Transcript Chapter 15
Chapter 15
Theory of Evolution
Objectives
CLE 3210.5.3 Explain how genetic
variation in a population and changing
environmental conditions are associated
with adaptation and the emergence of
new species.
SPI 3210.5.3 Recognize the relationships
among environmental change, genetic
variation, natural selection, and the
emergence of a new species. 3210.5.2
Explain how natural selection operates in the
development of a new species
Objectives
CLE 3210.5.4 Summarize the supporting
evidence for the theory of evolution.
SPI 3210.5.5 Apply evidence from the fossil
record, comparative anatomy, amino acid
sequences, and DNA structure that support
modern classification systems.
3210.5.3 Associate fossil data with
biological and geological changes in the
environment.
Objectives
Check210.Inq.1 Trace the historical
development of a scientific principle or
theory, such as cell theory, evolution, or
DNA structure
Evolution
The process of change in the
inherited characteristics within
populations over generations such
that new types of organisms develop
from preexisting types.
The processes that have
transformed life on earth from it’s
earliest forms to the vast diversity
that characterizes it today.
A change in the genes!!!!!!!!
The inheritance of acquired
characteristics
Proposed by Jean Baptiste
Lamarck (early 1800’s)
by
using or not using its body
parts, an individual tends to
develop certain
characteristics, which it
passes on to its offspring.
http://kentsimmons.uwinnipeg.ca/16cm05/1116/lamark.jpg
The inheritance of acquired
characteristics
Catastrophism
George Cuvier
Geologist
Noted that fossilized
organisms differed greatly
than current
Sudden catastrophes had
caused the extinction of
groups
diogenesii.wordpress.com/ tag/geology/
Uniformitarianism
Charles Lyell
natural
forces gradually
change Earth’s surface
and that the forces of the
past are still operating in
modern times
Influenced Darwin’s ideas
Darwin’s Voyage
Charles Darwin
Darwin set sail on the H.M.S. Beagle (1831-1836)
to survey the south seas (mainly South America
and the Galapagos Islands) to collect plants and
animals.
On the Galapagos Islands, Darwin observed
species that lived no where else in the world.
These observations led Darwin to write a book.
On the Origin of Species by
means of Natural Selection
Published 1859
Two main points:
1. Species were not created in their
present
form, but evolved from
ancestral species.
2. Proposed a mechanism for
evolution:
NATURAL SELECTION
Natural Selection
Individuals with favorable traits are
more likely to leave more offspring
better suited for their environment.
Also known as “Differential
Reproduction”
Example:
English peppered moth (Biston
betularia)
- light and dark phases
Natural Selection
Organisms in a population adapt to
their environment as the proportion of
individuals with genes for favorable
traits increases.
Those
individuals that pass on more
genes are considered to have greater
fitness.
Natural Selection
Artificial Selection
The selective breeding of domesticated
plants and animals by man.
http://toolbox-4-websites.com/2011/which-breed-of-humans-are-you/
Artificial Selection
http://alyannas-bioblog.blogspot.com/2010/04/artificial-selection-is-itgood-or-bad.html
Evidence of Evolution
1. Biogeography:
Geographical distribution of species.
the study of the locations of organisms around
the world, provides evidence of descent with
modification.
http://facul
ty.scf.edu/
odaffej/Wa
sDarwinW
rong.3/bio
geography.
jpg
Evidence of Evolution
2. Fossil Record:
Fossils and the order in which they
appear in layers of sedimentary rock
(strongest evidence).
The fossil record shows that the types
and distribution of organisms on Earth
have changed over time.
Fossils of transitional species show
evidence of descent with
modification.
Fossil Record
http://www.fossilmuseum.net/fossilpictureswpd/Archaeopteryx/Archaeopteryx.htm
http://faculty.weber.edu/bdattilo/images/campsognathus.jpg
Fossil Record
Transitional Species
Fossils of transitional species show evidence
of descent with modification.
Evidence of Evolution
3. Homologous
structures:
Structures that are
similar because of
common ancestry
(comparative anatomy)
Evidence of Evolution
4. Comparative
embryology
Study of
structures
that appear
during
embryonic
development.
http://bealbio.wikispaces.com/file/view/compembryology_pic.jpg/8960548
Evidence of Evolution
5. Vestigial structures
Structures that are not used in current form
http://www.kirksville.k12.mo.us/khs/teacher_web/alternative/whale-vestig
Evidence of Evolution
6. Molecular biology
DNA and proteins (amino acids)
- the subunit sequences of biological
molecules such as RNA, DNA, and
proteins indicates a common evolutionary
history.
Molecular biology: Hemoglobin
Case Study: Caribbean Anole
Lizards
Ongoing examples of evolution among
living organisms can be observed,
recorded, and tested.
In convergent evolution, organisms that
are not closely related resemble each
other because they have responded to
similar environments.
Case Study: Caribbean Anole
Lizards
Divergence and Radiation
In divergent evolution, related populations
become less similar as they respond to
different environments.
Adaptive radiation is the divergent evolution
of a single group of organisms in a new
environment.
Natural Selection of Anole Lizard
Species
Convergent Evolution
Species from different evolutionary branches may come
to resemble one another if they live in very similar
environments.
Example:
1. Ostrich (Africa) and Emu (Australia).
2. Sidewinder (Mojave Desert) and
Horned Viper (Middle East Desert)
Coevolution
Evolutionary change, in which one species act as a
selective force on a second species, inducing
adaptations that in turn act as selective force on the first
species.
Example:
1. Acacia ants and acacia trees
2. Humming birds and plants with flowers
long tubes
3. Antibiotic resistance among bacteria
with