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Evolution & Natural Selection
Objectives
How old is the universe? How old is the earth?
What is evolution? How does it differ from natural selection?
Who was Darwin? How does Natural Selection work?
How do humans differ from apes?
Skeleton, organs, culture
Why was Homo erectus so successful as an early hominid?
What happened to Neandertals?
Be able to briefly trace the cultural development of:
tools, fire, clothing, shelter, art
What is so important about the Upper Palaeolithic?
Carl Sagan’s Universe Calendar
24 days = 1 billion years
1 second = 475 years
http://www.youtube.com/watch?v=g2qezQzfgIY
Early Thoeries
• Creationism: biological
similarities and differences
originated at the Creation.
Linnaeus (1707–1778) developed
the first comprehensive and still
influential classification and
taxonomy of plants and animals.
Fossil discoveries during the
18th and 19th centuries raised
doubts about creationism.
Early Theory - Catastrophism
Catastrophism: a
modified version of
creationism that accounts
for the fossil record by
positing divinely authored
worldwide disasters that
wiped out creatures
represented in the fossil
record.
Georges Cuvier
1769 - 1832
Before Darwin
Geologists and paleontologists had
made a compelling case that:
Uniformitarianism: the assumption
that the natural processes operating
in the past are the same as those that
can be observed operating in the
present.
life had been on Earth for a long time.
it had changed over that time
and many species had become
extinct.
Charles Lyell
1797 - 1875
Influences on the Theory
Thomas Malthus published a book in 1797 called Essay on
the Principle of Population in which he warned his fellow
Englishmen that most policies designed to help the poor were
doomed because of the relentless pressure of population
growth. A nation could easily double its population in a few
decades, leading to famine and misery for all.
 Species cannot
reproduce to their full
potential because there is
struggle for existence. In
this struggle for
existence, survival and
reproduction do not come
down to pure chance.
Some traits help produce
more offspring.
Theories of Evolution
Darwin and Wallace, 1850s
Natural selection is the
process by which favorable
heritable traits become more
common in successive
generations of a population of
reproducing organisms, and
unfavorable heritable traits
become less common, due to
differential reproduction of
genotypes.
On the origin of species, 1859
http://www.youtube.com/watch?v
=910dz5sCb1I&feature=related
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Darwin’s Travels
Selective (artificial) Breeding
This
Chihuahua
mix and
Great Dane
show the
wide range
of dog breed
sizes
created
using
artificial
selection.
http://www.dailymotion.com/video/x4yjed_the-story-of-oliver-the-humanzee_animals
Variation is Key!
http://www.youtube.com/watch?v=-C6NkRUbI38
Evolution vs. Natural Selection
Charles Darwin
Evolution & Natural Selection
Charles Robert Darwin
1809 - 1882
Evolution: Is the process of change
in the inherited traits of a population
of organisms from one generation to
the next (processed at the level of
the genes).
Natural Selection: Is the process by
which favorable heritable traits
become more common in successive
generations of a population of
reproducing organisms and
unfavorable heritable traits become
less common, due to differential
reproduction of genotypes.
Principles of Natural Selection
There is variation in traits:
For example; some beetles are
green & some are brown.
There is differential reproduction:
- Environments cannot support unlimited
population growth (Malthus) – Not all
individuals get to reproduce to their full
potential.
There is heredity
- Traits have a genetic basis.
The more advantageous traits allow
more offspring.
If you have variation, differential reproduction, and heredity, you will have evolution
by natural selection.
Mendel’s Experiments
• Austrian monk Gregor Mendel
began a series of experiments
that revealed the basic principle
of genetics in 1856
Studied inheritance of
seven contrasting traits in
pea plants
Discovered that heredity is
determined by discrete
particles or units
Gregor Mendel
1822 - 1884
Double Helix
• Chromosome: a paired length
of DNA, composed of multiple
genes.
Gene: a place (locus) on a
chromosome that determines a
particular trait.
Allele: a variant to a particular
gene.
Gene pairs
• Heterozygous: dissimilar
alleles of a gene in an
offspring.
