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Descent with modification: The Darwinian
(r)evolution- Ch. 22
© 2014 Pearson Education, Inc.
 A new era of biology began in 1859 when Charles
Darwin published The Origin of Species
 The Origin of Species focused biologists’ attention
on the great diversity of organisms
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 Darwin noted that current species are descendants
of ancestral species
 Evolution can be defined by Darwin’s phrase
descent with modification
 Evolution can be viewed as both a pattern and a
process
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Concept 19.1: The Darwinian revolution
challenged traditional views of a young Earth
inhabited by unchanging species
 Darwin’s revolutionary ideas had deep historical roots
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Scala Naturae and Classification of Species
 The Greek philosopher Aristotle viewed species as
fixed and arranged them on a scala naturae
 The Old Testament holds that species were
individually designed by God and therefore perfect
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 Carolus Linnaeus interpreted organismal adaptations
as evidence that the Creator had designed each
species for a particular purpose
 Linnaeus was the founder of taxonomy, the branch
of biology concerned with classifying organisms
 He developed the binomial format for naming
species (for example, Homo sapiens)
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Ideas About Change over Time
 The study of fossils helped to lay the groundwork
for Darwin’s ideas
 Fossils are remains or traces of organisms from
the past, usually found in sedimentary rock, which
appears in layers or strata
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Figure 19.3
Younger stratum
with more recent
fossils
Older stratum
with older fossils
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 Paleontology, the study of fossils, was largely
developed by French scientist Georges Cuvier
 Cuvier speculated that each boundary between
strata represents a catastrophe that destroyed
many species
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 Geologists James Hutton and Charles Lyell
perceived that changes in Earth’s surface can result
from slow, continuous actions still operating today
 Lyell further proposed that the mechanisms of
change are constant over time
 This view strongly influenced Darwin’s thinking
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Lamarck’s Hypothesis of Evolution
 Lamarck hypothesized that species evolve through
use and disuse of body parts and the inheritance of
acquired characteristics
 The mechanisms he proposed are unsupported by
evidence
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Concept 19.2: Descent with modification by
natural selection explains the adaptations of
organisms and the unity and diversity of life
 Some doubt about the permanence of species
preceded Darwin’s ideas
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Darwin’s Research
 As a boy and into adulthood, Charles Darwin had a
consuming interest in nature
 Darwin first studied medicine (unsuccessfully) and
then theology at Cambridge University
 After graduating, he took an unpaid position as
naturalist and companion to Captain Robert FitzRoy
for a five-year around-the-world voyage on the
Beagle
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The Voyage of the Beagle
 During his travels on the Beagle, Darwin collected
specimens of South American plants and animals
 He observed that fossils resembled living species
from the same region, and living species resembled
other species from nearby regions
 He experienced an earthquake in Chile and observed
the uplift of rocks
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 Darwin was influenced by Lyell’s Principles of
Geology and thought that Earth was more than
6,000 years old
 His interest in geographic distribution of species was
kindled by a stop at the Galápagos Islands west of
South America
 He hypothesized that species from South America
had colonized the Galápagos and speciated on the
islands
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Video: Albatross Courtship
Video: Boobies Courtship
Figure 19.2
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Video: Galápagos Islands
Video: Marine Iguana
Video: Sea Lion
Video: Soaring Hawk
Video: Tortoise
Figure 19.5
Darwin in
1840, after
his return
from the
voyage
HMS Beagle at sea
Great
Britain
EUROPE
NORTH
AMERICA
ATLANTIC
OCEAN
The
Galápagos
Islands
Genovesa
Marchena
Santiago
Fernandina Pinzón
Isabela
0
20
40
Kilometers
AFRICA
PACIFIC
OCEAN
Pinta
Daphne
Islands
Santa Santa
Cruz
Fe San
Cristobal
Florenza Española
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Equator Malay Archipelago
SOUTH
AMERICA
Equator
Chile
PACIFIC
OCEAN
Brazil
Argentina
Cape Horn
PACIFIC
OCEAN
AUSTRALIA
Cape of
Good Hope
Tasmania
New
Zealand
Figure 19.5a
Great
Britain
NORTH
AMERICA
EUROPE
ATLANTIC
OCEAN
AFRICA
SOUTH
AMERICA
Chile
PACIFIC
OCEAN
Equator Malay Archipelago
Brazil
Argentina
Cape Horn
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PACIFIC
OCEAN
AUSTRALIA
Cape of
Good Hope
Tasmania
New
Zealand
Figure 19.5c
The
Galápagos
Islands
Pinta
Genovesa
Marchena
Santiago
Fernandina
20
40
Kilometers
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Equator
Daphne
Islands
Pinzón
Isabela
0
PACIFIC
OCEAN
Santa Santa
Cruz
San
Fe
Cristobal
Florenza
Española
Darwin’s Focus on Adaptation
