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The Origin of Species
Chapter 23
1
Why don’t we call them the same species?
Santa Cruz Island
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1
Why don’t we call them different species?
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Ernst Mayr (Harvart Univ.)
2
Biological Species Concept
„
Ernst Mayr ….
“…groups of actually or potentially interbreeding
natural populations which are reproductively isolated
from other such groups.”
„
Individuals that cannot produce fertile offspring
are termed reproductively isolated, and thus
members of different species.
5
„
„
5
Species are based on interfertility, not physical
similarity.
For example, the eastern and western meadowlarks may
have similar shapes and coloration, but differences in
song help prevent interbreeding between the two
species.
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6
3
„
On the other hand,
humans have
considerable
diversity,
but we all belong to
the same species
because of our
capacity to
interbreed.
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The Process of Speciation
„
Speciation is a two-part process:
identical populations must diverge
„ reproductive isolation must evolve to maintain the
differences
„
„
Reproductive isolation prevents populations
evolved into different species from
interbreeding, even if their ranges overlap.
4
The process of
speciation is the
process of
reproductive
isolation !
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9
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10
How do 2 populations become
reproductively isolated?
„ Reproductive
barriers can be categorized
as prezygotic or postzygotic, depending
on whether they function before or after
the formation of zygotes.
5
Reproductive isolating mechanisms
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Reproductive isolating mechanisms
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Geographic isolation
„ It
seems geographically separated
populations are more likely to evolve
substantial differences leading to
speciation.
„ This
is called Allopatric speciation
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Geographic Isolation
7
Prezygotic Isolating Mechanisms
„
Prezygotic isolating mechanisms prevent the
formation of zygotes.
Ecological isolation (Habitat isolation)
„ Temporal isolation
„ Behavioral isolation
„ Mechanical isolation
„ Prevention of gamete fusion
„
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Habitat isolation
„ Two
species occur in the same general
area, but utilize different portions of the
environment and thus do not hybridize
because they do not encounter each
other.
„Can
you think of an example?
8
Habitat isolation
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Temporal isolation
„ Two
species that breed during different
times of day, different seasons, or
different years cannot mix gametes.
9
Temporal isolation
Eastern spotted skunk
(mate in late winter)
Western spotted skunk
(mate in late summer)
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Behavioral isolation
„ Many
species, e.g. birds, differ in
courtship rituals which tends to keep
species distinct.
10
Behavioral isolation
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Behavioral
isolation
1
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3
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5
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Behavioral isolation
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Mechanical isolation
„ Closely
related species may attempt to
mate but fail because they are anatomically
incompatible and transfer of sperm is not
possible.
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12
Mechanical isolation
Small landing platform
Large landing platform
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Gametic isolation
„ Gametic
isolation occurs when gametes
of two species do not form a zygote
because of incompatibilities preventing
fusion of sperms and eggs.
13
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Oops! can’t get in.
14
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Postzygotic Isolating Mechanisms
„ Postzygotic barriers
prevent the hybrid
zygote from developing into a viable, fertile
adult.
„ These barriers include
„reduced hybrid viability,
„reduced hybrid fertility
„hybrid breakdown.
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30
15
„ Reduced
hybrid viability. Genetic
incompatibility between the two species
may abort the development of the hybrid at
some embryonic stage or produce frail
offspring.
„ This is true for the occasional hybrids
between frogs in the genus Rana, which
do not complete development and those
that do are frail.
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Reduced hybrid viability in Leopard Frogs
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„ Reduced
hybrid fertility. Even if the
hybrid offspring are vigorous, the hybrids
may be infertile.
„ For example, while a mule, the hybrid
product of mating between a horse and
donkey, is a robust organism, it cannot
mate with either horses or donkeys.
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Tiger
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Lion
Tiglon
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„ Hybrid
breakdown. In some cases, first
generation hybrids are viable and fertile.
„ However, when they mate with either
parent species or with each other, the
next generation are feeble or sterile.
