Chapter 22 Speciation (Biology PDF)

Summary

This chapter from Biology covers the concept of speciation and different viewpoints and approaches to species identification. It discusses various species concepts, including morphological, biological, and phylogenetic species concepts. Additionally, it touches upon the role of geographical factors and reproductive isolation in the evolution of new species.

Full Transcript

Chapter 22
Speciation
What is species
Maintaining Reproductive
Isolation
Geography of speciation
Genetic Mechanisms of
Speciation

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Two Closely Related Bird Species

Two closely related bird species, purple
martins (Progne subis) and tree
swallows (Tachycineta bicolor) perching
together on a branch in Crane Creek,
Ohio.

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Why It Matters…

In 1927 Ernst Mayr identified 137 species of
birds in New Guinea, based on differences
in size, plumage, color, and other external
characteristics

In 1942 Mayr published Systematics and the
Origin of Species, which describes the role
of geography in the evolution of new
species

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Ernst Mayer – the Darwin of the 20th century

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Bird of Paradise
35 species of birds
of paradise are
found only in New
Guinea

Each mountain

Bruce Beehler/Science Source
range Mayr explored
was home to some
species that lived
nowhere else
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Species and Speciation
The species is the fundamental unit of
biodiversity and biological studies

Species arise through microevolutionary
processes that alter the gene pools and
phenotypic variation between populations

Speciation is the process of species
formation

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The British biologist Thomas Henry Huxley (1825-
1895), best remembered for his active support of
Charles Darwin's theory of evolution, asked:

“In the first place, what is a species ?”
22.1 What Is a Species?

Biologists have developed a variety of
species concepts (32!!)

Popular approaches:
Morphological species concept
Biological species concept
Phylogenetic species concept

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Morphological species concept

The idea that all individuals of a species
share measurable anatomical traits that
distinguish them from individuals of other
species

Example: Paleobiologists use
morphological criteria to identify species
of fossilized organisms

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Morphological Species Concept

Relying exclusively on morphology can
present problems when there is:

much variability within a single species,

or when two species are nearly identical
in appearance (cryptic species)
Closely related cryptic species are
called sibling species
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Cryptic species

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Morphological Features of Warblers

Yellow-throated warbler Myrtle warbler
(Dendroica dominica) (Dendroica coronata)

Diagnostic characters. Yellow-throated warblers
and myrtle warblers can be distinguished by the
colour of feathers on the throat and rump

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Biological Species Concept

Emphasizes genetic cohesiveness of species.
Populations of the same species experience
gene flow, thus genetic material = mixed

2nd emphasizes genetic distinctness of each
species. Populations of different species are
reproductive isolated, they cannot exchange
genetic information.

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Limitations of the BSC

Species are groups of interbreeding natural
populations that are reproductively isolated
from other such groups (Mayr)
Defined in terms of population genetics and
evolution
does not apply to forms of life that reproduce
asexually,
or to extinct organisms, e.g. fossils

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Phylogenetic Species Concept

First uses morphological and genetic
sequence data to reconstruct an
organism’s evolutionary tree

Defined as a cluster of populations that
emerges from the same small branch (share
recent evolutionary history)

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Phylogenetic Species Concept

Because evolutionary histories have been
described for relatively few groups, the
phylogenetic species concept cannot be
applied to all forms of life

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Geographical Variation

Neighboring populations often share
characteristics because they live in similar
environments and some gene flow occurs

Widely separated populations may live
under different conditions, and gene flow is
less likely to occur – gene pools and
phenotypes often differ

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Subspecies
When geographically separated populations of a
species exhibit dramatic, easily recognized
phenotypic variation, biologists may identify them
as different subspecies

Local variants of a species (sometimes called a
“race”)

Usually interbreed where geographical
distributions overlap

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Five Ratsnake Subspesies (Elaphe obsoleta)

E. o. lindheimeri
Black rat snake
- Eastern North (E. o. obsoleta)

America differ in
colour and in the
presence or absence
of stripes or Yellow rat snake
(E. o. quadrivittata)
blotches.

