therefore the age of the sample from which the isotopes came)
This process is called radiometric datingDetermines the ratio of parent nuclei to daughter nuclei in a given sample of rock or fossil
Other ways to determine age
Other ways to determine age
Tree rings counting the number of annual tree rings in a cross section of the tree
The widths of tree rings are directly related to the climactic conditions during growth periods
Sediments deposited in lakesLight colored sediments during warm seasonsDark colored sediments during cold seasons
Remains – Ch 21.4Remains – Ch 21.4
Fossils contained in the rocks can also help geologists determine the ages of the rocks
Some fossils (index fossils) can be used by geologists to determine the ages of rocks since they are easily recognized, abundant, and widely distributed geographically AND lived during a short period of time
Other fossilsOther fossils Mold
When the original shell parts of an organism within a sedimentary rock are weathered and eroded, minerals can fill in the spaces and make a rock version of the shell of an animal
Trace fossilIndirect evidence providing evidence on how an organism lived, how it moved, or how it obtained food
– Footprints– Burrows
Why study fossils?Why study fossils?
Allows scientists to interpret and describe Earth’s history
Fossils from different geologic time periods describe how organisms have changed through time, ancient environmental conditions, show patterns and cycles that can be used to predict future phenomena
Questions?Questions?
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