B5 - Developing Theories to Explain Change (Updated 2024) PDF

Summary

These notes detail the development of theories to explain change, focusing on key ideas, figures and evidence influencing evolutionary biology. The document covers historical theories, natural selection, and evidence for evolution including examples from the works of Darwin, Lamarck and Wallace. It appears to be lecture notes or a study guide for biology students.

Full Transcript

B5 - Developing
Theories to
Explain Change
I can…
Discuss the importance of sexual reproduction with regards to individual
variation and evolution
Compare Lamarckian and Darwinian explanations of evolutionary change
Use evidence to explain the evolution of modern species from ancestral
forms
Developing Theories to Explain Change
Scientific hypothesis: Provides one
possible answer to a question or possible
explanations for an observation
○ Needs to be tested to determine validity
(truth)
Hypotheses that consistently lead to
successful predictions and explanations can
be synthesized into general statements that
explains a broad range of observations,
called a scientific theory
Historical Theory
Greek philosophers, Plato and
Aristotle, believed that life existed on
Earth in a perfected and unchanging
form
Before 18th century, widely believed
that living things were “fixed” and
stayed the same generation after
generation.
In the second half of 18th century,
scholars began to speculate about the
issue of evolution
Developing Theory of Natural Selection
Developed over many
centuries
Because of influence of
Roman Catholic Church in
Europe, few evolutionary
theories developed in 1700s
Georges-Louis Leclerc, Comte du Buffon (1749)
Noted similarities between humans and apes
Speculated that they have a common ancestor
Suggested Earth was much older than 6000
years old (was a common belief)
Georges Cuvier (1813)
Georges Cuvier published his Essay on the Theory of the
Earth, in which he studied ancient life through the
examination of fossils
Cuvier found that different groups of fossil species could
be found in different layers of rock, and that the deeper
(older) the stratum, the more dissimilar the species are
from modern life
Found evidence that new species appeared and others
disappeared as time passed
Showed species could become extinct
Hypothesized that destructive natural events (ex. floods,
volcanic eruptions) killed numerous species
Charles Lyell (1830)
Rejected ideas of evolutions - natural disasters
Suggested that geological processes that occur
on Earth are slow, meaning Earth was quite
old
Theorized that slow, subtle processes could
happen over longer periods of time and could
result in substantial changes
Jean Baptiste Lamarck (early 1800s)
Thought that characteristics
that were acquired during
an organism's’ lifetime could
be passed onto offspring
Called this “Inheritance of
Acquired Characteristics”
○ Ex. Giraffes stretching
to reach higher leaves
results in offspring
getting taller
His theory was rejected
Charles Darwin
In 1831, Darwin travelled aboard the HMS Beagle on a voyage to survey
the coast of South America
Made numerous observations regarding organisms he saw along the way
Named the “Father of Evolutionary Theory”
Darwin’s Observations
In South America, Darwin observed unusual fossil
species that resembled giant variations of the sloths
and armadillos living in the same region
He suspected that the living forms might have
descended from the fossilized species
He noted that species living in the South American
tropics did not resemble those living in the African
tropics
○ Did those species evolve independently?
Darwin’s Observations
The harsh landscape of the Galapagos
Islands is home to 13 very similar
species of finches that are found
nowhere else on Earth
Most closely resembled species living in
a very different habitat on the coast of
South America
Did they all evolve from a single species
that had arrived in the Galapagos from
South America?
Alfred Russel Wallace
At the same time that Darwin was
studying his observations, Wallace was
studying organisms in South America
and Malaysia
Theory of Evolution by Natural Selection
Darwin and Wallace were influenced by Thomas Malthus’ Essay on
Principles of Population, which stated: Populations produced more offspring
than environment could support.
Darwin and Wallace reasoned that competition for limited resources
would select for favorable traits (traits that increased chance of survival
and reproduction)
○ As time passed, a greater proportion of population would have these
beneficial traits as they improved their chances of surviving and
reproducing
○ Process is called natural selection
Evolution
Over time, populations of the same species that are exposed to different
environmental pressures can become so genetically different that they
can no longer interbreed
○ They diverge to become two separate species - this process is known
as evolution
Evolution: The process by which new species come into being
○ Natural selection is the mechanism by which evolution occurs
Further Evidence for Evolution
1. Fossils
2. Patterns of distribution
3. Anatomy
4. Embryology
5. Molecular biology
6. Genetics
1. Fossils
Found in layers of rocks near surface,
appear to be much more closely related
to modern species than fossils found in
older layers
Not all organisms appear in fossil record
at the same time, which indicates that
different species evolved at different
times
Changes were slow and took millions of
years
Transitional fossils: Found to fill in gaps
to the fossil record and link different
species together
2. Patterns of Distribution
Biogeography: Study of past and present
geographical distribution of organisms
Closely related species are almost never
found in exactly the same location/habitat
Examples of biogeographical evidence:
1. Animals in inlands resemble animals
on closest mainland.
2. Geographically close environments
carry related species, which aren’t
found in further, but environmentally
similar area
3. Similar fossils can be found on coasts
of neighboring continents
3. Comparative Anatomy
Many closely related organisms have
common homologous structure:
structures that have same origin and
general elements, but different
functions
○ Point to a common ancestor
Analogous structure: Body parts
with similar functions but different
evolutionary origins
The bones shown above have very similar ○ Don’t lend evidence to evolution
arrangements, but they all have different uses.
4. Embroyology
Embryos of different organisms
exhibit similar stages of embryonic
development
Points to common ancestral origin
Embryology is possibly the most
important evidence of evolution, as it
demonstrates how tiny changes in
protein signalling during
development can result in large-scale
anatomic change.

4. Embryology
In the early weeks of development, human
embryos possess a tail and gill slits (similar to
chicken and fish embryos)
The embryonic tail serves no function and
eventually serves as a tailbone (coccyx)
○ Provides stability and weight distribution
when sitting
5. Molecular Biology
Technologies have been developed to identify DNA and protein
molecules
○ Provide evidence to support idea of common ancestry and evolution
through natural selection
All cells consist of:
○ Membranes filled with water
○ Genetic material
○ Protein
○ Lipids and carbohydrates
Enzymes control biochemical reactions
6. Genetics
When Darwin proposed theory of extinction, little was
understood regarding genetics
Genetic evidence and understanding of heredity have
led to understanding that:
○ Species pass on their traits to offspring using
genetic material
○ Genetic materials can randomly change
(mutations), leading to variation in traits
DNA analysis has also been used to trace the
movement of the human species across the globe.