Homozygous: two
identical alleles of a gene
in an offspring
Dominance produces a
distinction between
genotype (hereditary
makeup) and phenotype
(expressed physical
characteristics)
Forces of evolution
Genetic Drift
Mutation
Genetic Drift
Genetic drift is one of the basic mechanisms of evolution.
There is no direction or selection in genetic drift, it is simply about luck. If
an individual leaves more offspring simply by chance, that is genetic drift.
Genetic drift depends strongly on small population size since the law of
large numbers predicts weak effects of random sampling with large
populations.
By definition, genetic drift has no preferred direction
Mutations
In biology, mutations are changes to the nucleotide sequence of the
genetic material of an organism.
Mutations can be caused by copying errors in the genetic material during
cell division.
Mutations create variation within the gene pool. Less favorable (or
deleterious) mutations can be reduced in frequency in the gene pool by
natural selection, while more favorable (beneficial or advantageous)
mutations may accumulate and result in adaptive evolutionary changes.
What Is Adaptation?
Adaptation: Any change in
the structure or
functioning of an
organism that makes it
better suited to its
environment.
This process leads to
changes in the organisms
and impacts their
environment.
The human species
adapts biologically and
culturally.
What Is Not an Adaptation?
Eye
Lots of things: One example
is vestigial structures. A
vestigial structure is a
feature that was an
adaptation for the
organism’s ancestor, but
that evolved to be nonfunctional because the
organism’s environment
changed.
Another example is Red
Blood; blood is red because
of it’s chemistry, not
because it’s an adaptation
to the color red.
Adaptation Vs. Acclimatization
Adaptation: Anything that helps an organism
survive in its environment which usually occurs
over several generations.
Acclimatization: The short-term process of
adjusting to changes in an environment such
as shivering for temperature regulation or
increasing red blood cell counts to acclimatize
to high altitudes. Usually occurs in one lifetime.
Human Adaptations to High Altitude
Bolivians in the
highlands use
increased
hemoglobin
production, which
carries more
oxygen in the blood
to adapt to the low
levels of oxygen at
high altitudes, while
inhabitants of the
Tibetan plateau use
increased
respiration.
Three High-Altitude
Peoples, Three
Adaptations to Thin Air;
National Geographic
News.
http://news.na
tionalgeographi
c.com/news/20
04/02/0224_04
0225_evolution
.html
Sickle cell anemia, malaria & adaptation
People who have sickle cell anemia,
a serious hereditary blood disease,
are more likely to survive malaria, a
disease which kills some 1.2 million
people every year. What is puzzling
is why sickle cell anemia is so
prevalent in some African
populations.
Red blood cells, containing some
abnormal hemoglobin, tend to sickle
when they are infected by the
malaria parasite. Those infected
cells flow through the spleen, which
culls them out because of their
sickle shape -- and the parasite is
eliminated along with them.
http://www.pbs.org/wgbh/evolution/libra
ry/01/2/l_012_02.html
Why we don’t all look alike
Bergmann’s Rule: Within a species
the body mass increases with
latitude and colder climate (i.e.,
larger sub-species are found at
higher altitudes or colder climates.
Allen’s Rule: In warm blooded
species, the relative size of the
limbs of the body decreases with
decreases of mean temperature.
Gloger’s Rule: within a species more heavily pigmented forms
tend to be found in more humid environments (e.g., near the
equator: most studied in birds). Caveats: Tibetans (high UV
radiation); Inuits (diet high in vitamin D).
Human Adaptations: Skin Color
Dark Skin: In the Tropics:
Screens out UV radiation
• Reduces folate destruction
• Prevents sunburns
• Reduces risk of skin cancer
Light Skin: Outside the
Tropics:
Admits UV radiation
• Helps synthesis vitamin D
• Prevents rickets &
osteoporosis
http://www.youtube.com/watc
h?v=7d9M7HGFX8E
Adaptation in Cultural Evolution
Human groups adapt to their environments by means
of their cultures.
Cultural Evolution is the process of cultures changing
over time (not to be confused with progress).
Not all changes turn out to be positive, nor do they
improve conditions for every member of a society.
Complex, urban societies are not more “highly
evolved” than those of food foragers.