Texas rat snake Gray rat snake Everglades rat snake
(E. o. lindheimeri) (E. o. spiloides) (E. o. rossalleni)

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Patterns of Geographical Variation
Ring species

Plant and animal species with a ring-
shaped geographical distribution
surrounding uninhabitable terrain

Adjacent populations exchange
genetic material directly

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 Gene flow between distant populations
occurs only through intermediary
populations

Example: Seven subspecies of lungless
salamander around California’s hot, dry
Central Valley differ in biochemical traits,
color, size, and ecology

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Ring Species

Oregon salamander
(E. e. oregonensis)

Subspecies often
Painted salamander Sierra Nevada salamander
interbreed where their

Centr
(E. e. picta) (E. e. platensis)
geographical distributions

al
le

Val
overlap. However, the two y

subspecies that nearly
close the ring in the south Yellow-eyed salamander
(E. e. xanthoptica)
Yellow-blotched
salamander
(marked with an arrow), (E. e. croceater)

the Monterey salamander Two subspecies
in the southern
and the yellow-blotched part of the
distribution rarely
salamander, Monterey salamander interbreed. Large-blotched
rarely interbreed. (E. e. eschscholtzii) salamander
(E. e. klauberi)

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Patterns of Geographical Variation
Clinal variation
A species distributed over a large,
environmentally diverse area may exhibit a
pattern of smooth/gradual variation in traits
along a geographical gradient (cline)
CV is usually the result from gene flow
between adjacent populations adapting to
slightly different conditions
Example: Many birds and mammals in the
northern hemisphere show clinal variation in body
size
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Clinal Variation

House sparrows
exhibit clinal
variation in overall
body size

Darker shading in the
map indicates larger
size

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Study Break 22.1
1. How do the morphological, biological, and
phylogenetic species concepts differ?
2. What is clinal variation?

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22.2 Maintaining Reproductive Isolation

Reproductive isolation is central to the
biological species concept

Reproductive isolating mechanism
A biological characteristic that prevents
the gene pools of two species from
mixing

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Two Categories of Reproductive Isolating
Mechanisms
Prezygotic isolating mechanisms
( premating )
Operate before production of a fertilized
egg (zygote)

Postzygotic isolating mechanisms
( postmating )
Operate after zygote formation
Reduce the fitness of hybrid individuals

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Two Categories of Reproductive Isolating
Mechanisms
Reproductive isolating
mechanisms are not
mutually exclusive –
two or more may
operate simultaneously

5 mechanisms have
been ID that can
prevent production of
hybrid offspring
[see table 22.1]
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Prezygotic Mechanisms (5)
Ecological isolation
Species live in different habitats in the
same region
Example: Asian lions (open grassland)
and tigers (dense forest) of India

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Temporal isolation
Species breed at different times of day or
year.
Examples: fruit flies (time of day); pine
trees (time of year)

D. perimilis Morning P. radiata Feb
D. psudoobscura Afternoon P. muricata April
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 Photographer’s Choice/
Behavioral
Gail Shumway/

Getty Images
isolation
1

Signals of one
3
species are not 7

4
recognized by
8

another
Examples: Birds 9

5 (song, colour),
KEY
1 P. consimilis 4 P. collustrans
frogs (song),
7 P. ignitus

fireflies (light
2 P. brimleyi 5 P. marginellus 8 P. pyralis
3 P. carolinus 6 P. consanguineus 9 P. granulatus

Bioluminescence patterns of 9 sp. flashes)
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Prezygotic Mechanisms (cont'd.)

Mechanical isolation
Differences in structure of reproductive
organs or other body parts physically
prevent mating

Example: Monkey-flowers adapted to
different pollinators

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Mechanical Isolation: Monkey-Flowers

Purple monkey-flower Scarlet monkey-flower
(Mimulus lewisii) (Mimulus cardinalis)

Design Pics/Michael Interisano/Getty Images

FLPA/Larry West/Age Fotostock
attracts bumblebees attracts hummingbirds.
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 Gametic isolation
Species have non-matching receptors on
gametes

Examples: Marine invertebrates, fruit
flies, flowering plants

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Postzygotic Mechanisms (3)
Hybrid inviability
Hybrid offspring do not complete
development-die as embryo or early age
Example: Sheep and goats

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 Hybrid sterility
Hybrid offspring cannot produce functional
gametes, although they develop into healthy
vigorous adults.
Example: Horse and donkey (mules)
Hybrid Sterility: Zebroids

Horses and zebroids (hybrid offspring of horses and
zebras) run in a mixed herd. Zebroids are usually sterile.
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Postzygotic Mechanisms

Hybrid breakdown
Hybrid offspring have reduced survival
or fertility
Line of descent does not pass the F2-
generation
Example: Fruit flies

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Isolating Mechanisms

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Study Break 22.2

1. What is the difference between prezygotic and
postzygotic isolating mechanisms?
2. When a male duck of one species performed a
courtship display to a female of another species,
she interpreted his behavior as aggressive rather
than amorous. What type of reproductive
isolating mechanism does this scenario illustrate?

