Title: History of Evolution
1History of Evolution
- James Hutton Charles Lyell
- Hutton - rocks are in layers, which form
very slowly proposed that the Earth is
millions of years old. - Lyell - geological features were formed by
- processes that still occur today.
- mountain building, volcanoes, erosion,
etc.
2Jean-Baptiste Lamarck
- He proposed that by selective use/disuse of
organs, organisms acquired or lost certain traits
during their lifetime. - These traits could then be passed on to their
offspring which, over time, led to change in a
species. -
3Lamarcks Key Ideas
- 1.) Tendency toward perfection.
- He believed that all organisms try to become
perfect by acquiring traits that help them live
more successfully. - Ex In his view, the ancestors of birds had an
urge to fly. Over many generations, they kept
trying to fly, and their wings increased in size
and eventually became good enough to allow flight.
4Lamarcks Key Ideas
- 2.) Use and Disuse
- Organisms can change the size and shape of parts
of their bodies by using them in different ways. - Ex By trying to use their front limbs for
flying, birds eventually were able to change
those limbs into wings. - The reverse is also true, according to Lamarck
5Lamarcks Key Ideas
- 3.) Inheritance of Acquired Traits
- If an animal can change its body during its
lifetime, its offspring will also have these
changes. - If an animal was able to change its body to get a
longer neck (say, by stretching it), its
offspring will also have longer necks. - However, by this reasoning, if you were to chop
off your arm, your children should be born
missing an arm because they should inherit this
trait.
6Evaluating Lamarck
- He was incorrect in many ways.
- He did not know how traits were inherited.
- He did not know that an organisms behavior has
no effect on its inheritable characteristics. - But, he was one of the first to develop a
scientific hypothesis for evolution and realize
that organisms are adapted to their environments.
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8Darwin and Natural Selection
9Who was Darwin?
- Charles Darwin
- Naturalist
- Scientist
- Wanted to be a priest
- Quit medical school to study the Bible and become
a priest, but became a naturalist instead.
10The Voyage
- 1831
- 5 year trip on the HMS Beagle around the world to
study life forms. - Stopped in Brazil, Peru, Ecuador, the Galapagos
Islands, New Zealand, Australia
11His Observations
- Patterns of diversity.
- He saw similar ecosystems with very different
looking animals. - Ex Australia and Argentina have very similar
grasslands, but the animals in each are very
different. - No rabbits in Australia no kangaroos in
Argentina.
12His Book
- On the Origin of Species
- 1859
- Summarized the results of his voyage and later
studies. - Proposed a mechanism for evolution called natural
selection - Presented evidence demonstrating that evolution
has been taking place for millions of years, and
continues today in all living things.
13Controversy
- His book caused an immediate sensation (think
The Da Vinci Code of its time.) - Many people argued about his statements.
- Some people thought he was brilliant others
thought he was an idiot/heretic. - But, WHAT did Darwin actually say?
14Darwins Big Idea
15What is Natural Selection?
- It is a mechanism for change in populations that
occurs when organisms with traits that allow them
to survive better reproduce and pass those traits
to their offspring. - What happens to those organisms who dont have
the favorable traits? - They are less likely to survive and reproduce
16Natural Selection Summarized
- 1.) In nature, there is a tendency for organisms
to produce more offspring than can possibly
survive. - Ex Fish
17Natural Selection Summarized
- 2.) In any population, individuals will have
slight differences in their phenotypes. - Ex Fish, zebras, snakes
18Natural Selection Summarized
- 3.) Individuals with traits that make them
more likely to survive in an environment will
survive and pass on those traits to their
offspring. - Fish, zebras and snakes again
- More of these individuals will survive as
compared to those who do not have the helpful
traits.
19Natural Selection Summarized
- 4.) Eventually, the offspring of the survivors
will make up a larger part of the population. - Depending on environmental factors, after many
generations, the population may look completely
different from what it originally was.
20Evolution by Natural Selection
- Struggle for existence
- Members of each species compete for resources.
- Faster or more skilled predators get more food
faster prey or those with good camouflage get
away and reproduce. - Adaptations allow organisms to survive.
21Evolution by Natural Selection
- Survival of the fittest
- Those organisms best suited to their environment
will survive those who arent will die. - Descent with Modification
- Species today look different from their
ancestors. - Each species today has descended, with changes,
from other species over time. - All living things are related to one another.
22Adaptations
- Any trait that improves the chances of survival
and reproduction is called an adaptation. - Species develop adaptations through natural
selection.
23Types of Adaptations
- Structural adaptations
- Physical features that help in survival.
- Ex thorns of a rose, camouflage, mimicry
- Physiological Adaptations
- Changes in an organism s metabolism
- Ex antibiotic-resistant bacteria pesticide-
resistant insects
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26Evidence for Evolution
- Fossil Record
- Fossils were known (even in Darwins time) to be
the remains of ancient life. - Also, it was known that different rock layers
formed at different times in Earths history. - Fossils that are in the different layers are of
different ages the ones in deeper layers existed
before the ones in more shallow layers.
