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Darwin and-his-theory
1. Nothing in biology makes sense except in
the light of evolution. – Theodosius
Dobzhansky
Darwin’s theory of Evolution]
Charles Darwin in later years
2. What is Evolution?
The kind we’re talking about is sometimes called organic evolution to distinguish it
from non-biological changes over time.
Working definition: Evolution is the progressive change in populations over time.
NOT SPECIES, NOT INDIVIDUALS
3. Evolution Holds a Unique Place in Biology
Other disciplines ask how?
Evolutionary biology asks why?
7. Evolutionary Time Scales
Microevolution: Short time scale events (generation-to-generation) that change
the genotypes and phenotypes of populations.
We’ll begin our more intensive look at evolution with microevolution.
8. Darwin’s Voyage of Discovery
A reconstruction of the HMS Beagle sailing off Patagonia.
10. Darwin’s Ideas Did Not Develop in a Vacuum
Contributor’s to Darwin’s thinking included:
Charles Lyell –(geologist) uniformatarianism.
The Earth is older than 6,000 years
1797-1875
Georges Cuvier – species extinction.
Fossils
1769-1832
11. Darwin’s Ideas Did Not Develop in a Vacuum
Contributor’s to Darwin’s thinking included:
Thomas Malthus – struggle for existence.
Carrying capacity: J curve/S curve
1766-1834
Jean Baptiste de Lamarck – evolution by
acquired characteristics. First evolution
Theory, Giraffes get taller due to stretching
In parents
1744-1829
12. Alfred Russel Wallace Independently Drew the Same
Conclusions as Darwin
Papers from Wallace and Darwin were jointly presented (with little
impact) to the Linnaean Society in 1858.
14. Darwin’s Observations and Inferences
Organized by Ernst Mayr
Observation 1: Left unchecked, the number of
organisms of each species will increase exponentially,
generation to generation.
Observation 2: In nature, populations tend to remain
stable in size.
Inference 1: Production of more individuals than can be supported by the
environment leads to a struggle for existence among individuals, with only a
fraction of offspring surviving in each generation.
Observation 3: Environmental resources are limited.
15. Darwin’s Observations and Inferences
Observation 4: Individuals of a population vary extensively in
their characteristics with no two individuals being exactly alike.
Observation 5: Much of this variation between individuals is heritable.
16. Inference 2: Survival in the struggle for
existence is not random, but depends in
part on the heritable characteristics of
individuals. Individuals who inherit
characteristics most fit for their
environment are likely to leave more
offspring than less fit individuals.
Darwin’s Observations and Inferences
17. Inference 3: The unequal ability of individuals to survive and reproduce leads to a
gradual change in a population, with favorable characteristics accumulating over
generations (natural selection).
Taken together, these three inferences are a statement of Darwin’s Theory of
Evolution.
Darwin’s Observations and Inferences
18. The Weak Link of Genetics and the Modern Synthesis
A major problem in Darwin’s theory was the lack of a
mechanism to explain natural selection. (No mitosis,
meiosis, replication, chromosomes, laws of inheritance)
How could favorable variations be transmitted to later
generations?
With the rediscovery of Mendel’s work and its vast
extension in the first half of the 20th century, the missing
link in evolutionary theory was forged.
Darwinian theory supported by genetics is known as the modern synthesis.
Darwin in his early
years.
19. Discomfort With Evolution
An early disparaging
view of evolutionary
theory and its creator.
The upheaval surrounding evolution began with
publication of On the Origin of Species and
continues nearly 150 years later.
1925
21. Evidence for Evolution - Comparative Morphology
Homologous structures
Why use the same skeletal plan for these very different appendages?
22. Evidence for Evolution - Comparative Embryology
Why do embryos of different animals pass through a similar developmental stage?
Recent discoveries of the conservation of molecular mechanisms of development are
even more compelling.
23. Evidence of
Evolution –
Conservation and
Diversification at
the Molecular
Level
Why should
different
organism possess
related genes?
Why does the
degree of
relationship of
genes match their
degree of
relationship
established by
other methods?
24. Evidence for Evolution –
Evolution Observed
Evolution of pesticide resistance
in response to selection.
25. Special Examples
• Kin Selection: relative fitness includes fitness of close
relatives
• Artificial selection: farming/animal breeding
• Sexual selection: based on mating
• Convergent evolution: different ancestor common lifestyle
(analogous structures result)
• Divergent evolution: common ancestor different lifestyle
(homologous structures result)
• Parallel evolution: evolving in the same pattern
• Coevolution: two evolving each other
26. Speciation
– Steps in the process:
» Subdivision of the population
» Evolution of each subpopulation in independent
directions
» Change in population that reproductively isolates the
population from the other.
» Return to same setting and no longer can members of
the two populations mate.
30. Reproductive Isolation
• Prezygotic vs. Postzygotic
• Needed for speciation: Organisms can look
somewhat different and still be one species if this
does not occur.
• Organisms can look very much alike, but be two
species if this occurs.
• The idea is that eventually diversity will build up
in the populations independently and thus would
eventually look different.
31. Many Intrinsic Reproductive Isolating Mechanisms Drive
Speciation
(different habits within an overlapping range)
33. Speciation Dynamics - Gradualism or Punctuated Equilibrium?
Punctuated equilibrium appears
to be a more accurate view of
speciation dynamics.
: long period lacking speciation
where variation builds up
followed by some dramatic
change in the environment that
leads to a struggle for survival
and lots of speciation and
microevolution.