Transcript Speciation

SPECIATION
Ch. 16-3 pp. 326-330
Forming a new species

Speciation: forming a new species
Forming a new species
Speciation: forming a new species
 Species: a group of organisms that can
mate and produce fertile offspring

Forming a new species
Speciation: forming a new species
 Species: a group of organisms that can
mate and produce fertile offspring
1. same number of chromosomes
2. similar morphology (body
structure)

Disruptive Selection
Divergent evolution that most likely results in two new
species
Mechanisms

Allopatric speciation caused
by geographic isolation
(physical separation of
organisms)
Mechanisms Cont.

Sympatric Speciation due to
reproductive isolation (barriers to
successful breeding)
Mechanisms Cont.

Sympatric Speciation due to
reproductive isolation (barriers to
successful breeding)
 Prezygotic:
before fertilization (i.e
breeding times or home range)
Mechanisms Cont.

Sympatric Speciation due to
reproductive isolation (barriers to
successful breeding)
 Prezygotic:
before fertilization (i.e
breeding times or home range)
 Postzygotic: after fertilizationinfertile offspring (chromosome #
doesn’t add up)
Pre or Postzygotic?
 offspring
die young when two species of
salamanders mate – they do not make it to maturity
Pre or Postzygotic?
 Two
different species of birds have different
mating calls so they cannot recognize each other as
mates
Pre or Postzygotic?
 garter
snakes that live in water and one on land
cannot mate although they live in the same
geographic area
Pre or Postzygotic?
 mules
are produced by mating a horse and a
donkey, but mules are sterile and cannot breed
Pre or Postzygotic?
 if
gametes of red and purple sea urchins do not
fuse, there will be no zygote produced
Pre or Postzygotic?
 although
some strains of cultivated rice can be
cross-mated, after a few generations, sterile
offspring are created
Rates of Speciation


Gradualism: slow divergence (small changes)
Punctuated equilibrium: sudden shift in form
(irregular)
Example (don’t need to write)

1. Stasis: A population of mollusks is experiencing
stasis, living, dying, and getting fossilized every few
hundred thousand years. Little observable evolution
seems to be occurring judging from these fossils.

Isolation: A drop in sea level forms a lake and
isolates a small number of mollusks from the rest of
the population.

Strong selection and rapid change: The small, isolated population
experiences strong selection and rapid change because of the novel
environment and small population size: The environment in the newly formed
lake exerts new selection pressures on the isolated mollusks. Also, their small
population size means that genetic drift influences their evolution. The
isolated population undergoes rapid evolutionary change.

No preservation: No fossils representing
transitional forms are preserved because of their
relatively small population size, the rapid pace of
change, and their isolated location.

Reintroduction: Sea levels rise, reuniting the
isolated mollusks with their sister lineage

Expansion and stasis: The isolated population
expands into its past range. Larger population size
and a stable environment make evolutionary
change less likely. The formerly isolated branch of
the mollusk lineage may out-compete their ancestral
population, causing it to go extinct.

Evolution appears to happen in sharp jumps
associated with speciation events
Speciation tree map

Class work
 Speciation

Comic
Homework
 Speciation
Vocabulary Chart
 Speciation
 Allopatric
speciation
 Sympatric speciation
 Gradualism
 Punctuated equilibrium