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22.3 The Geography of Speciation
Biologists define three modes of speciation
based on the degree of geographical
connectedness of populations as they
become reproductively isolated:

Allopatric speciation (allo = different,
patria = homeland)
Parapatric speciation (para = beside)
Sympatric speciation (sym = together)

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Allopatric Speciation

Takes place when a physical barrier
subdivides a large population, or when a
small population becomes separated from
a species’ main geographical distribution

Common mode of speciation in large
animals

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Allopatric Speciation
Allopatric speciation occurs in two stages:

Two populations become geographically
separated, preventing gene flow between
them

Accumulated genetic differences isolate
them reproductively

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Allopatric Speciation and Secondary Contact

1 At first, a population is 2 A geographical change
distributed over a large separates the original
geographical area. population, creating a
barrier to gene flow.

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 3 In the absence of gene flow, 4 When another geographical
the separated populations change allows individuals of
evolve independently and the two species to come into
diverge into different species. secondary contact, they do
not interbreed.
Parapatric speciation

Small peripheral populations may become
isolated at the edge of a species’
geographical distribution

Once a small population is isolated, genetic
drift and limited gene flow from the parent
population, increase differentiation
(gene pool and phenotypic)

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Accumulated genetic differences may lead to
reproductive isolation

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Populations on Oceanic Islands
The founder effect (genetic drift) makes
populations on oceanic islands genetically
distinct

On oceanic archipelagos (Galápagos,
Hawaiian islands) individuals from one
island may colonize nearby islands,
founding populations that differentiate into
distinct species

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Populations on Oceanic Islands

Species cluster
Group of closely related species recently
descended from a common ancestor

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Evolution of a Species Cluster on an
Archipelago
Letters (A-D) ID 4 islands
in hypothetical A
archipelago, coloured 1 A few individuals
of a species from
dots represent different the mainland B C
arrive on isolated
species. Ancestor of all islands A and B.
D
the sp. is represented by
black dots on the
mainland.
At end of the process,
islands A and B are each 2 Over time, they
differentiate into
A

occupied by 2 sp., and new species on
these islands. The
islands C and D are purple species then
colonizes islands
B C

occupied by 1 sp, all of C and D. D

which evolved on islands
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Secondary Contact

Secondary contact between allopatric
populations occurs when a geographical
barrier is eliminated or breached, and the
two populations reestablish contact

If their gene pools did not differentiate much,
the populations will interbreed and merge
via species fusion

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Secondary Contact

If the populations have differentiated enough
to be reproductively isolated, they have
become separate species

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Evolution of a Species Cluster on an
Archipelago (cont’d.)

3 Over time, the A
populations on
islands C and D
differentiate into B C
two new species.
D

4 Some time A
later, the blue
species colonizes
island A, and the B C
orange species
colonizes island B,
D
establishing
secondary contact.

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Secondary Contact (cont'd.)
If prezygotic reproductive isolation is
incomplete, individuals of two populations
may mate in narrow hybrid zones

If postzygotic isolating mechanisms cause
hybrid offspring to have lower fitness,
natural selection will promote evolution of
prezygotic isolating mechanisms that
enhance reproductive isolation
(reinforcement)
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Hybrid Zones

Bullock’s oriole (Icterus bullockii) Baltimore oriole (Icterus galbula)

KEY
Robert L Kothenbeutel/Shutterstock.com Bullock’s oriole iStockphoto.com/lightstalker
Hybrid zone
Baltimore oriole

Males of the Bullock’s oriole and Baltimore oriole differ in color
and courtship song. Populations have maintained a hybrid zone
for 100’s years, and were considered subspecies of the same
species. American Ornithologists’ Union recognized them as
separate species in 1997. Hybridize less frequently than they
once did, leading some researchers to suggest that their
reproductive isolation evolved recently.
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Sympatric Speciation

Sympatric speciation
Reproductive isolation evolves between
distinct subgroups that arise within one
population
Populations are neither geographically
nor environmentally separated as their
gene pools diverge

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Sympatric Speciation
Example: Insects that feed on just one or
two plant species
Host plant choice may be genetically
determined
A mutation may result in some individuals
feeding on different plants and mating on
them
In this way they become reproductively
isolated and over time evolve into a new
species
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Study Break 22.3

1. What are the two stages required for allopatric
speciation?
2. Why might insects from different host races be
unlikely to mate with each other?

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 NEXT LECTURE
Online Chapter Description
2 Sept 20 [457-475] Evolutionary thinking
9 Sept 21 [476-499] Microevolution
16 Sept 22 [501-511, Speciation
518-519]
23 Sept 23 [521-549] Macroevolution