Transcript Fossils
Fossils and Radiometric Dating
Fossils: Evidence of Past Life
Fossil Formation
Fossils: remains or traces of prehistoric life.
Only found in sedimentary rocks.
The type of fossil that is formed is
determined by the conditions under which
an organism died and how it was buried.
Fossils: Evidence of Past Life
Fossil Formation
Unaltered Remains
• Some remains of organisms—such as teeth,
bones, and shells—may not have been altered,
or may have changed hardly at all over time.
Fossils: Evidence of Past Life
Fossil Formation
Altered Remains
• remains of an organism that changed over time.
• Types: petrified or turned
to stone, molds, casts,
Carbonization, or Amber
Fossils: Evidence of Past Life
Fossil Formation
Indirect Evidence
• Trace fossils are indirect evidence of prehistoric
life. Like animal tracks, worm burroughs and
gastroliths.
Conditions Favoring Preservation
• Two conditions important for preservation: rapid
burial and the possession of hard parts.
In the late 18th century an English engineer named William
Smith found that fossil weren’t just randomly distributed
throughout rock layers, but that each layer contained specific
fossils that didn’t occur in layers above and below them. With
Smith’s observation scientists came up with one of the most
important principles in historical geology.
Fossils: Evidence of Past Life
Fossils and Correlation
fossil succession: fossils succeed one
another in a certain order. Any time period
can be recognized by its fossils.
Index fossils: widespread geographically,
are limited to a short span of geologic time,
and occur in large numbers.
Overlapping Ranges of Fossils
Fossils can also be used to interpret and describe
ancient environments. Scientists can tell if there was a
shallow sea, or the temperature of the water based on
the organisms that were living there. While fossils are
a good way to correlate or link existing rock
formations around a region or around the world there
is only one reliable way to get numerical dates of the
past, that’s using radioactivity.
Dating with Radioactivity
Radioactivity
Radioactivity: the spontaneous decay of
unstable atomic nuclei.
Common Types of Radioactive Decay
Dating with Radioactivity
Half-Life
A half-life is the amount of time necessary
for one-half of the nuclei in a sample to
decay to a stable isotope.
Dating with Radioactivity
Radiometric Dating
radioactive isotopes decay at a constant
rate since their formation
Radiometric dating: calculating the
absolute ages of rocks and minerals that
contain radioactive isotopes.
Radiometric dating uses radioactive
elements in minerals of rocks.
Dating with Radioactivity
Radiometric Dating
As a radioactive isotope decays, atoms of
the daughter product are formed and
accumulate.
Let’s take Uranium for example. When magma cools
and uranium exists in this magma once the rock
solidifies the uranium starts to decay. As the uranium
decays, atoms of the daughter product are formed, and
measurable amounts
of lead eventually accumulate.
Formation
of rock
*Uranium-238 has
a half live of 4.5
billion years.
Uranium-238
Lead-206
4.5 by
9 by 13.5 by 18 by 22.5 by
Other radioactive elements are also used to date rocks. Uranium-238,
235, Thorium-232, Rubidium-87, Potassium-40 are also used. An
accurate radiometric date can be obtained only if the mineral remained in
a closed system during the entire period since its formation.
Dating with Radioactivity
Dating with Carbon-14
Radiocarbon dating: determining age by
comparing the amount of carbon-14 to the
amount of carbon-12.
After death, the amount of carbon-14
gradually decreases. By comparing the ratio
of carbon-14 to carbon-12, radiocarbon
dates can be determined.
Since carbon-14 has a half-life of 5730 years, geologic events
up to about 75,000 years ago can be dated using radiocarbon
dating.
Radiocarbon dating: determining age by
comparing the amount of carbon-14 to the
amount of carbon-12.
Radiometric dating methods have produced thousands
of dates for events in Earth’s history. Rocks formed
on Earth have been dated to be as much as 4 billion
years old. Meteorites have been dated at 4.6 billion
years old.
Using Radiometric Methods to
Help Date Sedimentary Rocks
Radiometric dating has supported scientists like
Hutton and Darwin who inferred that geologic time
must be immense. Modern dating methods have
proved that there has been enough time for the
processes we observe to have accomplished
tremendous tasks.