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EVOLUTION AND ITS
PROCESSES
Chapter 11
Evidence of Evolution
 Evolution of a population is observable in the field
and in the laboratory
 Guppies
 Adult male guppies exhibit genetically determined spots
 Juvenile and female guppies lack spots
 Male and female guppies from genetically diverse
populations were collected from different mountain
streams and placed together in an isolated environment
containing no predators
Evidence of Evolution
 Evolution of a population is
observable in the field and in the
laboratory
 Guppies
 The population was maintained for
several generations
 Separated into two groups: one with a
predator and one without a predator
 Each group was maintained through
several generations
 Throughout the experiment, the mean
number of spots per adult male guppies
was determined
What happens to the
mean number of spots
during the first 6
months?
What do the bars
going through each
point represent?
What happens to the
genetic variation
during the first 6
months?
What is a possible
explanation for the
changes?
What happens to the
mean number of spots
in the group with the
predator?
What happens to the
mean number of spots
in the group without
the predator?
What is a possible
explanation for the
differences?
Species and Speciation
 A species is a distinct group
 Morphologically different from other groups
 Do not interbreed with other groups
 Reproductively isolated
Species and Speciation
 Speciation is the formation of new species
 A population is divided into subpopulations
 Subpopulations are reproductively isolated
 Natural selection, genetic drift, and mutations can
occur differently in each subpopulation
 Evolution takes a different course in each
subpopulation
 After a long period of time this may result in two
different species
Species and Speciation
 Reproductive Isolation
 The end of gene flow between
populations
 Always a part of speciation
Species and Speciation
 Reproductive Isolation Mechanisms
 Temporal isolation
 Individuals reproduce at different times
 Cicadas: different reproductive cycles (13 verses
17 year)
Species and Speciation
 Reproductive Isolation Mechanisms
 Mechanical isolation
 Physical incompatibilities prevent interbreeding
 Black sage and white sage: specialized for different
pollinators
Black sage flowers are
small and delicate. It is
pollinated mainly by
honeybees and other small
insects
White sage pollen coated anthers are
too far away from the petals to be
brushed by smaller insects. Larger
bees and hawkmoths are the
pollinators.
Species and Speciation
 Reproductive Isolation Mechanisms
 Ecological isolation
 Adapted to different microenvironments in the same
region
 Two species of manzanita: One is drought-adapted, the
other is not
Species and Speciation
 Reproductive Isolation Mechanisms
 Behavioral Isolation
 Bird courtship displays
Species and Speciation
 Reproductive Isolation Mechanisms
 If mating occurs…
 Gamete incompatibility
 Molecular signals are species specific
 Hybrid inviability
 Chromosome and gene differences
 Hybrid sterility
 Horse X donkey = sterile mule
Species and Speciation
 Speciation can occur in three different ways
 Each requires some mechanism to ensure
reproductive isolation
Species and Speciation
 Allopatric Speciation (with geographic isolation)
 Subpopulations become geographically isolated, thus
reproductively isolated
Fig. 17.20, p. 272
Species and Speciation
 Sympatric Speciation (without geographic isolation)
 Within the same population some individuals are
reproductively isolated
 Plants
 Change in chromosome number
Here we see two species of anemone flower and
their chromosomes. Changes in number of
chromosomes, as has occurred in this genus, can
cause speciation.
Species and Speciation
 Sympatric Speciation (without geographic isolation)
 Within the same population some individuals are
reproductively isolated
 Indigobirds are brood parasites
 Young learn the song of the host species
 More likely to mate with birds that learned the same song
 Ciclids
 Females choose mate based on colors she perceives
Species and Speciation
 Parapatric Speciation (without geographic isolation)
 Small local populations are more likely to breed
within their immediate population than with another
local population (new niche formed)
 Sea urchins in a tidepool
 Velvet walking worms
Although continuously distributed,
different flowering times have begun
to reduce gene flow between metaltolerant plants and metal-intolerant
plants.
Summary
 Observations of nature changed our thinking
 Change over time /natural selection/evolution
 Hardy-Weinberg Equation
 Populations evolve
 Mechanisms
 Genetic drift, gene flow, mutation, natural selection
 Species and Speciation
Early Evolutionary Concepts
 Count de Buffon (1707-1788)
 Described all known plants and animals (44 volumes)
 Observed structural variations in particular organs of
related animals
 Believed in a special creation and considered change as
being degenerate
 Apes = degenerate humans
 Provided no theories on how change/degeneration
might take place
Change over Time
 Charles Lyell
 Gradual geological processes sculpted Earth’s
current landscape over great spans of time
 Challenged the prevailing belief of the age of
Earth
 Thomas Malthus
 Economist that correlated increases in the size
of human populations with episodes of famine,
disease, and war
 Humans reproduce beyond the capacity of their
environment
 Must compete for limited resources or develop
technology to increase productivity