1. 16-3 Process of Speciation
DONKEY
HORSE
MULE

2. What is a species?
Species: group of organisms that can interbreed and produce fertile offspring x
Horse and Eagle DNA are too different to create viable offspring
Hippogriff *not real

3. Same species?
If organisms can produce fertile offspring = same species
If organisms cannot produce fertile offspring = different species
Can a cat and dog interbreed and produce fertile offspring?
Can a lion and a tiger interbreed and produce fertile offspring?

4. What is a species? X HORSE DONKEY Are they the same species?
What do you need to know?
MULE

5. Speciation Speciation: the formation of new species.
Natural selection and sex selection, along with random/chance events can change the relative frequencies of alleles in a population and lead to speciation.

6. Categories of Speciation
Allopatric
Sympatric
Copyright Pearson Prentice Hall

7. Factors involved in speciation
The gene pools of two populations must become separated for them to become “new” species
As new species evolve, populations become reproductively isolated from each other
Reproductive isolation: when the members of two populations cannot interbreed and produce fertile offspring
The basics of reproductive isolation video

8. Isolating mechanisms
Reproductive isolation can develop in a variety of ways, including:
behavioral isolation
geographic isolation
temporal isolation

9. Behavioral Isolation
When two populations are capable of interbreeding but have differences in courtship rituals or other reproductive strategies that involve behavior.
Albatross courtship ritual

10. Behavioral Isolation
EXAMPLE: eastern and western meadowlarks are very similar birds and their habitats overlap. However, these two species will not mate, partly because they use different songs to attract mates.

11. Geographic Isolation 
Geographic isolation occurs when two populations are separated by geographic barriers such as rivers or mountains.
Allopatric speciation example

12. Geographic isolation
Geographic barriers do not guarantee the formation of new species.
If two formerly separated populations can still interbreed and produce fertile offspring, they remain a single species.

13. Geographic Isolation
Potential geographic barriers may separate certain types of organisms but not others.
Example: a large river will keep squirrels and other small rodents apart, but it does not necessarily isolate bird populations

14. Temporal Isolation
Temporal isolation occurs when two or more species share the same habitats, but reproduce at different times.
Example: 3 similar species of orchid all live in the same rainforest. They each release pollen only on a single day. Because they release pollen on different days, they cannot pollinate each other.

15. Group Activity
Place the 14 example scenarios into one of three catagories:
1) Behavioral Isolation
2) Geographic Isolation
3) Temporal Isolation

16. What does this graph tell us?
During times of drought
What does this graph tell us?
Individuals with large beaks survive better during times of drought (when food is scarce).

17. The Grants provided evidence of the process of evolution.
Beak size can be changed by natural selection.
Natural Selection will favor ???

18. Speciation in Darwin's Finches
Speciation in the Galápagos finches occurred by:
founding of a new population
geographic isolation
changes in new population's gene pool
reproductive isolation
competition

19. Copyright Pearson Prentice Hall
CH. 16 Quiz
Copyright Pearson Prentice Hall

20. Which of the following statements is TRUE?
16-1
Which of the following statements is TRUE?
The relative frequency of an allele is not related to whether the allele is dominant or recessive.
Mutations always affect an organism's phenotype.
Crossing over decreases the number of different genotypes that appear in an offspring.
Evolution does not affect the frequency of genes in a gene pool.

21. Most inheritable differences are a result of gene shuffling.
16-1
Most inheritable differences are a result of
gene shuffling.
frequency of alleles.
mutations.
DNA replication.

22. The main sources of inherited variation are
16-1
The main sources of inherited variation are
gene shuffling and mutations.
gene pools and frequencies.
single-gene and polygenic traits.
genotypes and phenotypes.

23. A widow's peak in humans is an example of a(an) invariable trait.
16-1
A widow's peak in humans is an example of a(an)
invariable trait.
single-gene trait.
polygenic trait.
mutation.

24. randomly inherited trait. strongly selected trait.
16-1
A graph of the length of the little finger on the left hand versus the number of people having fingers of a particular length is a bell-shaped curve. This indicates that finger length is a
single-gene trait.
polygenic trait.
randomly inherited trait.
strongly selected trait.

25. 16-2

26. stabilizing selection disruptive selection directional selection
16-2
Which of the following patterns of natural selection on polygenic traits favors both extremes of a bell curve?
stabilizing selection
disruptive selection
directional selection
genetic drift

27. Which of the following events could lead to genetic drift?
16-2
Which of the following events could lead to genetic drift?
A few new individuals move into a large, diverse population.
A few individuals from a large, diverse population leave and establish a new population.
Two large populations come back together after a few years of separation.
The mutation rate in a large population increases due to pollution.

28. 16-2
The situation in which allele frequencies remain constant in a population is known as
genetic drift.
the founder effect.
genetic equilibrium.
natural selection.

29. movement in or out of the population random mating natural selection
16-2
Which of the following conditions is required to maintain genetic equilibrium in a population?
movement in or out of the population
random mating
natural selection
small population

30. all five of the Hardy-Weinberg conditions are met.
16-2
According to the Hardy-Weinberg principle, no evolution will take place if
all five of the Hardy-Weinberg conditions are met.
any one of the Hardy-Weinberg conditions is met.
at least three of the Hardy-Weinberg conditions are met.
none of the Hardy-Weinberg conditions are met.

31. reproductive isolation.
16-3
When two species do not reproduce because of differences in mating rituals, the situation is referred to as
temporal isolation.
geographic isolation.
behavioral isolation.
reproductive isolation.

32. different food sources.
16-3
The most important factor involved in the evolution of the Kaibab and Abert squirrels of the American Southwest appears to be
temporal isolation.
geographic isolation.
behavioral isolation.
different food sources.

33. natural selection did not occur in the finches
16-3
One finding of the Grants' research on generations of Galápagos finches was that
natural selection did not occur in the finches
natural selection can take place often and very rapidly.
beak size had no effect on survival rate of the finches.
natural selection was slow and permanent.

34. no changes in the gene pool. separation of populations.
16-3
All of the following played a role in speciation of Galápagos finches EXCEPT
no changes in the gene pool.
separation of populations.
reproductive isolation.
natural selection.

35. 16-3
Beak size in the various groups of Galápagos finches changed primarily in response to
climate.
mating preference.
food source.
availability of water.

36. END OF SECTION