 In reassessing his observations, Darwin perceived
adaptation to the environment and the origin of
new species as closely related processes
 From studies made years after Darwin’s voyage,
biologists have concluded that this is what
happened to the Galápagos finches
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Figure 19.6
(a) Cactus-eater
(c) Insect-eater
(b) Seed-eater
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 In 1844, Darwin wrote an essay on natural selection
as the mechanism of descent with modification but
did not introduce his theory publicly
 Natural selection is a process in which individuals
with favorable inherited traits are more likely to
survive and reproduce
 In June 1858, Darwin received a manuscript from
Alfred Russell Wallace, who had developed a theory
of natural selection similar to Darwin’s
 Darwin quickly finished The Origin of Species and
published it the next year
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Figure 19.7
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Ideas from The Origin of Species
 Darwin explained three broad observations about life
 The unity of life
 The diversity of life
 The match between organisms and their environment
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Descent with Modification
 Darwin never used the word evolution in the first
edition of The Origin of Species
 The phrase descent with modification summarized
Darwin’s perception of the unity of life
 The phrase refers to the view that all organisms are
related through descent from an ancestor that lived
in the remote past
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 In the Darwinian view, the history of life is like a tree
with branches representing life’s diversity
 Fossils of extinct species help to “fill in” the
morphological gaps between present-day groups
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Figure 19.8
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Figure 19.9
Hyracoidea
(Hyraxes)
Sirenia
(Manatees
and relatives)
† Moeritherium
† Barytherium
† Deinotherium
† Mammut
† Platybelodon
† Stegodon
† Mammuthus
Elephas maximus
(Asia)
Loxodonta africana
(Africa)
Loxodonta cyclotis
(Africa)
60
34
24
Millions of years ago
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5.5 2 104 0
Years ago
Figure 19.9a
Hyracoidea
(Hyraxes)
† Moeritherium
Sirenia
(Manatees
and relatives)
† Barytherium
†Deinotherium
† Mammut
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Figure 19.9b
† Platybelodon
† Stegodon
† Mammuthus
Elephas maximus
(Asia)
Loxodonta africana
(Africa)
Loxodonta cyclotis
(Africa)
60
34
24
Millions of years ago
© 2014 Pearson Education, Inc.
5.5 2 104 0
Years ago
Artificial Selection, Natural Selection, and
Adaptation
 Darwin noted that humans have modified other
species by selecting and breeding individuals with
desired traits, a process called artificial selection
 Darwin argued that a similar process occurs in nature
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• Humans have modified a variety of domesticated
plants and animals over many generations by
selecting individuals with the desired traits as
breeding stock.
Fig. 22.11
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Pearson Education,
Inc.Pearson
© 2002
Education, Inc., publishing as Benjamin Cummings
Figure 19.10
Cabbage
Selection for
apical (tip) bud
Brussels
sprouts Selection for
axillary (side)
buds
Selection Broccoli
for flowers
and stems
Selection
for stems
Selection
for leaves
Kale
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Wild mustard
Kohlrabi
artificial selection- dogs
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• The domestication of corn (a somewhat corny
example)
• http://www.hhmi.org/biointeractive/breedingcorn-
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 Darwin drew two inferences from two observations
 Observation #1: Members of a population often vary
in their inherited traits
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Figure 19.11
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 Observation #2: All species can produce more
offspring than the environment can support, and
many of these offspring fail to survive and reproduce
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Figure 19.12
Spore
cloud
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 Inference #1: Individuals whose inherited traits
give them a higher probability of surviving and
reproducing in a given environment tend to leave
more offspring than other individuals
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 Inference #2: This unequal ability of individuals to
survive and reproduce will lead to the accumulation
of favorable traits in the population over
generations
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 Darwin was influenced by Thomas Malthus, who
noted the potential for human population to increase
faster than food supplies and other resources
 If some heritable traits are advantageous, these will
accumulate in a population over time, and this will
increase the frequency of individuals with these
traits
 This process explains the match between
organisms and their environment
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Natural Selection: A Summary
 Individuals with certain heritable traits survive and
reproduce at a higher rate than other individuals
 Over time, natural selection increases the match
between organisms and their environment
 If an environment changes over time, natural