27Evidence for Evolution
- Geographic distribution of living species
- Darwins travels
- Different animals on different continents
descended from different ancestors. - However, because animals on each continent were
living in similar ecosystems and exposed to
similar challenges and pressures, they developed
similar body structures.
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29Evidence for Evolution
- Homologous body structures
- Limbs of some organisms, for example, have
different forms and functions, but are made of
the same basic bones. - The same bones in our arms are in the wings of a
bird.
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32Evidence for Evolution
- Compared Embryology
- Embryology is the study of embryos, the early
stages of animal development. - Early in development, the embryos of related
animals are hard to tell apart.
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35Genes and Variations
- How do we get variations in the gene pool?
36Sources of Genetic Variation
- 1.) Mutations
- 2.) Gene shuffling
- Due to sexual reproduction
- Remember in meiosis, chromosomes/genes separate
(Principle of Segregation) - Crossing over also leads to variation.
- Think about a deck of cards
37Traits
- The number of phenotypes for a given trait
depends on how many genes control the trait. - Single-gene trait vs. Polygenic trait.
- Single gene few variations
- Polygenic trait many variations
38Natural Selection and Traits
- N.S. on single gene traits can lead to changes in
allele frequencies, which leads to evolution. - Ex Effect of color mutations on lizard
survival.
39Natural Selection on Polygenic Traits
- When traits are controlled by more than one gene,
the effects of natural selection are more
complex. - Fitness is the key!
40Selection
- Natural selection can effect the distributions of
phenotypes in 3 ways - Directional selection
- Stabilizing selection
- Disruptive selection
41Directional selection
- Individuals at one end of a curve are more fit
than other individuals. - This shifts the curve in one direction.
42Stabilizing Selection
- Occurs when individuals near the middle of the
curve are more fit. - The center of the curve stays in the same place,
but the curve becomes narrow.
43Disruptive Selection
- Individuals at the ends of the curve are more fit
than those in the middle. - Creates a double humped curve.
44Genetic Drift
- Natural selection is not the only source of
evolutionary change. - In large populations, probability can be used to
predict genetic outcomes. - In small populations, the laws of probability do
not always work. - Ex coin flip
45How Does Genetic Drift Happen?
- In small populations, individuals that carry an
allele for a trait may leave more offspring
(descendants) than those who dont have the
allele, just by chance. - Over time, a series of these chance happenings
can cause an allele to be more common.
46Two methods of Genetic Drift
- Founder effect
- Bottleneck effect
47Founder Effect
- A change in the allele frequencies due to
- the migration of a small group of organisms
- to a new area.
- Ex Huntingtons in Venezuela
- Ex Type O blood in Native tribes in South
America -
- Ex The Amish and Microcephaly in
Pennsylvania
48Founder Effect
49Bottleneck effect
- Change in allele frequencies due to a
catastrophic event (natural disaster, disease,
habitat destruction, etc.)
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52Speciation
- The evolution of a new species.
- Geographical isolation can lead to this.
53 2 Ideas on how evolution occurs
- Gradualism
- Evolution occurs SLOWLY over a long time.
- Adaptations will increase in number steadily over
time. - Darwins idea.
- Punctuated Equilibrium
- Speciation occurs in rapid bursts followed by
periods of no change.
54How do scientists determine the age of fossils?
- Radioisotope dating
- Isotopes are atoms with different numbers of
neutrons Carbon 12, Carbon 13, Carbon 14. - Carbon 14 is the normal isotope used for dating
fossils. - By measuring the half-life of the isotope,
scientists can determine the age.
55Major Ages in the History of the Earth
56Plants respond to the environment, too.
- Plants do not have nervous systems, but they do
have the ability to respond to the environment.
57Ways plants adapt
- Geotropism
- Response of seedlings to the force of gravity.
- Causes roots to grow down and stems to grow up.
- Phototropism
- Ability of plant to respond to light.
- Thigmotropism
- Ability of plant to respond to touch.
- Climbing plants use this to find their way
up/around an object.
58Geotropism
59Phototropism
60Thigmotropism
61Plant Hormones
- Auxins
- Responsible for regulating phototropism by
causing cells to get longer. - Gibberellins
- Cause plant to grow taller.
- Increase rate of bud formation and seed
germination - Abscisic acid
- Inhibit plant growth during times of stress.
62Plant Adaptations
- Seeds of some plants will go dormant in
unfavorable conditions. - Roots and stems are modified into storage organs.
- Conifers have needles instead of leaves, which
prevent evaporation of water. - Conifers also have thick bark which insulates
them in the winter. - Flowers can be pollinated in multiple ways wind,
animals, birds, insects.