Transcript Evolution

Evolution
Charles Darwin
• Was a British Naturalist
(a person who studies
the natural world).
• He came up with theory
of Evolution by Natural
Selection while on an
observation trip aboard
the HMS Beagle.
The Beagle’s Journey
• Visited South America
and the Galapagos
Islands (among other
places) (1835)
• Darwin saw many plants
and animals on the
Galapagos Islands that
were similar to ones
found in South America,
but not the same
The Galapagos Islands
Darwin’s Observations
Turn and talk to your group. What observations
can you make about this Iguana found on the
mainland of South America?
Darwin’s Observations
Mainland:
– Iguana’s with
small claws to
climb trees
– Iguana’s green in
color to blend in
with leaves
– Iguana’s don’t
have webbed feet
Darwin’s Observations
Now, turn and talk to your group again. What
observations can you make about this Iguana
found on the Galapagos Islands? How does it
compare to the South American Iguana?
Darwin’s Observations
Galapagos:
– Iguana's with
large claws to
grip rocks
– Iguana’s gray in
color to blend in
with rocks
– Iguana’s have
partially webbed
feet
Why the difference?
• Based on Darwin’s observations, he
theorized that a small number of
different plant and animal species came
to the Galapagos Islands from the
mainland (South America).
• They started reproducing and
eventually their offspring became
different from their mainland relatives.
Darwin’s Hypothesis
• On his journey home, thought
about his observations
• Darwin’s Hypothesis-separate
new species may have come
from one original ancestor
Darwin’s Theory of Evolution
• Darwin thought that the species
gradually changed over many
generations and became better
adapted to the new conditions.
– Species-a group of similar organisms
that can mate with each other and
produce fertile offspring
– Evolution-the gradual change in a
species over time
What is the difference between a
theory and a law?
• A theory is a scientific explanation of an
observation. Unlike laws, theories
actually explain why things are the way
they are.
• A scientific law is a description of an
observation. Newton’s Laws of motion
are good examples. Those laws
describe forces in physics, but they do
not explain why they are that way.
Selection
• Natural Selection- process by which
individuals that are better adapted to
their environment are more likely to
survive and reproduce than other
members of the same species.
“Survival of the Fittest”
• Artificial Selection- humans decide
which traits in a species are desirable
and breed individuals with those traits
(aka Selective Breeding)
Evolution by Natural Selection
• Over a long period of time, natural
selection can lead to evolution. Helpful
traits are passed down from parents to
offspring while unfavorable traits are not.
• Over many generations, the species can
change to better suit their environment.
Factors that affect Natural
Selection
1. Variation
2. Overproduction
3. Competition
The 3 Factors in Natural Selection
1. Variations-differences between
individuals of the same species.
Variations can be passed down from
parents to offspring. For example, some
newly hatched turtles can swim faster
than other turtles. These faster turtles
will survive to pass their traits on to
offspring who will also be fast.
The 3 Factors in Natural Selection
Some variations allow members of a
species to survive and reproduce better
than others.
The 3 Factors in Natural Selection
2. Overproduction-organisms produce
more offspring than can survive. There
are not enough resources for all to
survive so only those that have traits
best suited for survival will live to
reproduce. Their offspring will inherit
those traits.
The 3 Factors in Natural Selection
3. Competition-organisms of the same
species must compete for resources. For
example, some might not find enough to
eat. Those that are successful in
competition will live reproduce and pass
their traits to their offspring.
In Summary
• Some variations make individuals better
adapted to their environment so when
they reproduce, their offspring may
inherit those traits.
• The offspring will be better suited for the
environment and continue to pass the
traits on.
• After many generations, more members
of the species may have the helpful trait.
In effect, the environment has “selected”
organisms with helpful traits to be the
parents of the next generation.
Evidence of Evolution
•
•
•
•
Fossil Record
DNA
Homologous Body Structures
Similarities in Early
Development
• Vestigial Organs
DNA
• Organisms that have close
relatives have similar DNA
– The more similar the DNA, the
more closely related the species
are
• Scientists have even found ways to
get DNA from some fossils
Homologous Body Structures
• Homologous structures-similar
structures that are inherited from a
common ancestor
• When organisms have homologous
structures, it means they evolved from a
common relative
• Analogous structures-similar structures
that evolved separately, not from a
common ancestor.
A
B
A shows that that sharks and lizards have a common
ancestor who had limbs like they have now.
B shows that even thought the octopus has a similar kind
of limb as sharks and lizards, it is an analogous structure
since the octopus doesn’t share a common ancestor with
Limb=arm or leg
the shark and lizard.
Tetrapod=an organism with 4 limbs
Similarities in Early Development
• Scientists look at early
development of different organisms
to see if they are similar
Vestigial Organs
• A body part that doesn’t seem to have
any function at this time
– Ex-appendix, tailbone and wisdom teeth in
humans, pelvic bone in whales, wings on
ostrich and emus
What does it all mean?
• Scientists have combined evidence from
fossils, DNA, similar structures, etc to
determine evolutionary relationships among
species
• Branching Tree- a diagram that shows how
scientists think different groups of
organisms are related
One Last Thing…
The Evolution of Homer
http://youtu.be/faRlFsYmkeY