selection may result in adaptation to these new
conditions and may give rise to new species
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Figure 19.13
(a) A flower mantid in Malaysia
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(b) A leaf mantid in Borneo
 Note that individuals do not evolve; populations
evolve over time
 Natural selection can only increase or decrease
heritable traits that vary in a population
 Adaptations vary with different environments
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Concept 19.3: Evolution is supported by an
overwhelming amount of scientific evidence
 New discoveries continue to fill the gaps identified
by Darwin in The Origin of Species
 There are four types of data that document the
pattern of evolution
 Direct observations
 Homology
 The fossil record
 Biogeography
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Direct Observations of Evolutionary Change
 Two examples provide evidence for natural selection:
natural selection in response to introduced plant
species and the evolution of drug-resistant bacteria
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Natural Selection in Response to Introduced Plant
Species
 Soapberry bugs use their “beak” to feed on seeds
within fruits
 In southern Florida soapberry bugs feed on balloon
vine with larger fruit; they have longer beaks
 In central Florida they feed on goldenrain tree with
smaller fruit; they have shorter beaks
 Correlation between fruit size and beak size has
also been observed in Louisiana, Oklahoma, and
Australia
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 In all cases, beak size has evolved in populations
that feed on introduced plants with fruits that are
smaller or larger than the native fruits
 These cases are examples of evolution by natural
selection
 In Florida this evolution in beak size occurred in less
than 35 years
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Figure 19.14
Soapberry bug with beak
inserted in balloon vine
fruit
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Results
Number of individuals
Field Study
10 On native species,
8 balloon vine
6 (southern Florida)
4
2
0
Beak
Museum-specimen average
10
8
6
4
2
0
On introduced
species,
goldenrain tree
(central Florida)
6
7
9
8
10
Beak length (mm)
11
Figure 19.14a
Field Study
Soapberry bug with beak
inserted in balloon vine
fruit
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Figure 19.14b
Number of individuals
Results
10 On native species, Beak
8 balloon vine
6 (southern Florida)
4
2
0
Museum-specimen average
10
8
6
4
2
0
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On introduced
species,
goldenrain tree
(central Florida)
6
7
9
8
10
Beak length (mm)
11
The Evolution of Drug-Resistant Bacteria
 The bacterium Staphylococcus aureus is commonly
found on people’s skin or in their nasal passages
 Methicillin-resistant S. aureus (MRSA) strains are
dangerous pathogens
 S. aureus became resistant to penicillin in 1945,
two years after it was first widely used
 S. aureus became resistant to methicillin in 1961,
two years after it was first widely used
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 Methicillin works by inhibiting a protein used by
bacteria in their cell walls
 MRSA bacteria use a different protein in their cell
walls
 When exposed to methicillin, MRSA strains are more
likely to survive and reproduce than nonresistant
S. aureus strains
 MRSA strains are now resistant to many antibiotics
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Figure 19.15
2,750,000
1
2,500,000
Chromosome map
of S. aureus clone USA300
2,250,000
500,000
Key to adaptations
2,000,000
Methicillin resistance
Ability to colonize hosts
750,000
Increased disease severity
Increased gene exchange
(within species) and
toxin production
1,000,000
1,750,000
1,500,000
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1,250,000
Annual hospital admissions
with MRSA (thousands)
250,000 base pairs
400
350
300
250
200
150
100
50
0
’93 ’94 ’95 ’96 ’97 ’98 ’99 ’00 ’01 ’02 ’03 ’04 ’05
Year
Insects can become
resistant to insecticides
- great article on insect
resistance and evolution
linked below.
http://sites.duke.edu/malar
ia/4-gene-environmentinteractions/pesticideresistence/
Fig. 22.12
© 2014Copyright
Pearson Education,
Inc.Pearson
© 2002
Education, Inc., publishing as Benjamin Cummings
Figure 19.UN04
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 Natural selection does not create new traits, but
edits or selects for traits already present in the
population
 The local environment determines which traits will
be selected for or selected against in any specific
population
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Homology
Evolution is a process of descent with modification
Related species can have characteristics with underlying
similarity that function differently
Homology is similarity resulting from common ancestry
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Anatomical and Molecular Homologies
 Homologous structures are anatomical
resemblances that represent variations on a
structural theme present in a common ancestor
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Evidence: structural similarities
(a.k.a. homologies/homologous structures)
Homologies
 Evolutionary theory predicts that related organisms
will share similarities that are derived from common
ancestors. Similar characteristics due to
relatedness are known as homologies.
