1. Origins of Biological Diversity Chapter 19

3. The Fossil Record Provides Evidence to Life’s History
Fossils form when organisms are buried in sedimentary rock or other material and remains are preserved.
Petrified (turned to stone)
Impressions (footprints, dung etc.)
Entire organisms preserved in ice (wooly mammoth)
Amber (tree sap preserves insects)

4. Geologic Time Scale
Organizes Earth’s history into 4 distinct Eras:
Precambrian
2. Paleozoic
3. Mesozoic
4. Cenozoic
Earliest
4.6 bya to 600mya
Most Recent
Boundaries between eras are characterized by major changes in the environment & extinctions

5. Geologic Time Scale

6. Scientists can only study fossils if they know their age!
Dating Fossils
Scientists can only study fossils if they know their age!
By using the layered “rock strata” scientists can determine the relative age: reflects the order in which groups of species existed compared to each other.
Youngest
What about absolute age?
Oldest

7. Radiometric Dating
Method used to determine the absolute age of rocks and fossils is based on the amount of radioactive isotopes in the object.
An isotope’s half-life is the time (years) it takes for 50% (half) of an original sample to decay.
Isotope Half-Lives are unaffected by temp., pressure, etc.
Uranium-238 (half-life = 4.5 billion yrs.)
Carbon-14 (5,730 yrs.)
Scientific American – Radiocarbon Dating

8. Mass Extinctions
Episodes of great species loss are known as mass extinctions and are evident in fossil records.
Example-Dinosaurs
(65 million years ago)
End of the Cretaceous Period: About 65 Million Years ago., resulting in the loss of the dinosaurs as well as nearly 50% of all the world's species.

10. Rate of Evolution
Gradualism - involves a slow, steady change in a particular line of descent.
The fossil evidence supports gradualism

11. Rate of Evolution
Punctuated equilibrium - is the term used to describe long periods of no change that is interrupted by brief periods of more rapid change.
The fossil record supports.
Most new species are produced during periods of rapid change.

12. Convergent Evolution
When evolution produces similar structures and characteristics in distantly-related organisms.
Similar environmental pressures promotes convergent evolution
Darwin’s observations of the large flightless birds.

13. Convergent Evolution
For example, mammals that feed on ants and termites evolved five times in five different regions as shown in the figure below.
They all developed the powerful front claws, long hairless snout, and tongue covered with sticky saliva that are necessary adaptations for hunting and eating insects.

14. Convergent Evolution

15. Convergent Evolution can lead to Analogous Structures
Analogous structures – structures that are similar amongst different species but have different evolutionary origins.

16. Divergent Evolution
-Accumulation of differences amongst groups that can eventually lead to separate species
-Often the result of the same species diffusing into isolated areas. This can restrict gene flow and lead to differences in populations and eventually different species.

17. Divergent Evolution