„ For example, different cotton species
can produce fertile hybrids, but
breakdown occurs in the next generation
when offspring of hybrids die as seeds or
grow into weak and defective plants.
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„ Reproductive
barriers
can occur before
mating, between
mating and
fertilization, or
after fertilization.
18
The biological species concept has limits
when applied to species in nature
„
Extinct species are separated into species based on
morphology (fossils).
„
There is high levels of hybridization among some species
groups.
„
It’s difficult to apply to species that do not occur together
in nature.
„
In addition, many species (e.g., bacteria) reproduce entirely
asexually and are assigned to species based mainly on
structural and biochemical characteristics.
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37
No single definition of species
may be universally applicable.
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19
How do speciation get started?
How does a population diverge
in the first place?
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Geographic Isolation
20
Random changes may initiate
reproductive isolation
„ Given
long enough periods of time, any two
isolated populations will diverge due to
genetic drift. If there is a chance divergence
in reproductive mechanism, then it’s the
start of reproductive isolation.
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41
Allopatric speciation in the vials:
Females from populations raised on starch medium
preferred males raised on starch medium over males
raised on maltose medium after several generations
of isolation.
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21
Natural selection can enhance speciation
„ Initially
incomplete isolating mechanisms are
reinforced by natural selection favoring the
perfection of reproductive isolation.
„ Hybrids
are often selected against
„ a case of disruptive selection.
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Reinforcement of reproductive isolation
Pied
flycatcher
Collared
flycatcher
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Exercise: The likelihood of allopatric
speciation increases when a population is both
small and isolated. WHY?
Mainland
populations
NEW GUINEA
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Not all speciation are allopatric
„ Geographic
isolation (allopatric speciation) is
not the only way to initiate speciation.
„ Sympatric
speciation -- instantaneous speciation
through polyploidy
„ individual is born that is reproductively
isolated from other members of species
because of polyploidy - more than 2 sets of
chromosomes.
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23
„
„
„
An individual can have more that two sets of
chromosomes from a single species if a failure in
meiosis results in a tetraploid (4n) individual.
This mutant can only reproduce with itself (selfpollination) or with other tetraploids.
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Hugo de Vries produced a new primrose
species, the tetraploid Oenotheria gigas, from the
diploid Oenothera lamarckiana.
„ The two species could not interbreed.
24
„ Many
plants important for agriculture are
the products of polyploidy.
„ For example, oats, cotton, potatoes,
tobacco, and wheat.
Allopatric
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Sympatric
25
„
„
All of the 500 or so endemic species of Drosophila
in the Hawaiian archipelago descended from a
common ancestor that reached Kauai over 5
million years ago.
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The evolution of many diversely-adapted species
from a common ancestor is called an adaptive
radiation.
26
„
Multiple invasions and allopatric speciation can
ignite an explosion of adaptive radiation
2
1
2
1
2
2
1
1
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Adaptive radiation of Darwin’s finches
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Geospiza
fuliginosa
Geospiza
fortis
Geospiza
magnirostris
Geospiza
scandens
Ground
and
cactus
finches
Geospiza
conirostris
Geospiza
difficilis
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Camarhynchus
parvulus
Camarhynchus
psittacula
Camarhynchus
pauper
Cactospiza
heliobates
Cactospiza
pallida
(woodpecker
finch)
Platyspiza
crassirostris
Certhidea
fusca
Certhidea
olivacea
Tree
finches
Vegetarian
tree finch
Warbler
finches
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28
Adaptive radiation of cichlid fishes
in Lake Victoria
Fish eater
Zooplankton eater
Leaf eater
Snail eater
Algae scraper
Second set of jaws
Insect eater
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Adaptive radiation is favored by
periodic isolation events
Glaciers link
alpine zones
into one
continuous
range.
Mountain
populations
become isolated,
permitting
divergence and
speciation.
Glaciers recede
Alpine zones
are reconnected.
Separately
evolved species
come back into
contact.