Homologies can be revealed by comparing the
anatomical structures of different living things,
studying embryological development in different
organisms, cellular similarities, and molecular
similarities between organisms written in their genetic
code.
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Spines, flowers, insect –catching traps and
pits are all modified??????????????????
______________________
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Another example of homology is the forelimb of tetrapods
(vertebrates with legs).
Humans, birds, pterosaurs, bats, seals, penguins, lizards and
whales all have different forelimbs, reflecting their different
lifestyles. But those different forelimbs all share the same bone
elements - the humerus, the radius, ulna and other bone elements
in common.
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Figure 19.16
Humerus
Radius
Ulna
Carpals
Metacarpals
Phalanges
Human
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Cat
Whale
Bat
• transitional species found in fossil record
fish –amphibian (Tiktoolik)
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Transitional
fossils:
bird/reptile
Archaeopteryx
J-park scene:
comparing dinosaur
fossils to modern day
birds
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 Comparative embryology reveals anatomical
homologies not visible in adult organisms
 Vestigial structures are remnants of features that
served important functions in the organism’s
ancestors
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What
species is
this????
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Figure 19.17
Pharyngeal
arches
Post-anal
tail
Chick embryo (LM)
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Human embryo
Color code the associated gill arch structure on your
diagram
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Evidence: embryological similarities
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Ultimately: the body form of an organism is
controlled by its DNA (genes) –Hox genes)
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What are some examples of vestigial
structures?
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• Some of the most interesting homologous structures
are vestigial structures, structures of little, if any
importance to current organisms. Vestigial structures
are organs or structures remaining or surviving in a
degenerate, atrophied, or imperfect condition or form.
Vestigial pelvis and legs
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• Figure 2.1.1. Vestigial structures of various organisms. From top
to bottom: A. A hypocritical ostrich with its wings extended. B. A
blind cave salamander - look closely for the eyes buried
underneath the skin. C. Astyanax mexicanus, the Mexican tetra, a
blind cave fish.
Back
to question 2
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Vestigial legs in
dolphins found
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 Examples of homologies at the molecular level are
genes shared among organisms inherited from a
common ancestor
 Homologous genes can be found in organisms as
dissimilar as humans and bacteria
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A Different Cause of Resemblance: Convergent
Evolution
 Convergent evolution is the evolution of similar, or
analogous, features in distantly related groups
 Analogous traits arise when groups independently
adapt to similar environments in similar ways
 Convergent evolution does not provide information
about ancestry
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Figure 19.18
NORTH
AMERICA
Sugar
glider
AUSTRALIA
Flying
squirrel
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The Fossil Record
 The fossil record provides evidence of
 The extinction of species
 The origin of new groups
 Changes within groups over time
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Figure 19.19
Most mammals
(a) Canis (dog)
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Cetaceans and even-toes ungulates
(b) Pakicetus
(c) Sus (pig)
(d) Odocoileus (deer)
 Fossils can document important transitions
 For example, the transition from land to sea in the
ancestors of cetaceans
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Figure 19.20
Other even-toed
ungulates
Hippopotamuses
†Pakicetus
†Rodhocetus
Common
ancestor
of cetaceans
†Dorudon
Living
cetaceans
70
60
30
50
20
40
Millions of years ago
© 2014 Pearson Education, Inc.
10
0
Key
Pelvis
Femur
Tibia
Foot
Figure 19.20a
†Pakicetus
Common
ancestor
of cetaceans
†Rodhocetus
†Dorudon
Living
cetaceans
50
30
20
10
40
Millions of years ago
© 2014 Pearson Education, Inc.
0
Key
Pelvis
Femur
Tibia
Foot
Evidence: geographic distribution of species
• Biogeography, the geographic distribution of
species, provides evidence of evolution.
• The distribution of living things on the globe
provides information about the past histories of
both living things and the surface of the Earth.
This evidence is consistent not just with the
evolution of life, but also with the movement of
continental plates around the world-otherwise
known as plate tectonics.
• Remember Chapter 13?
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Evidence: geographic distribution of species
• Earth’s continents were formerly united in a
single large continent called Pangaea but have
since separated by continental drift
• An understanding of continent movement and
modern distribution of species allows us to
predict when and where different groups
evolved
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Remember building bridges??
