1. Evolution

2. Evolution Definition: Change in a population of organisms over time.
Modern Humans
Evolution
Definition: Change in a population of organisms over time.
Human evolution illustrated on a cladogram

3. Theories of Evolution
Jean-Baptiste Lamarck – 1809 published his theory of evolution
Mechanism of Evolution = Inheritance of Acquired Characteristics

4. Theories of Evolution
Charles Darwin – 1859 published his theory of evolution in the major work, On the Origin of Species
Mechanism of Evolution = Natural Selection

5. The Original Manuscript
Most important book on biology ever published!

6. Lamarck’s Ideas Organisms change over time
Organisms are adapted to their environment
They are continually changing and acquiring features more suitable for their environment.
Continued 

7. Larmarck’s Ideas
During an organism's lifetime, there is selective use or disuse of its organs and traits. If a trait isn’t usedit’s lost.

8. Larmarck’s Ideas
Traits that are used are passed on to their offspring. Over time, this process leads to the change in a species. (hence the term: inheritance of acquired characteristics)

10. Darwin’s Ideas on Evolution
Variation – organisms show variation in each of their traits: height, colors of eyes/hair/skin, resistance to disease, etc.
Natural selection – Organisms better suited to their environment survive and reproduce (also known as survival of the fittest).
Fitness – ability to survive and leave offspring. No offspring = No fitness.

11. Worksheets Natural Selection and fur color
Evolution: comparison of Lamarck (acquired characteristics) and Darwin’s (natural selection) ideas on evolution.

12. Darwin’s ideas on Evolution
In the early 1800’s, when Darwin was born, people thought the Earth was a few thousand years old.
But by the 1820’s, scientists hypothesized the Earth was millions of years old.
5000 years
5,000,000 years

13. Darwin’s ideas on Evolution
17-11 MYA
5 MYA-present
An ancient Earth was necessary to support Darwin’s ideas on evolution—populations change over (long, long periods of) time.
35,000,000YA
12-6 MYA
55,000,000YA

14. Microevolution according to Darwin’s Ideas on Natural Selection
Natural Variation in population of bacteria
Microevolution according to Darwin’s Ideas on Natural Selection

15. Macroevolution according to Darwin’s Ideas on Natural Selection: Speciation* –formation of new species

16. Genes and Variation Most phenotypes (traits) are polygenic.
A graph of these traits often shows a bell curve.

17. Stabilizing Selection
If individuals near the center of the bell curve have higher fitness (= leave a greater amount of fertile offspring) then stabilizing selection occurs.

18. Directional Selection
If individuals at one end of the bell curve have higher fitness then directional selection occurs.

19. Disruptive Selection
If individuals at both ends of the curve have higher fitness than those in the middle then disruptive selection occurs.

20. Genetic Drift
If a small population is isolated from others of the same species, it is possible that just be “chance” one allele may become more common in a population.

21. I’ I’m an Eastern Gray Squirrel
Genetic Drift
I’ I’m an Eastern Gray Squirrel
For example: The Bronx, NY, becomes built up and trees are cut down. Few squirrels are able to survive. However, one section of the Bronx is set aside for the development of the Bronx Zoo. Trees are NOT cut down in this area. By chance, several of the gray squirrels in the area of the zoo have black fur (a variation in fur color). Over time, the allele for black fur becomes common in this population.

22. How do new species form? Example: Galapagos Finches
A small group of a species of finch arrives on one of the Galapagos Islands
These finches do not usually fly across open water—they may have gotten lost or were blown there by the wind.

23. Speciation continued!
Over time these original finches may have ended up on other of the Galapagos Islands through some chance occurrence.
USUALLY the finches do NOT fly from one island to another.

24. Speciation continued!
The Galapagos Islands had different environments.
Some had a low elevation and were dry with little plant material.

25. Speciation continued!
Others had a higher elevation with greater rainfall and many plants.

26. Speciation continued! Directional selection occurs:
One island may have seeds that are large and difficult to open.
Birds with a larger, thicker beak will have the highest survival rate on this island

27. Speciation continued! Directional selection occurs:
Another island may have seeds that are small and easy to open
Birds with a small, thinner beak will have the highest survival rate on this island

28. Speciation continued!
Reproductive Isolation: if the populations remain separate, and their gene pools continue to change, eventually they can no longer mate with each other—they are then TWO NEW SPECIES!!!
On the Galapagos Islands this processes resulted in the evolution of 13 different finch species.

29. Darwin’s Finches

30. Evidence of Evolution
Fossil Record

31. Evidence of Evolution Comparative Anatomy:
Homologous structures = structures that have different mature forms but develop from the same embryonic tissue

32. Fingernails on Seal’s Fin
Evidence of Evolution
Vestigial organ = organ that serves NO useful function in an organism.
Wisdom teeth
Appendix
HUMANS
Fingernails on Seal’s Fin

33. Embryology
NOTE Similarity of embryos of all of these animals

34. Evidence of Evolution Similarities and dissimilarities in DNA code.
Complete worksheet + bar graph.