Glaciation
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Periodic glaciation has favored the adaptive
radiation in alpine buttercup, 14 species.
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How fast does speciation occur?
„ Darwin
— Gradulism
Infinitesimally small changes accumulating in a
slow, steady way.
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How fast does speciation occur?
„ Fossil
records show that the change of species
are in stasis over enormous lengths of time
(species undergo little change), then followed
by abrupt occurrence of new structures, and
many new species.
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Punctuated equilibrium
Jay Gould and Niles Eldredge proposed
--punctuated equilibrium
„Speciation normally proceeds in spurts,
with long periods of little speciation in
between.
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Rate of Speciation
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M
IS
AL
U
AD
GR
PUNCTUATED
EQUALIBRIUM
32
Speciation and Extinction Through Time
„
There have been 5 major mass extinctions
interspersed within relatively consistent extinction
patterns. However, biological diversity tends to
rebound after mass extinctions.
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Human impact the process of evolution
z
Human alter environments
e.g., global warming
z
Human decreased population sizes
zincreased genetic drift
zincreased extinction
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33
Behavioral Biology
Chapter 52
67
Once upon a summer time,….
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Exercise:
Why did the wren sing?
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Why did the wren sing?
The wren heard the tape through it’s neural
network, the perception of a song increased the
sex hormone in the blood, which bind to the
receptors in the brain, and triggered the
production of songs.
35
Why did the wren sing?
The wren sang to defend a territory from
other males and to attract females with which
to reproduce.
Proximate
reasons
Neural
pathway
&
hormone
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Ultimate
reasons
Survival &
reproduction
36
What is Behavior?
The way an organism respond actively to
stimuli in its environment.
Generally, a behavior should increase the
fitness of an individual. If not, natural
selection will select against the behavior.
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Exercise: nature-versus-nurture
Was the singing of a male wren an
innate or learned behavior?
37
Early ethologists believe that
behaviors are largely innate.
Frisch
Lorenz
Tinbergen
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Egg-rolling behavior
(FAP)
38
Fixed action pattern (FAP)
„A
sequence of behavioral acts that is
essentially unchangeable and usually
carried to completion once initiated.
„ The
FAP usually occurs in a series of
actions the same way every time.
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Oh, I hate the red bellies !
39
Innate Behaviors
z
Behaviors that are developmentally fixed, usually
based on preset pathways in the nervous system
and thus are likely genetically programmed.
„ The
range of environmental differences
among individuals does not appear to alter
the behavior.
79
79
Innate Behaviors ?
„ Kinesis
and taxis: the simplest mechanisms of
movement.
„ Kinesis is a
change in activity rate in response to a
stimulus.
„ Taxis is an automatic, oriented movement to or away
from a stimulus.
„ For example, phototaxis.
phototaxis.
80
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40
Evidence that behaviors have strong
genetic bases.
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Evidence 1– Identical twins
Identical human twins, separated at birth, develop
behavioral similarities, even though they were
raised in very different environments.
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41
Evidence 2 – artificial selection
Behavioral traits pass from one generation to the
next, thus are subject to selection.
P
F1
F2
F5
F7
Quicker rats
Slower rats
9 39 64 114 214
Errors made in the maze
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Evidence 3
–
hybrid
behavior
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Evidence 4 – Single gene defect
Fos B mutant
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Certainly, behaviors have genetic basis.
However, learning influences behavior
Learning occurs when animals alter their
behaviors as a result of previous experience.
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How does learning influences
behavior ?
„ Associative
learning
„ Non-associative learning
44
Associative learning (Conditioning)
An association between two stimuli (classical
conditioning), or between a stimulus and a
response (operant conditioning) is
developed.
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Classic Conditioning – associate two stimuli
FOOD
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90
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Pavlov and the poor dog
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Operant Conditioning
– associate a stimulus & a response
OUCH!
46
Food-and-light or food-and-shock
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Classic or operant conditioning?
47
If Willy is not going to touch a porcupine
anymore, is it a classic or operant conditioning?
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