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Geography- continued
• Marsupial mammals are found in
the Americas as well as Australia
and New Guinea, shown in
brown on the map at right. They
are not found swimming across
the Pacific Ocean, nor have they
been discovered wandering the
Asian mainland. There appear to
be no routes of migration
between the two populations.
How could marsupials have
gotten from their place of origin
to locations half a world away?
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 Endemic species are species that are not found
anywhere else in the world
 Islands have many endemic species that are often
closely related to species on the nearest mainland
or island
 Darwin explained that species on islands gave rise to
new species as they adapted to new environments
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 The distribution of living plants and animals suggests
that organisms adapted to one environment can invade
a new environment, and develop specific adaptations
to the new conditions.
 On the HMS Beagle, Darwin noted that in South
America, temperate species tended to resemble
their South American tropical relatives, rather than
temperate species in Europe. On the Galapagos,
most species had a recognizable ancestor from the
coast of Ecuador, but species there had numerous
adaptations specific to the climate of the Islands.
 Wallace observed the same pattern in many different
parts of the world.
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Tracing the evolution of fruit flies Drosophila in the
Hawaiian archipelago using DNA analysis.
All of the 500 or so endemic species are descended from a
common ancestor that reached Kauai over 5 million years
ago.
Back to index
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The molecular similarities among organisms
Different species share
genetic homologies as
well as anatomical ones.
Roundworms, for
example, share 25% of
their genes with
humans. These genes
are slightly different in
each species, but their
striking similarities
nevertheless reveal their
common ancestry.
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The molecular level (cont)
In fact, the DNA code itself is a homology that links all
life on Earth to a common ancestor. DNA and RNA
possess a simple four-base code that provides the
recipe for all living things. In some cases, if we were to
transfer genetic material from the cell of one living
thing to the cell of another, the recipient would follow
the new instructions as if they were its own.
 These characteristics of life demonstrate the
fundamental sameness of all living things on Earth and
serve as the basis of today's efforts at genetic
engineering.
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GFP traditionally refers to the
protein first isolated from a
gene found in the jellyfish
Aequorea victoria which glows
in the dark.
 The GFP gene can be transferred to other
organisms which will express this same trait.
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Genomic comparison evidence
 Comparative genomics is a field of biological research in which
the genome sequences of different species — human, mouse,
and a wide variety of other organisms from bacteria to
chimpanzees — are compared. By comparing the sequences
of genomes of different organisms, researchers can
understand what, at the molecular level, distinguishes different
life forms from each other. Comparative genomics also
provides a powerful tool for studying evolutionary changes
among organisms, helping to identify genes that are conserved
or common among species, as well as genes that give each
organism its unique characteristics.
 genomic comparisons article
 Protein comparison
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Back to index
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What Is Theoretical About Darwin’s View of Life?
 In science, a theory accounts for many observations
and explains and integrates a great variety of
phenomena
 The predictions of a scientific theory must stand up to
continual testing by experimentation and observation
 Darwin’s theory of evolution by natural selection
integrates diverse areas of biological study and
stimulates many new research questions
 Ongoing research adds to our understanding of
evolution
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Figure 19.UN03
Observations
Individuals in a population
vary in their heritable
characteristics.
Organisms produce more
offspring than the
environment can support.
Inferences
Individuals that are well suited
to their environment tend to leave more
offspring than other individuals.
and
Over time, favorable traits
accumulate in the population.
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Want to learn more????
Here are some great sites to check out!!
•
•
Understanding evolution (UC Berkeley) :http://evolution.berkeley.edu/
PBS Evolution site: http://www.pbs.org/wgbh/evolution/
•
The Complete Work of Charles Darwin Online: http://www.topsite.com/goto/darwinonline.org.uk
The American Association for the Advancement of Science:
http://www.aaas.org/news/press_room/evolution/
The National Science Foundation: http://www.nsf.gov/news/special_reports/darwin/home.jsp
Science Daily- current findings in evolutionary biology:
http://www.sciencedaily.com/news/fossils_ruins/evolution/
Nature: http://www.nature.com/nature/supplements/insights/evolution/
Howard Hughes Medical Institute
http://www.hhmi.org/biointeractive/browse?field_bio_format_type%5B0%5D=23448&field_bio_b
iointeractive_topics%5B1%5D=23477
•
•
•
•
•
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